Co gee
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Coriell University
Library

College of Ercbitecture

Pw wary

 

1076

 
Cornell University Library

NA 7860.S74
Special apartment house number.
ao
NEW ‘SERIES VOL. V. No. VIII.

PUBLISHED MONTHLY.

PRICE 50 CENTS

 

ITECT

EVIE

+ AVGVST: 1903

 

RAL

-NO-VIIL-

 

Heiniske & Bowen,

Stained, Mosaic and
Wrought Glass Werkers.
Mosaic Inlay.
Memorial Windows.

OTTO HEINIGKE.
24-26 EAST 13th STREET,
NEW YORK. .

Udire Lath.

Plain, Stiffened and
Galvanized.

 

CLINTON WIRE CLOTH CO.,
CLINTON, MASS.

BOSTON. NEW YORK. CHICAGO.

‘Porthwestern Terra=
Cotta Company.

Architectural Terra- Cotta from Special
: Designs.

CLYBOURN AND WRIGHT-
WOOD AVES., CHICAGO.

 

oOwin Ford and
_ Frederick Brooks,

Domestic Colored Glass, Memorial Win-
dows, Mosaics.

19 BOYLSTON PLACE, BOSTON.

G. Coughlan & Sons

Steam Freestone Works

Cutters of the Stone Work on the
Day Mortuary Chapel
Illustrated in this issue ~
- Contractors’ and Builders’ Association, 95 Milk St.
Main Office and Works : :
Cor. ALBANY AND MALDEN STS.
BOSTON

TELEPHONE CONNECTION

Qtnamental Tron
and Bronze.

THE WINSLOW BROS. COMPANY,
CHICAGO, ILL.

Elevators

THE WINSLOW ELEVATOR
AND MACHINE CoO.,
CHICAGO, ILL.

 

UB arrabee-lRoscoe Co.

STAINED GLASS
INTERIOR DECORATION

Agents for
Maitland Armstrong & Co,, New York,
Sole Agents for
‘Clayton & Bell, London
27 SUDBURY STREET
BOSTON, MASS.

Foon ©. Dadmun
Photographer -
Architectural Photographs a Specialty

 

I refer to the publishers of this paper
for whom I am constantly
making special views

 

169 TREMONT ST., BOSTON
TELEPHONE 178-2 OXFORD

Masters in Art

Volume II. of ‘‘Masters in Art” com-
prises the issues from January, 1901, to
December, 1901, inclusive ( Parts 13 to 24).

Bound in cloth, $3 00 postraid.
Bound in half-morocco; $3 50 postpaid.

Subscribers’ copies of Volume IT, will be

bound to order in ether of these styles.
Price for binding in cloth, Sr 50.
Price for binding tn leather, $2.00.

BATES & GUILD COMPANY,

42 CHAUNCY ST., BOSTON, MASS.

 

Construction Details

A collection of 25 plates, 14x20 inches,

lithographed in colors, showing model
‘drawings of the best methods of con-
struction.

_By Francis W. Chandler, Professor of
Architecture, Mass.Inst. of Technology.
Price $10.00.

BATES & GUILD COMPANY,

42 CHAUNCY ST., BOSTON, MASS.

 

 

“‘Hutcher’s Boston Polish

IS THE BEST FINISH MADE for

INTERIOR WOODWORK & Furniture FLOORS
Not brittle, will neither scratch or deface, ts
not soft and sticky, yet ts perfectly transparent,
preserving the natural beauty of all woods.
The Most Economical and Sattsfactory Polish

ever devised for hardwood floors.
FOR SALE BY

Dealers in Paints, Hardware and Housefurnishing
Goods. For Free Booklet address

THE BUTCHER POLISH CO.
356 ATLANTIC AVE., BOSTON

 

(Sasters in Art

Volume If. of **\Masters in Art” com-
prises the issues from January, 1900, to
December, 1900, inclustve ( Parts 1 to 12).

Bound in cloth, $3.00 postpard.
Bound in half-morocco, $3.50 postpaid.

Subscribers’ copies of Volume I. will be

bound to order in ezther of these styles.
Price for binding in cloth, Br.5o. °° -
Price for binding in leather, $2.00.

BATES & GUILD COMPANY,

42 CHAUNCY ST., BOSTON, MASS.

 

 
THE ARCHITECTURAL REVIEW.

 

HALF ENOUGH WATER

Is quite enough for some people, but
most people want water every day. If

Rider or Ericsson Hot Air Pumps

are used you can have water every day
in the year, and your cook or stable
boy is the only engineer needed. 25000
in daily use. Catalogue N on applica-
tion to nearest store.

RIDER-ERICSSON ENGINE CO.

35 Warren St., New York. 239 Franklin St., Boston. 692 Craig St., Montreal, P.Q. §
40 Dearborn St., Chicago. 40 N. 7th St., Philadelphia. Teniente-Rey 71, Havana. A
22 & 22a Pitt St., Sydney, N.S.W

     

 

 

The Colonial Architecture f Maryland, Bean Wants aad Virginia |

Photographed and Compiled under the direction of

| JOSEPH EVERETT CHANDLER, ARCHITECT.
THIRD EDITION

The fifty plates comprise, among others, the following buildings, giving in many cases exterior and interior views and details to a large scale: 9
‘* Homewood,” Baltimore; a number of fine doorways, mantels, and other details, from Baltimore; the Chase, Scott, Harwood, Ridout and Brice
houses in Annapolis; ‘‘ Whitehall,” and the Wilson house, Maryland; the stone mansions of ‘‘Cliveden’’ and ‘“ Upsal,’’ and the Dunston and Bockiss
E houses in Germantown; the Arnold house and ‘*Woodfern” in Philadelphia; the University of Virginia, designed by Thomas Jefferson, ‘‘ Gunston
Hall,” ‘‘ Westover,” ‘‘ Farmington,” ‘‘ Monticello,” ‘‘ Shirley,’ and other mansions of Virginia; the Court House at Willamsbate, and a number of
other examples from all parts of this region.

50 Plates, 12x15, in portfolio, Price, express paid, $12.00.

| cans = GUILD COMPANY, 42 SAINGe STREET, BOSTON.
«l

 

 

 

 

‘The Hydraulic-Press Brick Co.

MAKES

Front Bricks for Facing Walls in Standard, Romanor = Glazed Bricks — English, Roman and Standard sizes.
Norman size, all colors.

: Bricks with Impervious White or Gray Face
Common Red Bricks for buildings, sidewalks and sewers. Dead finish—non-absorbent, kept clean by action of the elements.

Enameled Bricks of various colors — English, Roman Ornamental Shapes of Bricks Over three hundred
and Standard sizes. and fifty correct mouldings. All colors known to clay working.

We Grind Bricks for Arches Semi-circular, Seginent, Elliptical, Gothic or Flat.

CORRESPONDENCE SHOULD BE ADDRESSED TO NEAREST ADDRESS.

Hydraulic-Press Brick Company. Boston, Mass. — Equitable Bldg., Fredenberg & Lounsbury,
St. Louis, Mo. Tllgwole Hye es Gaines a Mp. Builders Exchange Building. (Agents.
American Hydraulic-Press Brick Company. ORK Metropolitan Bldg., Fredenberg & Lounsbury,
PHILapELpHiA, Pa. Eastern Hydraulic-Press Brick Company. [Agents.
Cuicaco, Its. Chicago Hydraulic-Press Brick Company. SALES AGENTS.
WasuincTon, D.C. Washington Hydraulic-Press Brick Company.
Rocuester, N.Y. New York Hydraulic-Press Brick Company. MILWAvKEE, Wis. Ricketson & Schwarz, University Building.
Kansas Ciry, Mo. Kansas City Hydraulic-Press Brick Company. Detroit, Micu. Thomas Bros. & Co., Hammond Building
Finpiay, On1o Findlay Hydraulic-Press Brick Company. New Orveans, La. F. Codman Ford, 304 Baronne Street.
CLEVELAND, Ou10 Cleveland Hydraulic-Press Brick Company. Louisvit_z, Ky. Owen Tyler, Equitable Building.
Oman, Neus. Omaha Hydraulic-Press Brick Company. ATLANTA, Ga. Sciple Sons, No. 8 Lloyd Street.
Megnomoniz, Wis. Monomonie Hydraulic-Press Brick Company. Mempuis, TENN. Memphis Mfg. & Brick Co., 57 Madison Street.

MINNEAPOLIS, Minn. Menomonie Hydraulic-Press Brick Company. Cincinnati, On10 ~=L. H. McCammon Bros.

 

 
THE ARCHITECTURAL REVIEW.

il

 

 

 

 

eet

=, ANNOUNCEMENT

OR the convenience of customers in New York and the

metropolitan district, and especially of architects and their

clients, the Exhibit Rooms and Contract Department here-
tofore connected with the General Offices, at Numbers g, 11 and
13 Murray Street, have been transferred by the

Yale & Towne Mtg. Co.

fo 242 Fifth Avenue, New York

 

 

“PC rel Te
fe rcerera)

Customers are invited to avail of the improved facilities thus offered
for the selection of locks and hardware for buildings of all classes.
Special provision is made for the inspection and selection of
artistic hardware of the higher grades.

Hereafter all correspondence relating to Contract Work in the
metropolitan district should be addressed as above.

 

 

 

 

 

 

Florida Gulf Cypress

the interior finish
bar-excellence

for Apartment Houses

 

 

 

 

Olpners say they can let apartments finished in our Florida

Gulf Cypress better and quicker than when they
are finished in other cypress or in other kinds of wood. The great bariety of
grain and tone admits of gibing each room an indibidual treatment, While
keeping the finish of the entire suite in harmony. That there is no comparison
betlveen our cypress and that furnished by others is apparent to any one who

 

THE ANSONIA

takes the trouble to inbestigate. Cypress is our specialty; we put out nothing

New York’s Largest Apartment House we are not proud to tack “STEARNS” to. That word is cypress insurance.
“Giant” Metal Sash Chain of course

THE SMITH & EGGE MFG. CO., BRIDGEPORT, CONN. The A. T. Stearns Lumber Company

 

 

 

 

 

Neponset, Boston, Mass.

 

 

 

 

 
THE ARCHITECTURAL REVIEW.

 

 

e
Sectional Glass Cluster Reflectors
FOR APARTMENT HOUSES
We make a large line of cluster reflectors of all sizes and styles, including dome lights, and are pre-
pared to furnish these fixtures in special designs to match interior decorations either from our own or the

architects’ sketches. For offices, dining rooms and corridors of apartment houses there are no fixtures
that equal these for maximum reflecting power or perfectly even diffusion. Correspondence invited.

I. P. FRINK, 551 Pearl Street, NEW YORK

 

 

 

 

 

Persian Rugs

 

 

Our large collection of rare antique and mod-

ern rugs and carpets is offered for the inspection

 

of architects, decorators and their clients.

KENT-COSTIKYAN Colors and sizes not usually found are con-
MAKERS AND IMPORTERS. stantly available.
Fine Persian Rucs ano Carrets
WHOLESALE We make a specialty of order work for an
p y ny
$390 Broaoway, Cor. 19" Street,New Yorn :
Teuonones #2 18™Sracer scheme of decorative treatment.

We are constantly receiving shipments from

Persia from our own representatives.

 

 

 

 

 

 

English Country Houses

One Hundred Albertype Plates, 11x14 inches. In Portfolio, Ten Dollars. Bound, Twelbe Dollars

This is undoubtedly the best photographic collection of old English Country Houses ever published. To the architect who has country houses
to design it is invaluable. The plates show one hundred and twenty-four subjects, all exteriors, representing the most beautiful brick and stone
architecture of the Tudor, Elizabethan and Georgian periods. The sale of this book, calling for two unusually large editions, is proof of

its popularity. It is uniform in every respect, except color of bindings, with English Country Churches advertised on the opposite page.

Sent express paid on receipt of price

BATES & GUILD COMPANY, Publishers, FORTY-TWO CHAUNCY STREET, BOSTON

 

 

 

 

 

 

 

 
THE ARCHITECTURAL REVIEW.

 

 

 

 

The day has bassed when ventilation was regarded as a luxury. Today it is recognized
as a necessity to the maintenance of health and mental activity. Improvement in methods has
been largely the result of employing positive means—the fan blower—to produce positive results.

With the Sturtevant or Blower System, the air is put where it is wanted, not
merely allowed to go; it is heated by coils massed at a central point, without danger of leakage
or freezing, and the temperature is automatically controlled. Send for Catalogue A112R.

B. F. STURTEVANT COMPANY, BOSTON, MASS.

New York Philadelphia Chicago London

 

 

 

 

“Burnham”
Boilers

FOR STEAM AND WATER HEATING OF DWELL-
INGS, OFFICE BUILDINGS, GREENHOUSES,

APARTMENT HOUSES

ETC.

RELIABLE
DURABLE
ECONOMICAL

Quickly Set, Tight Joints
Easily Managed

Lord & Burnham Co

New York Office
St. James Building, Broadway and 26th Street

 

<<

 

 

 

General Office and Works
Irvington-on- Hudson, N.Y.

 

CATALOGUE UPON APPLICATION

 

 

 

 

English Country Churches

One Hundred Albertype Plates, 11x14 inches. In Portfolio, Ten Dollars. Bound, Twelbe Dollars

A selection by Mr. RatpH Apams Cram of the best examples of churches in the Norman, Early English, Decorated and Perpendicular Styles, made
with a view to providing American architects with types most thoroughly adapted to our rural and suburban conditions. The collection includes eighty-seven

exterior and thirteen interior views, and is for the most part restricted to sma// and picturesque village churches, many of them hitherto unknown to

Americans, but of the greatest value in designing small churches in this country, SENT EXPRESS PAID ON RECEIPT OF PRICE

BATES & GUILD COMPANY, Number FORTY-TWO CHAUNCY STREET, BOSTON, MASS

 

 

 

 

 

 
THE ARCHITECTURAL REVIEW.

 

 

 

Ball Bearing
HINGES

m Wrought Bronze or Steel

 

 

NEVER WEAR DOWN
NEY ER G ROE A EK
NEVER REQUIRE OILING

 

Superb in Finish. Low in Cost

HESE illus-

trations are

taken from
our brochure entitled
“A Short Talk on an
Important Subject by
an Attractive Talker,” which contains a num-
ber of illustrations and a description of the
hinges. @ We have also an artistic calendar
for 1903, being a reproduction in colors of
a painting by W. Granville Smith, of a hall
in the palace of Louis XI., XV. Century.

 

Architects are invited to send for either or both.

The Stanley Works

DEPARTMENT O

 

New Britain, Connecticut,

No. 79 Chambers Street, New York

 

 

 
THE ARCHITECTURAL REVIEW.

vil

 

 

 

 

  

   

   

“Dk w > tf 9 DD & w
Non-Arcing Fuse, Non-Arcing Fuse,
250 VOLTS. 3 . YU $= 250 sous

(@)

 

Blvcso mare (8 hj I e SE ieee BO ames. Bi ni m,
Type C indicating fuse before blowing E-ye ndica fol Type C indicating fuse after blowing

An absolutely flashless debice indicating the blolwn fuse instantly

@ This is the “SPOT” referred to in Mr. P. R. Moses’ article on
Watch the target on the label of the fuse. ———— Electrical Wiring, on page 111,

D. & W. Fuse Company, Providence, R.I.

A. HALL BERRY, New York Representative, 92 William Street

OFFICES:

Boston New York Philadelphia Chicago St. Louis San Francisco
Pettingell-Andrews Co. Western Electric Co. Western Electric Co. Central Electric Co. Western Electric Co. California Electrical Works

 

 

 

 

 

 

Stained Pine Finish for Apartment Buildings

FTER long experiment, we have succeeded in producing an
exceedingly handsome Stained Pine Finish for general interior
work. It is perfectly dead in effect, has a rich, soft coloring,
and brings out all the beauty of the grain. It is unique in
effect and is being used in handsome residences with splendid results.
Attention is called to the fact that by using this Stained Finish Georgia
Pine and the other soft woods may be substituted for the more costly
hard woods with a great saving in expense. For this reason it is
especially adapted to use in Apartment Buildings.
The beauty of the finish obtained will surprise you. It is shown in
several shades.
Weathered Oak Finish of great beauty.
On request we shall be pleased to mail to any architect or contractor
a full set of stained panels. Correspondence solicited.

 

 

CHICAGO VARNISH COMPANY

NEW YORK CHICAGO BOSTON
22 Vesey Street Dearborn Avenue and Kinzie Street 66 High Street

 

 

 

 

Any Architect 'O [ IN I R Y HO l / S i S Cannot Offer
who Designs his Client a

More Conbineing Proof of the Desirability of Well-Planned Surroundings than by showing him a copy of

American Gardens

The Only Book Which Illustrates by Example what can be accomplished under American Conditions
PRICE $7.50. Express Paid Send for Descriptibe Circular

Bates & Guild Company, Publishers, 42 Chauncy St., Boston, Mass.

 

 

 

 

 

 

 

 
THE ARCHITECTURAL

REVIEW.

 

 

 

For high-class Filter Plants specify
Filt

built especially for entire supply of
fine residences, apartment buildings,
drinking water systems for hotels,
ice plants, etc. Filtering medium our
own porcelain cylinders and surface
of twenty-three square feet gibes
more surface and greater capacity
than any stone filter eberconstructed.
To clean it is only necessary to
open a flush-cock and rebolbe the
crank. Strong reberse current and
patent quick cleaning debice rids
filter of all sediment in one minute.
Used in hundreds of the finest establish-

ments of West and South for the
past decade, including

St. Nicholas Hotel, Cincinnati
Traction Building, Cincinnati
Queen City Club, Cincinnati
Mo. Pac. R.R. Hospital, St. Louis
Nat'l Bank Commerce, St. Louis
U.S. Naval Station, New Orleans

 

MAJESTIC CAFE
Jos. Kueny, Prop. 524-52

CINCINNATI, OHIO.

The Lynn Filter Mfg. Co., City:
Gentlemen; — We take pleasure in advising in
answer to your inquiry regarding LYNN Filters
that we absolutely couldn’t do without them. The
three large machines installed by you not only run
our entire building, including kite hen, cafe, bar,
etc., but also our ice plant. Our engineer says that
the quality of our ice is not excelled by any in the
city. The LYNN Filters are no trouble to operate,
easily cleaned, the water is always clear as a
crystal, and we believe there is nothing better in

the way of a filter on the market. Yours truly,

Jos. D. Kuexy.

 

6 Vine St.

FOUCAR
429 WacnuT St. ’Phone, Main 2037
CINCINNATI, OHIO
The Lynn Filter Mfg. Co., City:

Gentlemen: —We have been using the LYNN
Filters in our ice plant for some time with perfect
satisfaction. The water is always fine and clean
and makes an A-r grade of ice. By keeping about
7o lbs. pressure on the filters and feeding into a
terse tank, we get all the water needed, including
bar, cafe, etc

Having used the LYNN Filter for the past six
years we can heartily endorse them as being reli-
able in every respect. They do more than you
claim for them. Yours truly,

THeo. M.

  

Foucar.

 

Catalog and full information on request.

Correspondence solicited

The LYNN FILTER MFG. CO

 

 

 

 

 

THE KENNEY MANUFACTURING COMPANY

36 EAST TWENTY-SECOND STREET, NEW YORK

Manufacturers of the

“FLUSHOMETER’”

(TRADE MARK)

 

 

HE NEY MANUFACTURING COMPANY is the originator of the '* Flushometer * System
spoken of by Mr. Semsch in this number. The Company claim the exclusive right to this word
and have instituted several suits against other companies for use of same. Infringement suits have

already been begun in the United States Circuit Court of this district against the Wells & Newton
Company of New York for selling the so-called ‘‘ Aquameter’”’ valve made | by the Federal Company of

 

 

 

 

 

 

 

Chicago. Suits against other infringers are to follow. .
, 7 a Es =
Neve OU a aS oe CINCINNATI, OHIO St. Lom oe THE KENNEY MANUFACTURING COMPANY.
. e
Is Unequaled for High-Class Installation
Tue ANSONIA. 73D AND Broavway, N.Y.
ELDORADO APARTMENTS, NEW YORK CITY Sta can ;
Paurt E. Dunoy, ARcHITECT. REGINALD PELHAM Botton, ConsuLtinG ENGINEER.

 

DEPOT, RICHMOND, VA.;

FLEXIBLE METALLIC CONDUIT IS SPECIFIED BY THE LEADING
ARCHITECTS THROUGHOUT THE COUNTRY, AND SHOULD
ALWAYS BE USED WHERE THOROUGH PROTECTION TO WIRES
AND INSULATION IS ESSENTIAL. AMONG THE MANY BUILDINGS
IN WHICH THIS TYPE OF CONDUIT IS INSTALLED ARE THE
FOLLOWING:— GOVERNMENT PRINTING OFFICE, WASHINGTON,
D.C.; WAYNE COUNTY BUILDING, DETROIT, MICH.;
TOWN HALL,
N.Y.; FIRE DEPARTMENT HEADQUARTERS, NEW YORK CITY.
WRITE FOR DESCRIPTIVE BULLETIN NO. 41220

UNION
IRVINGTON-ON-HUDSON,

 

 

SPRAGUE ELECTRIC CONDUIT

General Offices: 527-531 West 34th Street, New York

 

 

 

Heated and Ventilated by

Francis Bros. & Jellett, Znc.

Heating and Ventilating
Engineers

245-247 North Broad Street
PHILADELPHIA

47 East 18th Street
NEW YORK

 

 

 
THE ARCHITECTURAL REVIEW

 

 

 

 

 

 

 

TENANT WINNERS

for Apartment Houses

dK AB
4,
£ x dx *8
x
ae de
By bP
KR dx
LL
PORTAL RING *
oR deg

a

rt

wis My

 

Lowrie’s 13-inch Wall Safe

securely anchored, weight about 75 lbs., white enameled
interior 6', x 7 x'3 11 inches, price $25.00.

Costs to place in wall, $1.00 to $5.00

Price reduced for quantities.

Lowrie Lockers

about one-half the size, half the price. Sample sent,
freight prepaid. If not entirely satisfactory, immediate
return (our expense) will bring immediate refund, as to
either size.

Lowrie Silver’ Drawer

12 x 20 x 36 inches, price $125.00.

All the receptacles are Strong, Secure, Secreted. All have
Perfect Combination Locks, instantly changeable. All are
being placed in the finest buildings. They attract every
one. Will often rent the premises.

 

 

SEND FOR ILLUSTRATIONS, TESTIMONIALS, ETC.

 

COME AND SEE IN THE WALL OR HAVE
SALESMAN CALL WITH SAMPLES

 

 

IN NEW YORK, 1106 Fuller (Flatiron) Building
Telephone No. 640 18th St.

IN CHICAGO, 118 West Jackson Boulevard
Telephone 1552 Monroe

THE LOWRIE SAFE
AND LOCK COMPANY

 

 

APARTMENTS

LIKE HOTELS AND
OFFICE BUILDINGS

ARE NOT COMPLETE WITHOUT

 

THE

CUTLER SAFETY
MAILING SYSTEM
U.S. MAIL CHUTE

by means of which mail matter deposited in any story is safely

‘transmitted to the United States mail box in the ground floor

corridor, from whence it is taken at regular hours by the
official collectors of the Post Office.

Architects and others interested are invited to consult us freely
with regard to cases involving any special difficulties, and our
circulars and other printed matter, with drawings, estimates,
etc., are always to be had for the asking. Special light finishes
to match interior decoration when desired.

THE CUTLER MFG. CO. »

Butler Building
Rochester, N.Y.

Patented and authorized. In use in many hundred buildings in every large and
many small cities of the United States

 

 

 

 

 

 

 

 

 

 

 

 

 
x THE ARCHITECTURAL REVIEW.

 

 

— " ¥_ Sheathing and ¢¢ ‘| t?
OE gi casos | aa Cabot S Deafening Oui t
LT A Scientific Insulator — A Perfect Deadener

Not a mere felt or paper, but a cushion of dead-air spaces, giving the highest
insulating power. The only deadener that breaks up and absorbs the sound
waves. Shown by Professor Norton’s tests for the New England Conservatory
of Music to be the most efficient, lightest, and simplest method of sound-proofing.

   

Fall Information on Request

SAMUEL CABOT, Sole Manufacturer, Boston, Mass.

28 Dearborn Avenue, Chicago. 29 New Montgomery Street, San Francisco. 8 Wooster Street, New York

 

 

 

 

 

 

 

Mcomeaht oe eee ert oer, ees oer geen]

Art
Hardware

Harmonious with all

 

Unique Finishes for
Stained Pine and Oak

 

 

 

 

1£V5 BALL BEARI
IN

| WROUGHT BRONZE AND STEEL a
ARTISTIC BOOKLET ON APPLICATION. He A Perfec tly Dead
GUE STANLEY WorKs. DEPT 97} S STAINED PINE
NEW BRITAIN. CONN. |e =s=—— FINISH

This is entirely new in style,
has a soft, rich coloring, and
transforms pine finish from a
cheap effect to one of great
beauty Nothing like it ever

The Roech ue System before shown.
of Fire-Proofing | WEATHERED OAK

 

 

{sia

 

 

 

well-known
Architectural Styles

 

 

 

 

THE ROEBLING CONSTRUCTION CO. ==— FINISHES ==
. Boston Office, 178 Devonshire St. 121 Liberty St., N.Y. City
Russell & Erwin ce eee eae
ese are perfectly dead, bring
Manufacturin Co out the beauty of the grain,
ee Improved SHIELD Cement a eee
New Britain Conn On request we shall be pleased

Once Used — Always Used to send a full set of panels
with finishing details to all
Architects and Builders

Correspondence Solicited.

 

G Boston clients may see our hardware as it would
appear in actual use at our Boston Office, number
814 State Street, Exchange Building, and with
Chandler & Barber, numbers 122-126 Summer St

Stands
Requirements
of Architects Chicago Varnish Co.

Dearborn and Kinzie, Chicago
22 Vesey Street, New York
66 High Street, Boston

 

 

 

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FOR INFORMATION ABOUT

U.S. Mail Chutes | The Lawrence Cement Company

 

ana Betsey, waite 49 the Bole Mawere Sales Office, No. 1 Broadway, New York “ Bardsley ” Checking Spring Hinge
THE CUTLER MFG. CO., ROCHESTER, N.Y. E. R. ACKERMAN, President =

Patented. Authorized. Assoc. Am. Soc. C.E. |

 

 

Both quality and price argue all the time in behalf of

‘.“GURNEY” HEATERS

flot Water or Steam

 

They are constructed along the most approved lines, have well proportioned
grate arcas, made of the best quality of iron by skilled workmen, and will be
found thoroughly reliable in operation, Capacities fully guaranteed. Used
and recommended by the leading architects and heating engineers. Send for Adapted to all classes of single and double acting doors. It
latest trade catalogue. ? closes the door with a soft, gentle and noiseless action, and
Stops it at once at the center. It goes in the floor under the

u = - i ‘ 2 door. Made in six sizes. E E
RNEY HEATER MFG. Co. JOSEPH BARDSLEY

NEW YORK, 147-151 Baxter Street

: : : CHICAGO, ILL., 86 Lake Street

-224 Lake St., Chicago, Ill. rit Fifth Ave., New York City BOSTON, MASS., 19 Pearl Street

SAN FRANCISCO, CAL., 519 Mission Street

  

ling Agents, James B. Clow & Sons, 74 Franklin Street, Boston

 

 

 

 

 
The Architectural Review.

 

 

The Planning of Apartment Houses and | enements.

By Ernest Friaaa.

HE apartment house is the result of high priced land.
Other things being equal, humanity prefers separate
houses. It is only when they become too costly that the
expedient of placing several families under the same roof
is resorted to. As economy of space is the reason for, and
object of this class of buildings, economy of space should
be the ruling principle in making the plans. In this task the chief
difficulty, and the part of the problem calling for the exercise of
the greatest ingenuity on the part of the planner, is the proper
lighting of the interior. In other words, how to sufficiently light
the rooms not facing on the street with the least sacrifice of the
valuable land. If not well lighted, the building will be a failure
from the hygienic standpoint, and very likely a failure from the
economic standpoint also, for dark rooms can never rent well if
light ones are to be had. On the other hand, if an unnecessary
amount of
space is left
vacant, the

 

 

building will werd
be an eco-

nomic fail- .
ure, for as a Lining rom [Living rom

Lo of ft

financial en-
Kr Kitchen

terprise it
cannot com-
pete suc-
cessfully
with other oe
buildings z
where the
happy mean
of light with

1
economy of | |

 

 

 

 

 

 

space has
been at-
tained.

Two great
dangers lie

/

Kitchen. Kitchen
=y

 

Living reom [~ room
sg

 

 

 

[Bed room|
me A
Court EBcourt
FA
' L]

 

in the path
of the plan-
ner, and
many a plan Fic. 1.

is ruined
thereby : greed, which overreaches itself in the attempt to obtain

too much, and complication of plan, which is always wasteful.
Both of these faults are well illustrated in the case of the typical
New York tenement house of the past. This is probably as bad a
plan as ever was invented: it is a complicated plan too large for
the lot, and is the result of a combination of greed with ignorance.
The greed might be excused were it not for the ignorance — the
combination is deadly when applied to dwellings for the poor. Of
course the desire to get all the space possible is natural ; it may
even be commendable, for the more economically the buildings are
planned, the less the burden on the tenant. The viciousness of the

plan consists in the disregard of hygienic considerations In the

desire for floor space to rent. .
Here is a plan of one floor of four of these houses placed side

by side on a lot one hundred feet square (Fig. 1). There are miles
upon miles of this sort of dwelling in New York, but happily no
more of them can be built, thanks to the Tenement House Law of

 

1g0t. Each house is intended for four families toa floor. It will
be seen at a glance that in each apartment there is only one light
room,—in the front those that face the street, and in the rear
those that face the yard,—all the other rooms open on narrow
shafts or courts, which are too small to furnish sufficient light to
the lower stories, but plenty large enough for the transmission of
noise, heat, odors, disease, and, in the case of fire, flames from one
apartment to another, and from house to house, Each building
occupies a lot 25 ft. by 100 ft. Could there be any better illustra-
tion of an attempt to do too much with the means and the intelli-
gence at the disposal of the planner? Here we also have an
illustration of the complication of plan spoken of. See the great
amount of wall required, its numerous bends and angles, the
length of corridor, and with it the cramped stairs and the utter
lack of privacy as shown in the arrangement of the apartments.
Now to
show how
unnecessary
all this is,
we give an-
other plan
CE e 22")
made by the
writer, and,
like the
other, occu-
pying a plot
100 ft. by
100 ft.,—
but in this
case a larger
unit is taken
for the
buildings
and there
are only two
instead of
four houses
“ ™ = for the plot.
Ace There is,
Tyhical upher floor perhaps, in
Fic. 2. this plan the
same evi-
dence of greed for space, but there is also (and one may say so
without taking for himself any very high degree of praise) evidence
of more intelligence on the part of the planner. In this plan
there are the same number of rooms to the floor to the lot, and
the rooms are just as large, indeed, somewhat larger, but the space
is not secured at the expense of the area which ought to be left
vacant for light and air. This plan complies with all the require-
ments of the Tenement Law of 1901. When the buildings are
placed side by side the courts are 24 feet wide; by the other plan
they are only about 5 feet wide. Although the area left vacant in
this plan is nearly one-third greater than in the other, there is no
loss whatever in the rentable area or in the number of rooms.
The saving is effected entirely in the economy of space occupied
by the constructive parts and means of communication, There
is less wall, less space in corridors, and these savings are made
with advantage to the plan, both as regards construction and
arrangement. This result has been accomplished by taking a

Living room | Living
Zod eae

20 ™ é

y Living room
= mr

Kitchen Living room Living, room
roe 79 eg "Br

=I) 4
Kitchen | Living room [4 Living
76 2 ¢ a7

$ ng

Ae
red 7 | 79

Store
zag

room| Bed reom| Livi
20g | aoe | ise $

   

Ground floor plan

Copyright, 1902, by Bates & Guild Company.
o6 THE ARCHITECTURAL REVIEW.

 

larger unit for the building and making a simpler and more straight-
forward plan.

A study of the two plans will show, therefore, that economy
both in building material and space may often be effected by a
simple plan as compared with one of more complicated design, and
that a percentage of rentable floor area too great for a small lot
may not be too great for a larger one. There is also another truth
which they illustrate, viz: that it is not so much the amount of
space left vacant that insures the proper lighting of a building, as
it is the way that space is managed. For the combined area of
the three enclosed light shafts or courts of the first plan is greater
than the area of the one enclosed court of the second, but the
three small shafts do not properly light the interior of the building,
while the one larger one of the second plan does light it. There-
fore we may lay down the rule: In planning houses for limited
areas every effort should be made to consolidate the space left vacant
for light.

It may be well to say here, that in the foregoing and what
follows, we are, in general, discussing only inside buildings, that
is to say, plans for lots not on a corner. This is the most difficult
part of the problem and the part with which the architect has most
frequently to deal. Also, that in selecting plans for illustration,

we have taken those for the most common form of lot, but the

         
 
     
   
 
 
 
 
 
 
 

 

 

 

 

 

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Main Corridor,

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tee
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principles which apply to them will also apply to buildings for
corners and for lots of exceptional shapes and sizes.

We will, however, digress from this rule so far as to consider
the plan of one apartment house recently erected in New York, of
exceptional size and cost, because it affords such an admirable
illustration of the truth of what has been said in reference to com-
plication of plan and consolidation of light. Here is the plan (Fig. 3).

The building occupies a plot of somewhat over forty thousand
square feet, is seventeen stories high, and is reported to have cost
several millions of dollars. The plan is complicated and the lighting
can hardly be called good. Many of the rooms facing on the
recessed Courts are not well lighted, and there is a great deal of
interior space which is practically not lighted at all, for the shafts
intended to light it are evidently too smal] to be of any use below
a few of the upper stories Most of the rooms are of irregular
shape, without symmetry or beauty of form.

A person who understood the principles of planning could have
seen at a glance that the plan was wasteful, not only because of
its complication, but because of the method of lighting. When
rooms of the size of these have their long sides toward the street,
(as many of them have) there is a waste of resourees, and what
such rooms have in frontage in excess of their needs, must be paid
for elsewhere, either by poorer light for others, or by loss of space.
Such mistakes could hardly have been made by a professional plan-

ner. In this case the owner was his own architect. Perhaps the
pleasure he derived from the work was more than an equivalent for
the five or six hundred thousand dollars which might have been
saved by a more skillful planner. Be this as it may, it is certain
that five or six hundred thousand dollars is a very moderate esti-
mate of the wastefulness of the plan. This diagram (Fig. 4) shows
what an immense saving might have been effected by consolidating
the light area, and by simplifying the plan, for a plan made in the
way indicated would have furnished quite as much rentable floor
area as was obtained; the building would have been reduced in
size and cost; and the value of the rooms would have been
greater by reason of their better lighting; the expensive fagade
would have been reduced in length by more than twenty per cent,
the construction of the building would have been simplified and
cheapened, and the shape and arrangement of the rooms improved.
It is a peculiar fact that most people, no matter how ignorant they
may feel as regards other branches of knowledge, account them-
selves fully qualified to plan a building; few realize how much may
be saved or lost by a plan. This building illustrates how in this
work thousands may literally be thrown away or gained by a stroke
of a line. The moral is that the making of a plan for such a build-
ing should only be entrusted to one fully qualified to do it by train-
ing and experience.

    
 

a

Whenever and wherever a people build, the builders soon adopt a
certain type or certain types of plan for each class of building, and
the type or types will persist, perhaps for ages in the locality where
they are used. When a type of plan is once adopted it is extremely
hard to change it. Indeed, one may say these types can only be
changed by changing circumstances and customs, or by restrictive
legislation. To change the types of plan used for the New York
tenement house was the object of the Tenement House Law of
1901. These types have come into use so recently that it is easy
to trace their evolution from the old dwelling houses, on lots 25 ft. by
100 ft., converted into tenements to the plan illustrated in Fig. f.
The successive changes in the plan from its first adoption were
brought about not by the changing wants and habits of the people,
but by restrictive legislation, which was intended to improve the
type, but which worked in a contrary fashion for the reason that
the law-makers did not thoroughly understand the problem with
which they had to deal, and failed to strike at the root of the evil,
which was the shape and size of the lot. | What former laws failed to
accomplish the law of 1go1 is bringing about, for it makes t
by roo ft. unit, which is the foundation of the type, unpro
use. The planners have not yet hit upon a definite type
to take the place of the old one, but one is suggested by

visions of the law, and it will be interesting to watch its
ment,
THE ARCHITECTURAL REVIEW.

ao
“I

 

We have said that wherever people build they adopt a certain
type, or certain types of plan for each class of buildings. By this
it is not meant that all the buildings of a certain class have the
same plan, but that they generally have the same kind of a plan.
If we look at the plans of the exca-
vated buildings of Pompeii, for in-
stance, we will have little difficulty in
distinguishing the normal plan of the
dwelling house. If we examine the
plans of Paris in the same way, we shall
have just as little difficulty in distin-
guishing the normal type of plan used
there for the apartment house. The
shape and size of the building, or the
plot on which it stands, may vary ad
tnfinitum, and in fact it does so vary,
and the plan varies too, but though
the plans differ very greatly from each
other, yet they are all of the same
kind. The normal type of plan is the
one to which the planner seems most
naturally to revert when the condi-
tions are favorable, and to which
yl eee ee §6— almost al] the plans bear a certain

family resemblance. If one studies
Rue the plans of an American city, he will
find we have our types just as clearly
defined but many of them are crude
and unscientific, and seem to have come in by chance. This is
particularly true of the apartment house plan.

Although we have our own peculiar habits and manner of life,
which differ in many respects from those of any other people, and
which must be taken into account by the planner, yet the study of
the typical plans of older communities which have been evolved by
centuries of experience, is useful, especially for a people who, like
us, are only entering upon an era of apartment house building.
Perhaps no better types for such study can be found than those of
France. The normal plan for the French apartment is something
like this (Fig. 6). If the plot permits, two apartments may be
placed side by side, thus (Fig. 7), each apartment facing the street ;
or there may be four, thus (Fig. 8; see also Figs. 10 and 15), the
apartments at the rear receiving their light from the court or the
garden. Several features of these plans may strike the American
as peculiar. For instance, the light for the rooms is obtained entirely
from the street or from courts on the property, large enough to
insure the proper lighting of the interior ; therefore each building is
absolutely independent of the adjoining property for its light. It
is easy to see that laws are in force, where such plans were
made, which not only govern the proper lighting of the building,
but which protect the owner against encroachment by neighbors on
his legitimate amount of light and air. The time is rapidly coming
when we will understand the necessity for such laws, and will regret
the want of foresight which has so long delayed their enactment.

Another peculiarity of the plan is the general absence of cor-
ridors. The corridors that are supplied are for service only, and
are narrow and unimportant. It seems that here also we can
draw a useful lesson. In American apartment houses the cor-
ridors occupy a very consider-
able proportion of the area of
the apartment; they cost as
much to build as the same space
would cost if in rooms, and
they are of no use to the occu-
pant of the apartment except
as a means of communication
between the rooms. Now if,
as in these French apartments,
one can reach any room by
passing through one of two
others, where is the need of the
corridor? If, for instance, a

Street bedroomcan bereached by pass-

Fic. 7. ing either through the dining-

room or the parlor, why is not

this sufficient? In practice it is found to be so. American fami-

lies occupy French apartments and find them delightful, yet we

never think of planning an apartment except on the theory that
every room must be reached by the corridor.

Another striking characteristic is the driveway into the court,
and the court itself (see Figs. 9, 11 and 14). American planners

 

Le |

Cuisine Grande Cour |

| Chamhbr. |
a

 

 

Salle a Manger |Chamhre

 

ee Antichamhre

eek Benes

 

Petit salon | Grand salon

Chainbre

 

 

Fic. 6.

 

 

 

 

 

 

 

 

 

 

feel that they cannot afford enough space for courts of this kind,
yet as a matter of fact the courtyard of the French house does
not usually occupy a greater percentage of the area of the lot than
is left vacant here for light and air. The difference is that the
French planner uses more skill in its management; he under-
stands that in order to obtain good light for the interior of a build-
ing one must consolidate, so to speak, the area left vacant,— one
square court of sufficient size serving much better for lighting the
interior of the building than any amount of narrow courts or
shafts. The driveway, besides affording a fine entrance for the
building, also serves for the ventilation of the court. It is the
custom in French apartment houses of the better class to stable
the horses and carriages of the tenants on the ground floor, at
the sides or back of the court (see Figs. 11, g and 14), an ar-
rangement which would be objectionable in this climate so far as
the horses are concerned, but the advent of the automobile will
soon make some such arrangement desirable.

The planning of some apartments, as the French do, with
no other outlook than on the court or garden, seems objectionable
to us, especially for the larger and more expensive apartments,
but they take a different view of the matter. The writer when in
Paris, lived for some years in a house, the street end and the
wings at the sides of the court of which were given up to small
apartments and shops, while what we would call the rear, or the
part facing the garden, was occupied by a dwelling of great extent
and cost. The plan of the building, No. 11 Rue de Milan
(Figs. 11 and 12) illustrates this peculiarly. The end of this
building towards the street is occupied by several apartments, one
to each floor, while the end towards the garden is given up to one
much larger and finer establishment extending through several
floors.

The small size of the kitchens of most French apartments and
the great distance of many of them from the dining-rooms, (Figs.
13 and 16) strikes us as peculiar and objectionable, but in practice
itis not so bad as one would think who had not kept house in Paris.

Another peculiarity of the French house which does not
appear from the plans here given, is the occupancy of the same
building by the rich and the poor. The buildings are generally
six stories high, and as there are no elevators except in the more
modern houses, the upper floors are not desirable on account of
the difficulty of reaching them. They are usually divided into a
number of small cheap apartments, reached by means of the stair-
cases used by the servants belonging to the grand apartments of
the lower floors ; so that an apartment house in a good neighbor-
hood in Paris is, in a way, a more democratic institution than one
in a similar location in New York.

Notwithstanding the difference in the social habits and cus-
toms of the people for whom
these plans were made, it would
seem as if we might appropri-
ate for our use some of their
features, and to evolve from
them a type of plan which might
satisfy American requirements.
The chief objections to the
French plan in our eyes are the
general lack of bath-rooms,
the small allowance of space
for the servants’ quarters,
kitchen and pantry, the dis- CW
tance of the kitchen from the MS \ Court
dining-room, and the proximity \
of the bedrooms to the living-
rooms. To overcome these
objections the writer suggests
this type (Fig. 18) asa point of
departure for further study
and improvement, with a full
knowledge of its shortcomings.
By it the kitchen is brought
nearer the dining-room and
more space is provided for

 

Rear court—

 

Yt
A. M7

  

 

 

 

 

 

 

 

 

 

 

 

 

 

Street

bath-rooms, servants’ quar- Fic. 8.

ters, etc. The living-rooms

are en suite, and receive their light from the street. The bed-
rooms for the family are by themselves at the other end, and receive
their light from court and yard. The chief objection to it is that
there is a great deal of corridor; but even with this drawback,
this type of plan seems an improvement over those in common
use here,
my THE ARCHITECTURAL REVIEW.

 

Now if one will study the plans of the apartment houses which
have been built in New York for the last twenty-five years, he
will probably come to the conclusion that the normal type has
been something like this (Fig. 19). The chief objection to it is
that the permanent lighting of the interior is not assured. All

 

 

 

 

 

        
     
 

 

Vestibule

 

 

 

Baths

   

Parlor Dining’ room Bed room
E

 

 

Fig. 9. GROUND FLOOR

spaces are being filled up, the low buildings are giving place to
higher ones and the light is beginning to fail. The result of this
change has been most disastrous in the tenement house districts
of New York, where the conditions have become so bad and the
welfare of the community has been injured to such an alarming

 

 

 

 

 

 

    
 
   
      
   
 

Kitchen

 

Grand Court

 
 

i

 

a

Reception room

  
  

  

 

 

 

 

 

 

Fig. to. FIRST FLOOR

APARTMENT House, Rue St. FLoRENTIN, Paris.

the rooms except those that give on the street, depend for their
light upon a narrow strip of unoccupied land at the rear and at the
sides of the lot. If the neighboring property is built up more or
less solidly, the interior of the building will not be properly

lighted. This type of plan has come into use by accident, and
has been adopted

without regard to | Garda

future conse-

      
 

quences. It illus-
trates the general
lack of forethought
on the part of
American build-
ers. The apart-
ment house in
America is the
creation of the
last twenty-five or
thirty years, and
up to the present
time no consider-
able area in our
cities is solidly
built up with
them; in most
cases where such
houses are built
the surrounding
property is occu-
pied by private
houses, not very
high, and not cov-
ering a very large
percentage of the
area of the lots on
which they stand ;
the planner of the
apartment house,
in his greed for
floor space, has Fig, 11.
presumed on these

conditions, and has

given way to the temptation to rely for his chief supply of light for
the interior upon the partially unoccupied surrounding property,
without forethought for the future. Now, however, as the cities
crow, and as the land becomes more and more valuable, the vacant

 

Parlor

 

Court

 

 

 

 

 

 

ALAA LLL

GROUND FLOOR

APARTMENT House, Rue

extent, that a change in the type of plan has become an absolute
necessity ; but the change has come after the damage is done,
and it will be many years before the city is rid of the curse of her
tenement house system. One would think that New York’s
experience with her tenements would be a warning to herself
and to other cities,
Garden and that the intel-
ligence of the
people would rise
up and demand
legislation to pre-
vent the reoc-
currence of the
difficulty. Yet we
j in New York go
= ha Yi, Plindly on with
= | _, practically no re-
strictions on any
other class of build-
ings. The lower
sections of the city
in particular are
being filled with
dark rooms where
clerks and other
workers must
spend their days
with scarcely
ray of daylight.
These people can-
not protect them-
selves, they must
take what they
can get, therefore
the law should
intervene and com-
pel the builders to
build in such a way
that the proper
lighting of the
buildings should
be assured.
It would seem that laws governing the height of buildings
and fixing the area which shall be left vacant “for lighting the
interior, such as are found in practically all European cities, were
so evidently matters of public policy and so clearly essentic! +>

 

 

 

 

 

 

 

 

Dining Room

 

 

Fig. 12. FIRST FLOOR

be Miran, Paris.
THE ARCHITECTURAL REVIEW. 89

 

the health, welfare and morality of the community, that it would
be unnecessary to urge their enactment. We do not appear to be
alive to the dangers of continuing the present short-sighted
policy, but nothing is more certain than that the time will come,
and that shortly, when we shall be compelled to give these matters
serious consideration. It is probable that
restrictive legislation, at least upon the
height of buildings, would have been
enacted before this, were it not for the
opposition on the part of interested parties,
builders and others, who feel that their
interests would be jeopardized thereby, but
if the laws are reasonable it is not likely

 

every floor by windows opening directly upon a court, a yard or
the street. Now in the case of tenements, this is necessary, for
experience has shown that unless such places are lighted in this
way, there is no assurance that they will be lighted at all. In the
tenement house the inmates are dependent upon the stairs, and
they ought always to be well lighted. In
the apartment house the case is different.
In such houses, artificial lighting can be
depended upon with reasonable certainty,
and the stairs are little used as there are
elevators; so that a provision of the law
which is necessary for the tenement is
simply burdensome for the apartment
house. There ought to be some way of

 

 

that any interest that deserves to be pro-
tected would suffer. The laws limiting the
area to be left free should call for no more
light than any prudent owner ought to pro-
vide for his own protection, and the restric-
tion on height would certainly benefit more
property than it would injure, even if it is
admitted that it would injure any. Such
a restriction would tend to spread the areas
of the greatest business activities and
relieve the congestion of the streets and
means of transit.

It is certainly not right to restrict one
class of buildings and not to restrict others,
and it is also wrong to burden property
with unnecessary restrictions. As the law
now stands in New York, the apartment
house as distinguished from the ordinary
tenement is discriminated against. The
builder is burdened with restrictions, some of which, though neces-
sary for the tenement, are not necessary for the apartment house,
and serve no other purpose than to increase its cost. For instance,
after specifying the minimum size of courts and yards, the law
provides that all staircases and public halls shall be lighted at

 

 

 

 

 

 

|

Garden Garden

SOS SENES

ee

 

SSAA

Paces nase asisbnin onarteco ns ae NY,

 

~s

Chamber Chamber

Court

 

 

 

 

\
]

i

{ x

4 Sy | @ )l
io

y |

i G

y

ee

j Mes a Se —_
a As =e

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ester kn
io

Drive

 

Concierge

ROE

,

GROUND FLOOR Fig. 14.

 

APARTMENT House, Rue DE MontalGNE, Paris.

distinguishing between two such different
classes of building, and it would seem as if
the elevator might serve as the distin-
guishing feature.

As the restrictions which apply to
apartment houses do not apply to hotels,
the temptation is to build what are called
family hotels, and as the apartments are
made expensive by the action of the law,
the temptation as regards families is to
live in hotels instead of in apartment
houses. It would seem that the true
interest of the law should be to foster
the type of building that best conduces
to the preservation of the family and of
home life, and this type can hardly be
said to be the hotel.

In planning the apartment house, one
of the most important considerations for the architect to bear in
mind is that the apartment is the substitute for the house. It
exists only because the house is too expensive. It should there-
fore be planned to supply as far as possible what the house gives.
The house gives privacy for the family, the bedrooms are away

FIRST FLOOR

 

    
  
 

 

ily: a LE LEGO

Garden

 

   

Salon

 
 

 

 

  
    

 

 

 

 

 

 

 

 

 

 

 

  

FIRST FLOOR Fig. 13.

APARTMENT House, Rue D’Hautrvitte, Paris.
go

from and separate from the lving-rooms.

THE ARCHITECTURAL REVIEW.

The house gives facili-

ties for entertainment; the living-rooms are en suite, and by them-

 

Fig. 16

 

 

APARTMENT House
BovuLevarD DU TEMPLE, Paris.

 

Rear court

 

 

| E
wo
t Chamber el Chamber
el Jel

     

>
p Dining room

T

 

orridor

rr
lel

 

LOW ec =
it hamher Tat |

Chamber ’

 

Parler

Library ’

 

 

Street

Fig. 18

selves, separate from the bed-
rooms. And again the house
gives distinct and separate quar-
ters for the use of the domestics,
removed from and independent
of both the bed-rooms and living-
rooms of the family.

After the necessary supply
of light and air, these qualities
of the house are the most essen-
tial and necessary qualities to
work into the plan of the apart-
ment. Of course it is not to be
expected that they can always be
as perfectly worked out in the
apartment as they can be in the
house, but the attempt to obtain
them should never be aban-
doned, and one may say, need
never be abandoned. For if
there is space to obtain the
rooms at all, there is almost
certain to be space to arrange
them properly.

A plan that has proved very
successful in its working, that is
to say, satisfactory to the occu-
pants of the building, was
carried out some twenty years
ago in the Knickerbocker
Apartment House, corner of Fifth
Avenue and 28th Street, New York.
The apartments were planned in two
stories. Each apartment is arranged
like a two-story house. On the lower
floors are the living-rooms, the kitch-
en, pantry, etc., and on the second
floor the bed-rooms, bath-rooms and
servants’ rooms. Each house, or
apartment, has its own private hall
and staircase from the first to the
second floors. The building is eleven
stories high, and eight of the floors
are arranged in this way, that is to
say, as four series of two-story houses.
Of course the separate staircase in
each apartment takes up some space,
but this loss is perhaps offset by
making the bed-room floors some-
what lower from floor to ceiling than
the parlor floors. At any rate, the

 

arrangement is popular with those who have lived in the building,
and the apartments probably have more of the qualities of the

house than can be ob-
tained by any other
arrangement. This two-
story plan for apart-
ments can often be used
to advantage in cases
where one apartment
to the floor would be
larger than is desired,
and two apartments
smaller. In that case,
to each two floors
there may be two single-
story apartments occu-
pying about two-thirds
of the floor, and one
two-story apartment
occupying the remain-
ing part of the two
floors,— the two-story
apartment, of course,
having its own private
staircase from the parlor
to the bed-room floor.

A new type of plan
for apartment houses
and hotels which has
been coming in recently,
especially for large
buildings, has the
courts recessed from the street, as
illustrated in the case of the Ansonia
(Fig. 3). The objections to it are that
it increases the cost of the building
by lengthening the facade. The walls
of the courts cannot very well be
white, or perhaps one should say are
not usually made white, and if the
facade is of a dark color, the lighting
is bad, —as can be seen in the case of
the Mills Building on Broad Street,
New York, where, although the
recessed court is over thirty feet
wide, the offices giving on it are
poorly lighted. But if we persist in
building high buildings, courts
recessed from the street are the only
ones which will be of any use. If
they are used, however, they ought
to be large, and such courts cannot
be had on small plots.

 

WG

KX QQGQy
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Fig. 17

APARTMENT House
Rue D’AmstTerDaM, Paris.

 

Rear courte

 

Chamher |Chamher fiChamher] Chamber

 

Se r
i

eter Jet

Chamber

 

Chamber |

 

 

 

Servants room

/

 

 

b el
\Courk |] uk a

Dining Room

 

Kitchen

 

 

 

 

 

 

 
THE ARCHITECTURAL REVIEW. gl

 

City Apartments in Paris.

By Jean SCHOPFER.

URING the last decade, very great advances have been

made in the city of Paris in the construction of apart-

ment houses. I propose briefly to enumerate these

progressive features for the benefit of Zhe Architec-

tural Review readers, taking care to point out, when

necessary, the differences existing between apartment

houses in the French metropolis and those in the United States.

In the first place, the municipal regulations put a limit upon
the height to which
houses can be carried

luxurious ones were built with iron joists; the rest had all their
joistwork in wood.

Wooden joists are, as I have myself observed, still held in favor
in America. I have seen private houses in New York, on Riverside
Drive and in the districts inhabited by the wealthy, which cost
from sixty to cighty thousand dollars and the whole joistwork of
which was in wood. The great danger involved in this system in
case of fire has been sufficiently proved by innumerable examples.

In Paris, on the other
hand, apartment houses,

 

in Paris. Several impor- ——
tant consequences re- f
sult from this. One of
them is that there is a
certain outward uni-
formity about the
houses, according to the
wealthiness of the dis-
trict in which they stand.
The maximum height
of the fronts on the
widest thoroughfares is
20 meters, and the part
of the roof above being
set back according to a
given formula, architects
manage to quarter five
average stories, plus the
ground floor, and some-
times a sixth story, set
back under the roof. In
short, they can give
their stories a height
varying, as regards the
first story, from 3m. to
3m. 80, and from 2m. 80
to 3m. 20 as regards the
other stories. In very
luxurious buildings the
architect only puts four
stories in the 20 meters
allowed him. Thus
French architects are
confined to extremely
close limits—even more
so than their American
brethren —and are pre-
vented from indulging
in any fanciful flights.

The same regula-
tions fix a limit to pro-
jections on the public
ways, and hence another
difficulty. They also
lay down rules as to the
dimensions of the large
and small courtyards,
and the prospect of the
windows giving thereon,
which varies from 4m, to 6m. 66 minimum. These regulations
have been made in the interest of public health, and I, for my
part, find them excellent; but they certainly limit the landlord's
rights and hamper the architect — all, it is true, to the great advan-
tage of the tenant.

The new regulations in regard to public health are still stricter
than the old ones. They insist upon more air and light for both
street and courtyard windows. These regulations only came into
effect on the first of January last, so that the houses we are about to
deal with were erected under the old ones.

In the matter of construction and of materials the progress
made is substantial. In Paris, houses have always been built of
stone, and they have been built well. This is a matter of ancient
tradition and trade practises which, thank goodness, are long-lived.
In the case of houses constructed twenty years ago, only the

 

Rue Gustave FLAuBERT.

 

Flats rented at from 6,000 to 8,000 francs. Note the width of the bays.

even those of the most
modest type, with rent-
als not exceeding 1500
francs a year, have all
their summers in iron.
From top to bottom,
there is no wood in the
house as far as the build-
ing itself is concerned,
This is a considerable
step in advance. Thanks
to this system Paris is
spared such terrible fires
as those that take place
in America, where
houses are entirely con-
sumed. In Paris one
room in a flat is burned
out, or at worst all the
rooms of the flat where
the fire occurs, but it is
exceedingly rare for a
whole house to become
a prey to the flames.

As is well known,
steel beams have the
drawback of allowing
sounds to be heard from
one story to another.
Architects have tried
different methods of
remedying this trouble,
such as spreading thick
layers of tan between
the ceiling and the floor-
ing, or a bed of cork or
mineral wool or some
other bad conductor of
sound, but as a matter
of fact the problem has
not' yet been solved.
The noise has been less-
ened, but its transmis-
sion has not been alto-
gether prevented.
Moreover, there are
serious objections to
leaving vegetable sub-
stances in places where
no air circulates, owing to the fact that they are liable to decay.

In a few modern houses the floors are separated by means of
ciment arme (cement with bundles of iron wires embedded therein),
which has come into current use in building. These experiments
have been very satisfactory. The new material is strong enough
to withstand the heaviest strain, and it is absolutely fireproof.
Some apartment houses have even been built entirely of czment
armé, and amongst our illustrations will be found the front of a
dwelling in the Avenue Rapp which, from the entresol upwards,
consists of this material, with a facing of sharp-fre enameled bricks.
Not only is the material of this house new, but the decoration is
new also. It is an ‘‘ Art nouveau’’ house; but whether the ** Art
nouveau ’’ is the good sort or the bad, I leave the reader to decide.
A critical study of these houses would carry us too far. We shall
see a little further on how modern house decoration is understood ;

 

 

M. Lerepre, ARCHITECT.
 

THE ARCHITECTURAL REVIEW.

>

oye

er

 

Eretgetye Le ae \ , ‘rr

M. PERRONNE, ARCHITECT

 

APARTMENT HOUSE IN THE RUE DU REGARD, PARIS

 

 

 

 

 

TYPICAL UPPER FLOOR PLAN

 

 

PLAN OF THE GROUND FLOUR

This is an excellent type of moderate-priced apartment house. Rents 1.S0o and 2,000 francs with two and three bedrooms respectively. The adjoining house, forty
years older, shows the considerable progress made in the design of the fronts, bays and decorations, even in apartment houses of very low rentals. We give the plans
of two roors. There is no kitchen looking out on the principal courtyard. Main staircase and servants’ stairs. No elevator. Basement, ground floor and entresol
occupied by the owners —a publishing firm.
THE ARCHITECTURAL REVIEW. 93

 

 

for the moment we will
observe what progress
has been made in the
internal arrangement of
the house.

Everybody is aware
that all apartment
houses in Paris have a
janitor. In the evening
the street door is shut,
and it can only be opened
by the janitor, who pulls
a wire leading from his
room to the latch. It is
an excellent way of
guarding the house.

In the case of most
large houses the en-
trance is made wide
enough for vehicles to
pass, which enables the
tenants to get in and out
of their carriages under
the archway and at the
very foot of the stairs.
This is a convenience
with which few Ameri-
can houses, even
amongst the most luxu-
rious, are provided. The
stables are generally
situated in the court-
yard ; but not so in most
of the newest houses.
At present it is the cus-
tom, when space allows,
to have two courtyards.
One of them, with the
windows of the dining-
room, inner corridor
and bedrooms looking
thereon, is called the
courtyard de Jive. It
has a small lawn, a

 

 

 

There is room for vreat
improvement in this di-
reetion in the United
States, where nothing
could be ugher than the
yards inside the blocks.
There are houses which
cost $100,000, with a
handsome front on a
wide street, but whose
courtyard front is dread-
ful to behold. Land-
lords ought to agree
amongst themselves for
the proper laying-out, at
their joint expense, of
the space left empty be-
hind the houses.

As regards the in-
terior, all new houses,
even the most modest,—
I mean those with rent-
als not exceeding ten or
twelve hundred francs,
are provided with two
staircases: one for the
masters and the other
for the servants. In
high-class houses the
principal staircase is
very luxurious. It is
built either in marble,
stone or wood, and is
provided with an abund-
ance of light and air.

The elevators are of
various systems as re-
vards their motive
power,— water, water
and electricity, or, in the
most up-to-date houses,
electricity and com-
pressed air; but all of
them are planned in a

 

 

 

 

fountain and, if possible,
a few trees in it. No
kitchen window is made
to open upon this court-
yard. In the second one
there are the stables,
and it is from this yard that the kitchens, servants’ rooms, water
closets, etc., get their light. The house No. 82 in the Avenue des
Champs-Elysées is an example of this kind of arrangement, and
its rents are the highest in all Paris, the price of the first floor
flat being 30,000 francs. We reproduce the plan of a house in
the Avenue Malakoff, No. 51, the courtyard of which, measuring
g meters 20 centimeters by 17m. 40, is laid out as a garden.

A CorNER IN THE RvE Danton, Paris.

arrangement in Paris.

 

   

a Pier kits SUg DANTON NT erRue Des Ports Mins a

 

fe ae

GROUND FLOOR

 

Brick and White Stone. Flats at from 7,500 to ro,ooo frances. The plans given below show the successful arrangement of the

principal rooms. Note in the plan of the ground floor that the principal entrance is also the carriage entrance, a very common

very practical manner,
which is only just begin-
ning to be known in
America. I mean by
this that the tenants
themselves work them,
and without any danger. Inside the elevator there are five or six
buttons, each one bearing the number of a story. One pushes
the button corresponding to the floor one is going to, and another
button to start the lift. On no floor can the elevator door be
opened while the elevator is in motion, nor can any door be
opened unless the elevator is at a standstill in front of it. Another
button rings a bell in the janitor’s lodge, to call him when the lift

M. Perkonne, ARCHITECT.

 

UPPER FLOOR

PLANs OF THE APARTMENT HovsE SHowN Above.
94 THE ARCHITECTURAL REVIEW.

 

A LARGE APARTMENT HOUSE, 51 AVENUE MALAKOFF, PARIS M. LEFEBVRE. ARCHITECT
Z ’

Flats from 6.500 to 8,500 francs. Entresol and ground floor forming two private dwellings with rents of 9,000 and 11,000 francs. Plan shown on opposite page; views
of drawing rooms on page 9>. and of principal staircase and elevator shaft on page 47.
THE ARCHITECTURAL

REVIEW.

95

 

gets out of order. It is
a good and safe system,
in fact, there are never
any accidents, and it
abolishes the lift-boy,
who, so far, is a neces-
sity in American houses.

As regards the dis-
tribution of the rooms,
the point aimed at is to
separate the servants’
part of the flat from the
reception-rooms. In this
connection we refer the
reader to the different
plans which we give.
Those of the houses
situated in the Avenue
de la Grande Armée,
the Rue Danton, the
Rue Georges-Ville and
the Avenue Malakoff
(77 and 79) show this
complete separation,
which marks a great
stride forward. The
plan of the house at No.
51 Avenue Malakoff is
not so good.

Adjoining the
kitchen there is now
always a scullery, which
was not the case
formerly. Formerly
also,— I refer to houses
erected twenty years
ago,— the bathroom was
usually located near the
kitchen, whereas nowa-
days it is always placed
close to the principal
bedroom. In many
instances there are two
water closets for the use
of the family, and
always one for the
servants.

Great progress has
been achieved in Paris
with regard to dressing-
rooms. Almost every
bedroom has a separate

Peet Salem

 

arbi. Bae ies wd daiengcladasaeeedo ns

 

+
is
Ha

APARTMENT House, AVENUE Rapp, Paris.

Rents 4,000 to 6,000 francs. Front in “ ciment armé”’

PLAN AT THE LEFT.
51 AVENUE MavakorFr, Paris.
M. Lereevre, ARCHITECT.

The}ffront ,of {this fapartment 7 house” is
nT

shown on§the page‘opposite, and intenor
ane eS

views will be found on pages 97 and 98.

PLAN AT THE RIGHT.
77 AND 79 AveNvE Mataxorr, Paris.

M. Lereevre, ARCHITECT.

Rents from 12,000 to 15,000 francs. Well
planned; every comfort luxuriously pro-
vided. Noteworthy from the pointjof view
of the arrangement of the rooms, servants’
quarters, and dressing rooms.

M. LAviroTTE, ARCHITECT.

from the entresol upwards.

 

 

 

 

 

 

 

 

 

dressing-room, provided
with hot and cold water
taps and a waste-pipe.
The hot water is sup-
plied from a small boiler
placed in the cellar. In
houses where the flats
are rented at 4,000 or
5,000 francs and have
four bedrooms, the hot
water costs the landlord
100 franes per flat per
annum. In many cases
the dressing-rooms con-
tain cupboards for
hanging up garments.
Modern apartment-
houses have a tele-
phone. The wire is led
into the janitor’s room,
whence connections
lead to instruments
placed on each story.
The janitor receives the
calls and switches the
line on to the proper
apparatus. Each tenant
pays 50 francs a year
for this joint service.
The reception-rooms
consist as a rule of a
spacious corridor, on
which give two or three
drawing-rooms and the
dining-room, all having
wide four-leaved doors,
which are often glazed
with small panes. On
reception days these
doors can be thrown
open, and in this man-
ner the occupants have
a fine set of reception-
rooms. The plans here
given will, I think, be
examined with interest
from this point of view.
In many new houses
the large and small
drawing-rooms are sepa-
rated merely by col-
umns, as in the plans

 

 

 

Malakoff
ab THE ARCHITECTURAL REVIEW.

 

      
       

{SEUSS DS NEG ET oh

1

I

PNR th oi ths

 

 

 

 

 

 

 

APARTMENT HOUSE, AVENUE DE LA GRANDE-ARMEE, PARIS M. RIVES, ARCHITECT

.\ model of a Paris corner house. Plan and detail of main entrance on the opposite page.
THE ARCHITECTURAL REVIEW. 97

 

 

 

 

Main Entrance, AVENUE De La GranpgE-ARMEE, Paris.

of Nos. 81 and 77 Avenue Malakoff. In a number of recently built
apartment-houses,— for instance, in the one at 51 Avenue Mala-
koff,— the ground floor and the entresol are connected by an inner
stairs, thus making a private dwelling of them, with library, bil-
liard-room, two drawing-rooms, etc. This arrangement is in con-
siderable favor at the present time. The plans which we repro-
duce show the usual dimensions
of luxurious flats, of a rental
varying from ten to fifteen
thousand francs. The principal
corridor is from eight to twelve
meters long by three wide; the
larce drawing-room from 5m. to
7m by 7m. to gm.; the small
drawing-room from 3m. to 4m.
by 5 or 6m ; the dining-room
from 4 to 6m. by 6 to 8m., and
the bedrooms from 3m. 50 to
sm. by from 4m. 50 to 7m.

The internal decoration is
now quieter and in better taste
than it was a few years back. It
is still done in some particular
style,— Louis NIV., XV. Or XVI.,—
but more discreetly and more
gracefully. The ceilings are
no longer invaded by the
mouldings.

In new houses the incoming
tenant is allowed to decide the
manner of decoration in which
the flat shall be finished off. A
refinement in taste has come about, and this is shown by less over
loading. I am glad to say that the habit of painting and deco-
rating ceilings after the Italian fashion has been entirely abandoned.

Outwardly, the latter-day Parisian apartment house differs from
that of twenty or even ten years ago by the large size of the bays.
This feature alone would suffice to characterize the modern house
The liberal dimensions of the windows in Paris are only rendered

 

PrincipAL STAIRCASE, 51 Ruz MALAKOFF, Paris.

possible by the temperate climate we enjoy, without extremes
of either cold or heat. The increased size of the windows allows
light and air to reach every corner of the apartment.

Our different illustrations show the prevailing ideas as to ex-
ternal decoration of houses. The taste for ornate fronts is compara-
tively new. The City Council encourages it by granting prizes
every year to the five fronts
which are deemed to be the
most calculated to embellish the
streets. M. Le Voisvenel, sev-
cral of whose interesting designs
are here shown, is one of the
architects who have done most
to improve the fronts of apart-
ment houses.

Finally, Paris architects have
dealt in a fairly successful way
with the knotty problem of
corner buildings. The photo-
graph of the house erected by
M. Rives on the Avenue de
la Grande Armée shows the

 

 

 

 

 

Nouvelle,

PLAN OF THE APARTMENT Hovse SHOWN ON THE OrvosiTe PAGF.

Note the excellent arrangement of the rooms.

favorite solution. The cut-off
corner is rounded, and then,
above the entresol,— that is to
say, trom the point above which
the regulations allow it,— there
is a corbel, which makes the
corner room much more spacious
than it would otherwise be. The
house is further embellished
with a lofty and decorative
crowning. In this particular house the stories above the corbel
contain a circular drawing-room in the sharp angle measuring six
and a half and even seven meters across.

Another well-designed corner house is the one planned by M.
Le Voisvenel, of which we give a photograph.

: Nore: The author apparently is not fully informed as to the development by the Otis Elevator
Co. of automatic elevator service in the United States.x— | Ep. |
as THE ARCHITECTURAL REVIEW.

 

 

 

 

LARGE AND SMALL DRAWING-ROOM, SEPARATED BY COLUMNS, APARTMENT HOUSE, 51 AVE. MALAKOFF M. LEFEBVRE, ARCHITECT

The exterior of this Apartment House is shown on page 94, the plan on page 95, and the stairway and elevator on page 97.

 

 

 

RICH CHIMNEY PIECES IN MODERN FLATS; M. LOUIS PARENT, ARCHITECT; EXECUTED BY M. HUVE
THE ARCHITECTURAL REVIEW. 99

 

 

 

 

 

 

 

 

 

CORNER IN THE EASTERN PART OF PARIS

Moderate rents.

 

 

 

 

 

 

 

81 AVENUE MALAKOFF, PARIS AVENUE MALAKOFF, PARIS

This fagade received a prize in the annual competitions of the City of Paris. Rents from 5,000 to 8,000 frances.

FOUR APARTMENT HOUSES; M. LE VOISVENEL, ARCHITECT
THE ARCHITECTURAL REVIEW.

 

ELYSEES

 

 

 

 

 

 

PARIS

APARTMENT HOUSE IN THE CHAMPS

 

 

 

 

 

 

 

 

 

 

 

 

APARTMENT HOUSE, AVENUE DU BOIS DE BOULOGNE, PARIS

APARTMENT HOUSE IN THE EASTERN PART OF PARIS

0 LO 270,000 francse

Rents from 1
THE ARCHITECTURAL REVIEW. 101

 

Suburban Apartments.

By Myron Huxyr.

Y simplifying and by making city housekeeping less
expensive, the apartment appeals strongly to the renting

public. As a family residence it has inherent and obvious
disadvantages. The intent of this article is to describe

the means by which some of these disadvantages have

been eliminated, and to describe the financial results thus
obtained, when apartments have been planned for suburban sites.
An examination of the buildings given here as Suburban Apart-
ments will necessarily show them to be much like all other minor

found in minor cities, there seems to be few buildings which may
properly be styled ‘ Suburban Apartments.”

The comparative newness of the whole American apartment
problem is no doubt one explanation of this lack of any marked
development of a suburban touch in the design of the few examples
which have strayed from the immediate centers of population.
There is only a small demand for apartments in suburban locali-
ties, where land is relatively cheap and where a detached house is
easily obtained. A considerable suburban demand does however

 

 

 

THe Hererorp APARTMENTS, Evanston, ILL.

apartments. Their distinguishing features result from the fact
that tosome extent suburban conditions are recognized. Lawns
and trees are utilized. An effort is made to adapt the exteriors,
and particularly the height of the buildings and their sky lines, to
local conditions. Each tenant is supplied with a separate porch or
balcony.

The idea of putting up apartment buildings in anything but
crowded residence districts has appealed to but few investors. In
most cases when such investments have been made, they have
followed time-worn city lines. The result has been to emphasize
the generally accepted belief that the better class of suburban ten-
ants will consider nothing but detached houses.

The broad general philosophy which underlies the planning of
all apartments is not affected by any question of location, Yet
there is no reason why that diversity should not exist between the
city and the suburban apartment which has always existed between
the city and eee house. Though many apartments are to be

 

Myron Hent, Arcuitect.

exist. for such compact suites as only apartments afford. The
held, though not large, is profitable.

There is a contingent in every suburban community, composed
of the best class of tenants, which needs what only an apartment
can give. A city apartment plan cannot be made to appeal to
them. If their interest is to be awakened, the building and all its
details must be adapted to its suburban surroundings. These ten-
ants comprise young married people of the wealthier class, heads
of families whose homes have been broken up, and to a large and
increasing extent, unmarried men or women who wish the indepen-
dence offered by a small establishment of their own. The average
detached house entails more, either in expense or in energy, than
they care to assume. They are accustomed to, or are huntine for,
a degree of privacy in their homes. Such tenants as these have
much difficulty in finding suburban homes to meet their wants.

The essential of a suburban apartment, in order that it shall
be Successful, is the utilizes 4 trees and o luwn to obtain a set-
102 THE ARCHITECTURAL REVIEW.

 

ting. Another requirement also relates to exterior effect. It is
that the designer shall appreciate the all-important advantages
which result from a definite domestic feeling in the appearance of
the building. Only one requirement which affects the philosophy
of the plan is not necessarily applicable to all apartments. Each
suite should have a private porch and as large a one as possible.

To be given a detached building to design is always a greater
pleasure to an architect than to be asked to solve a problem which
entails but one finished facade. The opportunities offered by a

 

 

THe Hererorp, Evanston, Itt.

suburban apartment make at once possible and imperative the
treating of the entire exterior as a whole. The four elevations
will in most cases be equally important because equally in evi-
dence. The same quality of material may fittingly be used on the
rear and on the front. Not only may the blank party walls of a
city apartment be avoided, they must be avoided in order to make
a suitable building Windows and bays take the place of blank
walls and light courts. A roof which is in harmony with the roof-
ing schemes of adjacent buildings naturally suggests itself. More

 

at

 

 

 

Rear View oF Tite Camuripce, CHieaco, Ite

than any other one feature of the exterior design, the roof may be
made to help bring the whole appearance of the structure into
accord with its suburban surroundings.

Little which is not wholly obvious can be said in regard to the
advisability of utilizing natural landscape advantages in the erec-
tion of a suburban building. It is, however, a noticeable fact that
few designers of existing apartments located in districts where
larve lawns with their accompanying trees and shrubs were
possible, have in reality availed themselves of the advantages at

 

 

their disposal. The comparative rareness with which an archi-
tect is asked to build an apartment in a suburb is not sufficient
reason for any lack of adaptation to these more rarely met condi-
tions. The inexpensiveness of unimproved suburban property
makes the treating of the suburban apartment a problem distinct
from the city apartment. Suburban conditions are such as not
only to make this differentiation possible, but imperative.

The value of suburban and semi-suburban land is based upon
its eventual use for detached houses. A very natural error made
by apartment builders who improve a suburban lot is that they
cover too much of its available surface with the building. In so
doing they lose that quality in the investment which must be made
its saving grace, an appropriate setting for the building. Revenue
producing possibilities have proven greatest when a considerable
proportion of the available land has been devoted to a lawn. That
domestic touch, to obtain which a lawn and trees are indispen-
sable, is the especial, it is the actual revenue producing element

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

FUTURE
BUILDING Oe
i
ot 1
aS
Db K
i 5B 6 8
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weet waligeee S| =
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3B SB [
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Setconp Froor Pax or Tue Hererorp.

in the investment. When the suburban building covers too large
a portion of the lot, it loses its main charm. It also makes a bad
name for itself in the neighborhood. Nothing is more certain
to cause the building to be unpopular, and hence a socially unfor-
tunate place of residence.

The suburban investor must have greater consideration for his
neighbors than is incumbent upon the city builder. It has been
demonstrated that it pays handsomely to consider not alone the
exterior design and the general arrangement of the rooms, not
only the question of an individual lawn. for the building, but
equally the question of possible damage to adjoining property.
Owners of improved suburban property usually have a disposition
to place a social boycott upon apartments. Ina city community
each family is more nearly selfsufficient than is possible in a less
densely populated community. Unless a suburban apartment is a
social success, professional apartment renters become its tenants.
With such a result, nothing but a most ordinary financial return
may be expected. It is to tenants with social ties in the locality,
THE ARCHITECTURAL REVIEW. 103

 

 

 

 

a

ei Err mn

SB

 

THE CaMBRIDGE APARTMENTS, Cuicaco, ILL.

that the building must cater, if it is to produce better than ordi-
nary returns. A good suburb has almost no profitable clientele for
medium class apartments. It is the comparatively high class, but
small, building which meets the want.

Not far from some of the apartments shown in these illustra-
tions is a good example of the
kind of building which it does
not pay to build in a suburb.
An ideal site has been so
entirely covered with brick and
stone as to have ruined a once
choice residence district. The
builder, his own architect, has
made no gain by his method
of planning. Tenants avoid
the building. Renting agents
are discouraged with their
problem. Should they fill the 320 s7eer
building, it must be at rental 3
rates which will not pay. A
smaller investment, judiciously
handled, would have been cer-
tain of success. The placing
of too large a building on a

  

General conditions which devolve upon all good apartment
planning are not under consideration here. In discussing subur-
ban apartments, I take for granted that today all apartments are
planned in such a manner as to unite the living suites in a com-
pact group of rooms opening together. The architect is assumed
to have at his disposal a suffi-
cient amount of property to be
able to accomplish this. No
exigencies arising from the
exact size and shape of a city
lot need be contended with.
There is no need to discuss the
proposition that service rooms
should be isolated, or the prin-
cipal sleeping-rooms be both
grouped and isolated. The com-
parative inexpensiveness of
suburban property simplifies
the problem in these respects.

The commonest mistakes
in minor apartment planning
are those which follow from
allotting too many rooms to
| Fe 4 each suite. An inexperienced
s

 

suburban lot is sure to result 2 investor almost invariably
in a comparative loss to the — —— makes this mistake. It is a
investor. The proportion of Lr Ne eee most serious error in suburban
rental to investment decreases. PLAN OF THE CaMPRIDUE AvaRTMENTS, CHICAGO. work. Speaking broadly, fami-

The investor finds himself with

apartments which must compete with city apartments. He fails
to draw local tenants. He loses the tenant who is willing to pay
a handsome return on the cost of keeping up a grass plot.

hes who need more than five

rooms, or at the outside, seven, will rent a detached house. It

is to families requiring seven rooms and less that the average
suburban apartment may most profitably be made to appeal.
LO THE ARCHITECTURAL REVIEW.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

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| 7 ‘ BED ROOM
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THE NETHERLANDS.

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|
| SHERIDAN PARK CHICAGO.

JOHN D ATCHISON ARCHITECT.

| BED ROOM.
DINING ROOM

 

CLOTHES YARD

 

DINING ROOM.

 

 

SED RocM

 

 

 

    

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ALCAT | PARLOR

 

 

THe NETHERLANDS AVARTMENTS, SHERIDAN Park, Cuicace, IL

The size of the various rooms must be determined largely by
the locality and the amount of available money. It is, however,
impossible to plan a wholly successful suburban apartment with-
out making the rooms somewhat larger than they would be made
in a city apartment intended for similar tenants. To some extent
the suburban apartment must compete with the detached house.
Its best tenants are former occupants of detached houses. The
use of too great economy in allotting space to reoms proves a
mistake.

 

 

Joun D. Atcutsox, ARCHITECT.

The competition of the suburban apartment with the small
detached house comes out strongly in questions of convenient
arrangement, in which the apartment has an easy advantage ; it
also comes out strongly in the question of homelike interior effects,
in which the detached house has a natural advantage. An artistic
and a homelike arrangement of the living portion of the suite is
demanded. Too much stress cannot be laid on this point. Care-
ful study may be profitably devoted to the details of wall coloring
and the staining of woods. It must be kept constantly in mind
THE ARCHITECTURAL REVIEW. 105

 

that the best tenants can only be obtained by combining the good

features of an apartment with as many as possible of the points

which make toward the perfection of a modern suburban home.
An architect who is familiar with the details of successful

suburban house

building, and

far above the Chicago average. Although these buildings are
increasing in number, the rents in those which are most success-
fully planned have raised rather than lowered. Age and competi-
tion will in time affect rents. It is the significant fact that these
buildings can
stand a cut of

 

who has not yet eo
essayed the su- :
burban apart-
ment, will find
it an interesting
problem upon
which to exer-
cise his ingenu-
ity. He will
find thata
building may be
evolved, com-
bining with the
best features of
an apartment,
many of the
more distinctive
features of the
successful su-
burban home.

There is an
interesting fact
which applies
to every build-
ing in this
Chicago group.
The buildings,
though small,
are worth from
three to six
times the value
of the land. A
building loan is
not procurable
which will pay
for the entire
improvement, as is often the case in building a city tenement.
The apartment discrepancy between the value of the land and the
size and cost of the building which it pays to erect, results in this
class of investments being a bad field for real-estate speculators.
The suburban apartment is also proportionately more expensive of
construction than the city apartment of similar size.

 

APARTMENT Hovse, Brookiine, Mass.

 

 

from 1g to
35% in their
rent rolls, and
even then show
a gross earning
of 10%, which
makes them
noteworthy as
investments.
They start on a
basis which is
financially above
that of most new
buildings. In
proportion as
each fulfils or
fails to fulfil the
suburban re-
quirements
mentioned, it
establishes and
maintains its
rates. The most
successful in-
stance is a gross
rental of $3840
per annum upon
a total invest-
ment of $25,000.
The largest and
most expensive
of the buildings
contains twelve
apartments ; the
entire invest-
ment is $54,000
There are no vacancies

 

Water H. KILHAM, ARCHITECT.

and the gross rents per year are $7104.
in this building.

The combination of a domestic feeling in the exterior design,
with a plan having as one of its main features a porch or balcony,
is the key to the problem. An unusual revenue is produced by
the development of these features. The points at which the struc-

EUG ROOM:

DINING ROOM

CHAMBER,

 

 

Pians OF APARTMENT House, Brooking. Mass.; WatTerR H. Kitwam, ARCHITECT.

In Chicago a gross rental representing 10% on the joint value
of land and improvement is considered a very good return. The
apartments described here are paying 12% gross, 13%, 14%, and
one of them 15%. No single one of these buildings represents
all of the desirable features named, yet they are making returns

tures themselves depart from generally recognized types are few.
Their examination but serves to call one’s attention to a fact
which applies to all buildings; each is successful for purposes of
residence and as an investment, in proportion as its builder
grasped the special conditions and profited by them.

 
106 THE ARCHITECTURAL REVIEW.

 

The Heating, Plumbing and Refrigerating
in Apartment Houses.

By O. F. Semscu.

HE following plumbing fixtures will be almost invariably

found in all apartments located in the average New

York five-story ‘“flat”’ building, renting at from $5.00 to

$10.00 a room per month: a bath-tub, basin, and water-

closet in the bath-room; a sink, two wash-tubs, and a

refrigerator in the kitchen. In the more pretentious
apartments of this class, there is an additional water-closet for the
servant, and sometimes an additional basin in one of the bed-rooms.
The hot water is supplied from a central tank and heater in the
basement.

The higher priced apartments, located in the taller houses,
renting at $20.00 a room per month, or more, have, in addition to
the fixtures to be found in ‘flats,’ butlers’ pantries, containing
pantry sinks and refrigerators; servants’ toilet rooms, containing
water-closets, basins, and often bath-tubs ; and extra basins in the
dressing rooms between chambers. Hot water, ice water and
refrigeration 1s furnished from a central station.

In “flats” the wash-tubs and sinks are of slate, alberene,
brownstone, or similar ware, or the sinks may be of galvanized
iron. The basins are of porcelain, set in marble slabs. The
water-closets are of the washout or wash-down type, flushed from
cabinet finished cisterns; the baths, enameled iron. The exposed
piping, fittings, faucets, etc., are usually nickel-plated.

In the high-grade apartment houses, the sinks, wash-tubs and
basins are all white porcelain; the water-closets of the syphon jet
type, and the bath-tubs good enameled iron. Solid porcelain bath-
tubs are hardly ever used. The water-closets ought to be of a
type flushing as noiselessly as possible, otherwise they will make
themselves disagreeably heard throughout the apartment. Syphon
flushing cisterns which will insure a proper flush with only one
pull should be used, and their water supplies fitted with “hush”
pipes. The arrangement of water-closets in lines, or stacks, one
above the other, which naturally obtains in apartment houses,
renders the use of the so-called “flushometer” system advanta-
geous. This consists of one large flushing tank at the top of the
entire installation, with main and branch pipes, or “‘ water-ways,”
extending from it down ito the various water-closets. Each closet
is flushed by means of a peculiarly constructed valve, and the
small individual overhead flushing tank, with the noise incidental
to its refilling after each flush, is thereby abolished.

Where there are separate laundries in the basement, they are
equipped with wash-tubs, laundry stoves, and clothes dryers. The
latter consist of galvanized iron casings, containing a number of
racks. These are drawn out, the clothes hung on their bars, and
then pushed back into the casing.

The dryers may be heated either by steam coils, or by a series
of gas burners, with a metal shield over them, or even by hot air
cylinders connected to an adjoining laundry stove. A wire netting
should be placed over the heating apparatus, to prevent the lint,
or the clothes themselves, from coming into contact with it and
igniting. Each dryer must be connected to a vent flue extending
to the roof.

As to the sewage and drainage piping, it may be briefly said
that the underground part of the house sewer and drain is made,
in all cases, of extra heavy cast iron pipe with lead caulked joints
and fittings; the vertical soils, wastes and vents may be made
either of cast iron pipe or of standard galvanized wrought iron
pipe, with screwed joints and special recessed drainage fittings
(except the vent pipes, for which ordinary fittings may be used).
The water piping is generally made of galvanized wrought iron.
Lead pipe is now used only for very short runs. Each refrigerator
is provided with a safe connected to a waste line, which is dis-
charged over a sink in the basement.

An important feature of the plumbing work is the arrange-
ment of the water supply piping, which depends largely upon
the amount and constancy of the pressure maintained in the
street mains. Thus, if this pressure is at all times great enough
to carry the water up to the highest story, the piping will be very
simple in arrangement, consisting essentially of a horizontal main
running along the basement ceiling, with risers extending up from

it to the various lines of fixtures, Fig. 1. Each riser is fitted with
a valve and waste arrangement at its foot, a a, by means of which
it may be cut out and emptied independently of the rest.

The branch supplies also should be provided with valves or
stop-cocks near the fixtures so that the latter may be cut out for
repairs, or the pressure at
their faucets reduced,
which will effect the sav-
ing of much water. Where iW
the service enters, a main
valve, 4, is placed, to cut u
off the entire building.

If, however, the street TI
pressure is only sufficient |
to carry the water up to,
say, three-fifths of the
height of the building, a {
house tank has to be in-
stalled. This is usually 2
located on the roof; the
lower stories are then { Ee
supplied by “street pres-
sure,” and the upper by ,
“tank pressure.” In
cases of this kind the ES
street pressure very often
varies, running low dur-
ing the day, on account 7 Fe HZ HZ HZ
of the increased consump- j = *
tion, but becoming great
enough at night to force easy Ee
the water up into the tank Fic. t.
in sufficient quantity to
enable the latter to supply the upper floors during the daytime.
Under such circumstances a pump would not be absolutely nec-
essary to fill the tank. Where, however, the constancy of the
street pressure cannot be
relied upon, a pump

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

should be installed to in- Fiouse lait
sure a continuous supply
for the upper stories. Pago = ig
es é
Such a system is illus- Tonk! e ee ' 2
trated in Fig. 2. There is tr - ff ce Fa
a street pressure distrib-

uting header in the base- 1
ment, from which the ;
various risers extend up
through the building to a
tank pressure header
under the roof, the latter
being supplied from the
house tank through the
connection, @ The risers
are valved at top and
bottom, a, a, 8, 4, in order
that each may be cut out.
In addition, they are di-
vided into street and tank
pressure parts by the
check valves, c¢, ¢, located az
at the height to which
the street pressure will
ordinarily carry. These
check valves open up-
ward, and close down-
ward, automatically ; they will thus allow the street pressure, when-
ever it becomes great enough, to force the water to the very top of
the building ; at the same time they will prevent the tank pressure
water from running down, whenever the street pressure decreases.
The tank is fed through a stand-pipe by a pump, with a valved

Wand Love

 

i Sreed Freslure

eager

FUT?
Fic. 2.
THE ARCHITECTURAL REVIEW. 107

 

‘‘ by-pass,” ¢, around it, by means of which the pump may be cut
out whenever desired. The stand-pipe discharges into the tank
through a float valve, arranged to start and stop the pump auto-
matically, in accordance with the height of the water, as will be
described further on.

In place of the check valves, c, c, globe valves, without handles,
may be used. They would have to be opened or shut by an
attendant, according to the periodical variation of the pressure.

When the street pressure is so weak that it can be practically
ignored, the piping is usually arranged as shown in Fig. 3.

The house tank, after being fed by a pump through a stand-
pipe, discharges its water by means of a “down supply” into a
distributing header in the
basement, from which ris-
ers are extended up to the
various lines of fixtures.

In large apartment
houses, or apartment
hotels, the stand-pipe is
also used as a fire line, by
placing upon it, in every
story, an outlet equipped
with a hose and reel, 0,0.
To utilize the tank pres-
sure in case of fire, a con-
nection, a, is taken out
from the bottom of the
tank, with a check valve
upon it, opening from and
closing toward the tank, to
prevent the pump from fill-
ing and flooding it through
this connection.

The stand-pipe further
has, at its base, a connec-
tion extending to the side-
walk in front of the build-
ing, where it is fitted with
a siamese, or two-way,
inlet, to enable the fire
department steamers to
pump up into the stand-pipe, should the house supply prove
insufficient.

In those apartment houses where steam for power purposes is
available, pumps of the well-known double-acting duplex steam
pattern are used to fill the house tanks ; but in the great majority
of houses, which have no high pressure steam, electrical, hot air,
or other appropriate pumps are used.

The best type of electrical pump for houses of moderate size is
the screw-pump directly connected to a motor by means of a shaft
common to both. The action of this pump is continuous, avoiding
pulsation or water hammer in the discharge piping.

Such a pump requires practically no attendance, as it can be
started or stopped with an automatic switch, which will turn the
current on or off the motor according to
the water level in the tank. This is <n a
accomplished as shown in Fig. 4, by PaleS== ea]
means of a float, to which are attached a Toni
chain and weight. Upon the chain are I T
mounted two balls, a-a, engaging the lever Autonals
6 of the automatic switch, and opening ' Nat
or closing it, as the float falls or rises.

Others, especially the larger types of
electrically operated pumps, are connected
to their motors by means of belting, or
gearing. The latter, to obtain noiseless op-
eration, should be made of rawhide. All
electrical pumps can be controlled auto- Fic. 4
matically after the manner just described.

Another type of pump used in houses having no steam power
is the so-called ‘“ Vacuum ” or “ Atmospheric Pumping Engine,” an
apparatus combining a pump and small boiler, carrying 1% lbs.
steam pressure. The latter is required to operate the pump during
the summer months, while in the winter it is run directly by steam
from the low pressure heating boilers.

Still another kind of pump much used for this purpose is the
“Hot Air Pumping Engine.” In this the air contained in the
machine is first compressed in the cold part of a cylinder (kept
cool by a water jacket) and then transferred to its lower or hot
end, where it is instantly heated and expanded, thereby moving

   
       
   

House lanky.
Ly

Distributing

Meader

     

Pung
Fic. 3.

 

 

  
    

 

 

 

 

 

the piston. A fly-wheel furnishes the necessary momentum to
keep up this operation.

Pumps of this kind are equipped with various types of fur-
naces, so that coal, wood, gas, or even kerosene cil, if satisfactory
to the Underwriters, may be used as fuel.

Neither the vacuum nor the hot-air pumps can be operated
automatically ; they consequently require more attendance than
the electrical pumps.

Where the house-tank is filled by a high-pressure steam pump,
the latter is operated automatically by means of a tank pump con-
troller, mounted on the stand-pipe. As the water line in the tank
rises, and the pump continues to work against the closing float-
valve, the pressure in the stand-pipe will naturally increase. This
increased pressure causes the pump controller to shut the steam-
valve on the pump, thereby stopping it. As the water line in the
house-tank falls, the float-valve opens, the pressure in the stand-
pipe decreases, and the controller reverses its action, thus starting
the pump again.

In the best class of apartment houses in New York the water
service is equipped with filters. They are located so that all the
water will pass through them after it has left the meter.

When a filter is used in a building containing a house-pump,
the latter should always have a “suction tank,” to prevent the
pump from drawing the water so rapidly through the filter that it
will not be completely purified.

The main service discharges into this tank through a float-
valve, and the pump draws from it instead of directly from the
service, as shown in Fig. 5. The suction tank is desirable even
when there is no filter, as it keeps the pump constantly supplied,
and prevents it from forcing the meter. Where there are several
pumps for feeding the boilers, the house and elevator tanks, etc., a
suction tank is always installed.

An important part of the water piping of an apartment house,
and one in which it differs greatly from the average private dwell-
ing, is the hot water supply system.

About ten years ago the majority of apartment-house landlords
compelled their tenants to supply their own hot water by means

re -/arses

HO
Suction linlt

Fic 5.

 
      

 

 

 

 

Heber ber Luirye.

of the well known range boiler, which was located in the kitchen
of each apartment. But the central hot-water supply quickly came
into use, and found so much favor that the owners of even the
older buildings saw themselves compelled to install it and alter
their piping accordingly.

This system is very simple, consisting essentially of a large
steel tank, which is hung from the basement ceiling, Fig. 6, and
connected to a water heater by means of two pipes, a, 6. These
heaters range in capacity from about seventy-five to six hundred
gallons per hour, and consist of an inner and outer shell, between
which the water circulates around and over the fire. The cold
water flows from the tank into the heater through the pipe 4, and
the hot water rises from the heater up into the tank through the
pipe a. A main is taken out from the top of the tank and run
along the basement
ceiling, to supply the

Kot jeter 4 bees ——>
risers to the various

4 a XR Hot hater ditt ibaling Jtader

 

 

 

 

lines of fixtures re- —
quiring hot water; Kot Water lini, % Joke’
namely, the sinks, = = OV Hue-

 

0 >
washtubs, basins and ee 3
eee: ry
baths. Like the cold \ ' ! ee
'

 

water risers, the hot
water risers are fitted
with valve and waste
arrangements at their
bases. It is not customary to install circulating pipes in the hot-
water systems of apartment houses, because the consumption of
hot water in them is too great to allow the water to cool off by
standing in the pipes.

By covering the outside of the heater and tank with asbestos
or magnesia cement, or blocks, and the exposed hot-water piping
by hair felt, much coal can be saved.

In houses having high-pressure boilers, the hot water tank is
heated by means of a steam coil placed inside of it. The amount

 

Fic. 6.
S THE ARCHITECTURAL REVIEW.

 

of the steam supply is regulated, according to the desired temper-
ature of the water, by a thermostatic attachment,

Another form of apparatus for supplying hot water, which has
been recently introduced, is a Conner Crematory and Water
Heater,”’ consisting of a double steel cylinder, with a coal grate of
the ordinary type ‘at the bottom, and above it a garbage grate,
built up of a circular coil of water pipe.

The water enters the water jacket near the bottom, passes up
through the garbage grate coil, and out at the top of the heater.
The garbage, being deposited on the upper grate, is ignited by the
coal fire on the lower erate. Where the amount of garbage is
considerable, which is the case in most apartment houses, this
heater will naturally require much less coal than the ordinary
type to keep up the hot water supply.

The ‘“Gainsboro,” New York, containing about seventy
apartments, is given as an example; it has one of these brick-
set heaters, which is said to consume the entire garbage and
furnish all the hot water required.

The system of heating almost exclusively used for apartment
houses in this country is direct steam. In tenements, or the
cheapest grade of apartment houses, only the public halls and
staircases are steam heated; sometimes, in addition thereto, a
steam riser is extended up through the corner rooms having the
greatest exposure. In buildings where the apartments consist of
only two or three rooms, the kitchen range fire must suffice to
heat all; in apartments of more rooms, fireplace stoves are set up
by the tenants in the parlors, or living rooms,

In houses renting at about five dollars per room per month,
and over, radiators are located in the principal rooms, wherever con-
venient. In the better planned houses they are sometimes placed
in recesses under the windows, and thus an effort made to some-
what mitigate their inartistic appearance.

The very strong objections that French architects have to the
appearance of radiators lead them to heat Parisian apartment
houses with hot air; but the exceedingly great value of the floor
space in New York houses will always “tend to discourage the use
of heating systems requiring flue space, except, perhaps, in the
case of the most luxuriously-appointed Bridie:

~ One very objectionable feature in the heating of the majority
of apartments is the exposing of all steam risers. Arranged
thus, they not only detract from the appearance of the rooms in
which they occur, but give off heat whether it is desired or not ;
they also act as speaking tubes in transmitting sounds from one
story to another, it being practically impossible to make tight
joints around them where they pass through the floors or ceilings.
It is true that apartment house walls are so economically propor-
tioned that not much space is left for steam-pipe chases, but even
then it will nearly always be found possible, by the exercise of
some forethought and ingenuity, to provide room for the risers in
partitions, furred-out sp ae or similar locations.

The radiators are usually connected up on the one-pipe syste

that being the cheapest arrangement possible. It consists es sen-
tially of a horizontal main in the basement, starting from the
boiler near the ceiling, and eee downward slizhtly as it
makes a complete circuit of the building, finally dropping back
into the boiler near the floor. In this main the steam and con-
densation water both flow in the same direction. From it the
risers are extended up through the building, and to them, in
turn, are connected the radiators, each by a single, globe valved
branch. Each riser thus performs the double duty of conveying
steam up to and carrying condensation water down from’ the
radiators connected to it; it must therefore be made correspond.
ingly larger than the risers ina * double-pipe” system, in which
there is a set of two risers for each line of radiators, one carrying
up only steam, and the other bringing down only condensation.
Such aS) “stem has also two mains in the basement; one, the sup-
ply main, from which the steam risers are taken off, being run
close to the ceiling; and the other, or return main, which receives
the return risers, “being : run lower than the supply main, near the
basement floor, or in a trench under it. If the return is below
the water line in the boiler itis called a ‘wet’ return.

All risers should be valved at their base.

There is less Hability of ‘water hammer” in the double pipe
wet-return system than in the one- pipe system; for, in the latter,
the condensation water in the radiator connections and risers is
compelled to flow in a direction opposite to that of the steam. Te
therefore, a radiator, or riser, has been shut off long enough to
collect a sufficient quantity of condensation, the steam, when
turned on again, will come into conflict with this water and cause
the familiar pounding and snapping noises.

On the other hand, the one-pipe system has the advantage of
requiring only one valve at each radiator, which is less liable to
cause trouble through unintelligent control than the two valves of
the other systems. The radiators should be equipped with the
very best automatic air valves, to allow the air to escape from
them as they become filled with steam. The air valves are usually
discharged directly into the rooms, but it is preferable to connect
them up to a system of air piping, by means of which the conden-
sation which might otherwise drip to the floor will be carried off
to a convenient sink in the basement. The escaping of disagree-
able odors from the radiators into the rooms will then also be
prevented.

As far as the steam fitting is concerned, apartment houses may
be divided into two classes: those which maintain only a low-
pressure boiler and heating plant, deriving the electrical current
required for lighting and elevator purposes from the street mains
of the local electrical company, and those of the “ Ansonia”’ and
“Graham Court”’ type, which prefer to generate their own elec-
trical current, thereby requiring a complete power plant, consisting
of high-pressure boilers, engines, pumps, feed-water heaters, etc
In the former the apparatus is comparatively simple and can be
readily taken care of by the janitor; but in the latter, the plant is
quite complicated, and can be operated only by a licensed engineer.

In houses of moderate size, belonging to the first of these two
classes, the steam is usually generated by one of the many well-
known types of cast-iron ‘‘sectional ’ low-pressure boilers.

They are built up of the required number of “ sections,” or
hollow castings, connected together by means of ‘nipples’
or short pieces of pipe, in such a manner that the water will
readily circulate through them. The steam is usually taken off
from a drum or header at the top, and the condensation returned
to a header located on each side of the boiler near the floor. As
these boilers are run at low pressure (3 to § Ibs.), the water is fed
into them directly from the street pressure piping, through an
“automatic ’’ feeder, which by means of a float valve, maintains
the supply at the proper level. A saving in fuel can be effected by
covering boilers of this type with asbestos or magnesia cement, as
they seldom have a brick setting. Large houses of this class have
brick set return-tubular, or fire-tube, boilers, run at low pressure

In houses of the second class, those containing power plants,
the boilers are either of the return tubular (fire tube), or of the
water-tube type. In the former, the products of combustion first
pass under the boiler, and thence back through the tubes, which
are surrounded by water; in the latter, the water is contained in
the tubes, among which the fire circulates, It is a common
assumption that the water tube (‘‘satety "') boilers are less liable
to explode than the fire tube, but this is ee by such an authority
as i Harttord Steam Boiler oe and Insurance Company,
which, the writer believes, will insure both types for the same
premium.

The boiler smoke flue is constructed of iron plates, and so
placed in a shaft that it will be surrounded by an air space on all
sides, to prevent it from heating the adjoining rooms. This air
space is used as a vent for the boiler room, as the heat from the
flue creates a powerful draft.

The | piping of a power plant comprises six principal mains,
namely: (1) the high pressure steam supply, or power main; (2)
the ae main ; (3) the heating supply, or low pressure main ;
(4) the heating return main; (5) the high pressure drip main ; (6)
the low pressure drip main; and their branches to and from the
various appurtenances.

The first carries steam at eighty pounds pressure from the
boilers to the engines driving the generators ; to the various
pumps, and to the hot water tank. There is also a connection
from it to the heating supply main, with a “ pressure reducing’
valve mounted on it, so that the ‘ive aie with its pressure
reduced from eighty pounds down to five three pounds, may be
fed into the heating main, whenever necessary. This pressure
reducing valve is by-passed.

There is placed on the high pressure main a “steam sepa-
rator,”’ which removes the entrained moisture from the steam and
delivers it to the engines in a “dry” state.

The second, or exhaust main, receives the steam from the e engines
and pumps after it has done its work in their cylinders. This
exhaust steam is utilized ina number of ways, but principally for
heating purposes. For on reason there is a connection between
the exhaust main and the heating main. Ordinarily the exhaust
steam is sufficient to heat the entire building, so that it is rarely
necessary to supplement it with “live” steam through the pressure
reducing valve above mentioned.
THE ARCHITECTURAL REVIEW. 109

 

Before the connection between the exhaust and heating mains
is made, a “grease extractor” is placed on the former, to remove
the oil from the exhaust steam with which it has become tainted
in the engines and pumps; otherwise this oil would be carried
into the radiators and with the condensation from them back to
the boilers, where it might cause trouble.

Another portion of the exhaust steam is used for heating the
“feed” water, z.¢., the cold water pumped into the boilers against
the pressure maintained in them, by the “boiler feed” pumps. This
is accomplished by running a branch from the exhaust main through

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DIAGRAM OF Power PranT.

the “feed water heater,” a cylindrical tank containing a number
of tubes, in which the feed water absorbs the heat from the exhaust
steam. It is thus practically hot when it enters the boilers, and
therefore requires less heat to change it into steam than would be
needed were it to enter them cold. The feed water heater is
by-passed.

A branch may also be run from the exhaust main to the hot
water tank to permit the use of either exhaust or live steam for
heating the water required for the plumbing fixtures.

Finally, the exhaust main is extended, in or near the boiler
smoke flue shaft, to and above the roof, and there capped with an
‘“‘exhaust-head,”’ through which the superfluous steam escapes.
Of course, most of the exhaust steam will be lost in this way
during the summer time, when the heating plant is shut down.
At the base of the exhaust pipe, extending to the roof, a “back
pressure’ valve is placed. The object of this valve is to check
the outflow of the exhaust steam to such an extent that it will
assume sufficient pressure (usually from three to five pounds) to
circulate or force its way through the heating system. Unfortu-
nately this pressure does not confine itself to the heating system,
but is transmitted throughout the entire exhaust piping to the
piston heads of the engines and pumps, thereby detracting from
their efficiency. This ‘back pressure” can be avoided by placing
certain patented attachments on the heating system, as will be
described further on.

The third, or heating supply main, does not differ from the
supply main of a low pressure heating plant, after the exhaust and
live steam connections have been passed.

The fourth, or heating return main, cannot, in a power plant,
discharge its condensation water directly into the boilers, against
the eighty pounds pressure maintained in them. The heating
returns are therefore run into a “receiver,” from which they are
forced into the boilers by means of the “return pumps.’”’ A water
line is automatically maintained in the receiver, and thereby
throughout the heating return pipes by means of a “pump gov-
ernor,” which will start the pumps, by opening their steam valves,
when the return water line rises, and, on the other hand, stop
them when the water line falls.

A discharge connection from the return pumps to the house
drain is also put in, so that the heating returns may be discharged
into the latter, instead of into the boilers, whenever desired.

The “boiler feed pumps” mentioned above are ‘‘cross-con-
nected” with the return pumps and their governors, in order that
any of these pumps may be used as either a “feed” or a “return”
pump. As auxiliaries to the “feed” pumps, “injectors”’ are
installed, by means of which water is forced into the boilers when
the pumps are not available.

The fifth, or high pressure drip main, conveys the drips from
the power main, steam separator, and other high pressure appa-
ratus to a suitable receptacle, such as, for example, the ‘“ blow-off
tank.’’ This is primarily installed to receive water occasionally
“blown off” from the boilers to get rid of the scum or sediment
which collects in their “mud-drums”’; for the law prohibits blow-
ing high-pressure boilers off directly into the sewer, which would
tend to fill the latter with steam, and endanger the lives of inspec-
tors or others that might happen to be in it.

The blow-off tank should be fitted with a cooling coil. A good
plan is to run the cold water supply for the hot water tank first
through the blow-off tank, and then through the drip tank men-
tioned below, thus utilizing heat which would otherwise be wasted.

The sixth, or low pressure drip main, carries the drips from the
engine and pump cylinders, exhaust main, feed-water heater, etc.,
to the “drip tank.” This is located below the engine room floor.
Both the blow and drip tanks are usually located below the level of
the sewer; they must therefore be emptied by means of a “drip
or drain” pump, controlled by a governor, which will maintain the
right water level in these tanks. As an auxiliary for the drain
pumps, “‘ejectors” are sometimes installed.

In addition to the appurtenances described above, steam,
exhaust and drip connections must be made to the house, fire and
elevator pumps; to the refrigerating plant; to the kitchen appa-
ratus, such as steam tables, boilers, etc.; and to the laundry
apparatus, washers, dryers, etc., provided a general kitchen and
laundry are to be installed.

All the piping, whether belonging to the power, exhaust,
steam or return systems, should be protected with non-conducting
covering, canvassed, ringed and painted ; the boiler smoke breech-
ing and flue; the feed-water heater, blow-off and drip tanks ; the
separator and grease extractor; the receiving tank and pump gov-
ernors should likewise be covered with asbestos, or magnesia,
blocks, or cement, using a wire-lath foundation where necessary.
The engine and pump cylinders should be similarly covered and
encased in Russia iron and spun brass. A non-conducting ceiling
should be put up over the boiler and fire rooms. In addition, the
engine and boiler rooms should be thoroughly ventilated and cold
air forced into them.

To prevent the back pressure on the engines, etc., and at the
same time improve the circulation throughout the heating plant,
two patented systems of heating have been devised, the ‘ Web-
ster Vacuum Return System,” and the “ Paul System.”

In the first, valves of special design are placed on the return
connections of the radiators and coils, and the condensation is
then drawn out of them by means of pumps, thus creating a par-
tial vacuum in the system. The steam will then circulate through
it at, or slightly below, atmospheric pressure, and the five pounds
back pressure in the engine and pump cylinders will be avoided.
The circulation will also be more uniform, and devoid of all
“water hammer.”’

The second system accomplishes practically the same results
by placing suitable air valves on the radiators and coils, and con-
necting them up with carefully planned air piping, to which an
exhausting apparatus is attached. By means of this the air is
removed from the radiators and a partial vacuum created in them.
This allows the steam to circulate through them at or under atmo-
spheric pressure, and the back pressure on the engines is again
avoided. These systems have gradually become recognized as
practical and advantageous adjuncts to first-class plants, and while
their installation naturally adds to the first cost of the work,
they effect enough saving in the running expenses to make up for
that.

It is unusual to do much in the way of mechanical ven-
tilation in apartment houses, as in most of them there is not
sufficient space to accommodate the flues required for such a
purpose. It would, however, be very desirable to ventilate
at least the toilets and kitchens thoroughly wherever possible, as
any odors from these sources are much more liable to become
annoying in an apartment house than they would in a private
dwelling, on account of the proximity of the other rooms.

In apartment houses containing power plants it is customary
to install refrigerating machinery, by means of which the various
apartments are supplied with ice water and their refrigerators
cooled mechanically, thus saving the tenants the trouble of pur-
chasing and handling ice.

The refrigerating agent used is ammonia, which will absorb a
large amount of heat when allowed to expand or evaporate from a
liquid into a gaseous state. This it will do very readily, as its boil-
ing point lies at about twenty-eight degrees Fahrenheit below zero.
IIO THE ARCHITECTURAL REVIEW.

 

The expansion of ammonia gas takes place in cooling coils,
which are placed in a tank containing the substance to be cooled.
After the expansion it becomes necessary to compress and con-
dense the ammonia into liquid form again in order to expel the
heat absorbed, and prepare the ammonia for a repetition of the
Operation.

This may be done according to the “compression” or the
“absorption” method.

In the first system the ammonia gas is placed under a
pressure of from 125 to 17§ pounds in a machine run by a steam
engine ; then cooled and liquified in the “condenser,” a coil of
pipes over which cold water is constantly allowed to flow. After
this it is ready to be expanded to about 1000 times its original
volume into the refrigerating coils, thereby causing intense cold.

In the absorption system, a retort is used instead of a com-
pressor and engine. The retort is filled with aqueous ammonia,
or “‘strong water” (consisting of twenty-five parts ammonia and
seventy-five parts water) and heat applied to it by means of a
steam coil. This causes the water to give off ammonia gas and
steam ; the gas is compressed by the distillation.

The solution left in the retort after this process has taken
place is called the ‘mother liquor,” or ‘weak water.”’

The gas is cooled and liquefied in a condenser and then
expanded into the refrigerating coils, just as in the compression
syste.

After it has accomplished its object, however, it is taken to the
“absorber,” where it is brought into contact with, and absorbed
by, the ‘weak water,” thus forming again the original “strong
water,”’ ready to be returned to the retort, and subjected to a
repetition of the operation.

Numerous claims are made by the manufacturers of refriger-
ating machines of either system as to the superiority of the one
over the other; but, in the opinion of the writer, who has installed
machines of both types, after examining many plants, one is as
good as the other for apartment houses, hotels, and all buildings
of a similar character.

The refrigerating or ammonia expansion coils are located in
what are known as the “cooling tank’ and the “ brine tank.”

In the former they serve to cool the drinking water, previously
filtered; and in the latter, to extract heat from a brine solution,
which, in turn, is used to cool the various refrigerators, or ice
boxes.

The ammonia coils may also be extended into an ‘ice-mak-
ing” tank, in case it is desired to manufacture more or less ice on
the premises. This tank should be so arranged that it may be
cut off from the rest of the plant when not in use, and an insulated
storage box provided in connection with it.

The cooled drinking water is circulated by a small pump up to

the ‘‘ice water” faucets in the various apartments, and back again
to the cooling tank. This is not to be taken to mean that when
more than the desired quantity of ice water is drawn at any
faucet, the excess will be returned again to the circulating sys-
tem; on the contrary, such surplus water is allowed to waste to
the house drain.

The various refrigerators are equipped with pipe coils through
which the brine solution from the brine tank is circulated by
means of another small pump. The refrigerators could be cooled
by allowing the ammonia gas to expand directly into their coils,
but the brine circulating method has been found more practi-
cable than the ‘‘direct expansion” method in the case of apart-
ment houses and similar buildings where there are many small
refrigerators to-be cooled, on account of the close regulation of the
ammonia feed which would be required for the direct expansion
method.

It is well to place drip trays of galvanized iron under the brine
pipes in the refrigerators, as the hoar frost on them quickly melts
whenever the plant is shut down for even a short period.

The refrigerators, to render them sanitary, should be specified
with a glass or porcelain lining, and their coils ought to be of such
size that they will readily maintain a temperature of from thirty-
six to forty degrees Fahrenheit, with an outside temperature of
one hundred degrees in the shade. In determining the size of a
refrigerating plant for an apartment house, sufficient allowance
must be made for the fact that the refrigerators will be frequently
opened, and often, through carelessness, allowed to remain open
for some time, thus requiring, if the results are to be satisfactory,
a larger apparatus than would be necessary under more favorable
conditions

All tanks and other parts of a refrigerating plant should be
well insulated, and the cold water circulating and brine pipes,
except, of course, those located in the ice boxes, should be
protected from the warmth by being covered with wool and hair
felt.

The capacity of refrigerating machines is rated in tons. A
one-ton machine will produce as much cold as one ton of ice would
in completely melting during a period of twenty-four hours.

Thus the capacity of the absorption system refrigerating plant
in the ‘“ Ansonia,’ New York, is seventy tons. This is probably
the largest that has ever been installed in an apartment house,
the average size being five or six tons.

Per ton of its capacity, a refrigerating plant will consume one
and one-half horse power of steam, and one and one-half gallons
of condensing water, at sixty degrees Fahrenheit, or its equiva-
lent. This water, however, need not be wasted, as it is only
warmed by flowing over the condensing coils, and otherwise not
at all affected.

 
THE ARCHITECTURAL REVIEW. IIT

 

Some Data on Electricity in Apartment Houses.

P. R. Moses, E. E.

LECTRICITY in the modern apartment house, provides
light always, elevator service usually, and occasionally
heat for cooking or for small rooms; it is used in op-
erating telephones, call bells and annunciator systems;
for driving laundry, kitchen ventilating and pumping ap-
paratus, and in some cases for refrigerating machinery.

Apartment houses of the better type may be divided into three
main classes : first, those designed for housekeeping ; second, those
designed for restaurant service, and, third, those in which both are
combined; all these may again be sub-divided into fireproof and
non-fireproof.

The Dorilton Apartment, 71st Street and Broadway, New York
City, the Wellesley, 81st Street and West End Avenue, New
York City, are good examples of the first class. They are purely
housekeeping apartments; electric light, steam heat, refrigeration
of small cold storage boxes, and elevator service are included in
the rent, everything being supplied from isolated plants located
in the basements.

The second class is typified by the Belleclaire, 77th Street and
Broadway, the Collingwood, 35th Street, between 6th and 7th
Avenues, the St. Regis, the Martinique, St. Hubert, the Touraine,

Seymour, Algonquin, St. James. Here the conditions differ ; elec-
tric light and steam heat are furnished ; kitchen refrigerators, often
of large size, are cooled, ice is made for table use, iced water is
circulated through the small apartments, and is used to cool bottles,
milk, etc., besides serving for drinking purposes ; steam at from
thirty to forty pounds pressure is supplied for kitchen and laundry
machinery, electric motors being used to drive these as well as
to ventilate basement, and in the highest class hotel to heat and
ventilate parts of the house.

Isolated plants are almost invariably installed where the plot
covered exceeds 50 x 100, and the building has ten or more stories.

The Ansonia, 73d to 74th Streets and Broadway, the La
Rochelle, 75th Street and Columbus Avenue, are examples of the
third class, in which the work of the plant covers the requirements
of a housekeeping apartment above the first floor and of a hotel
apartment for the first floor and basement.

The non-fireproof houses are usually quite different from the
fireproof type, and the rentals obtained are lower. In these, light
is purchased by the tenant directly from an outside company ;
mechanical refrigeration is not attempted; elevators and pumps,
if necessary, are run by electricity from a central station. Laun-
dry work is sent out and no steam supplied to kitchen.

Where the non-fireproof apartment house covers a whole block
front, 200 x 100, isolated plants are sometimes installed and elec-
tricity sold to tenants, in which event the conditions are similar to
those of the fireproof house.

The practice of selling electricity to the tenant is becoming
prevalent in all classes of apartments where the size is sufficient to
warrant the trouble. The advantages of this plan are manifold ;
the consumption of electricity is reduced, as shown by actual ex-
periments, to one-third the use where electricity is included in
rent, and the receipts from the sale go a long way toward paying
the operating expenses of the plant. It is, however, a moot ques-
tion whether the same rents can be obtained where light is not
included.

Conditions existing in apartment houses have been sketched as
a preliminary to the consideration of systems of electric distribu-
tion, as the choice wiil largely depend on whether the supply is
to be obtained from an electric plant located in the basement or
purchased from an outside source.

There are three approved systems in use, viz.: the two-wire
125-volt direct current, the three-wire 240-volt direct current, and
the three-wire alternating current.

The first is used where no outside service is required, the sec-
ond and third where outside service is to be used either in whole
or in part. The difference is primarily one of electric pressure
(voltage). In the two-wire system, two wires of equal size are run
together and there is a difference between them, tending to cause
a flow of electricity of from 110 to 125 volts.

In the three-wire system, three wires of equal size are run
tegether and there isa difference of pressure between each outside
wire and the middle wire of 110 to 125 volts, and a difference in
pressure between the two outside wires of 220 to 250 volts.

There is a modification of the two-wire system required where
electricity from a private plant for lighting at 110 to 125 volts, and
electricity from an outside source at 220 to 250 volts (between the
two outside wires) are used alternately. This system is a two-
wire system with one of the wires divided into two, z.¢., one wire
has double the capacity of each of the two others.

This system is also used where an alternating two-phase cur-
rent is purchased, With electric elevators or other electric motors
of 3 hp. or over, the outside electric companies require 225 to 250
volts at the motor, hence the three-wire system is necessary, the
electricity for elevators being taken from the two outside wires.

In order to avoid the third wire, a two-wire system for lighting
at 225 to 250 volts is used. It is bad practice, as lamps designed
for this voltage have short life, require one third more power, and
what 1s more important, severe shocks may occur in case of elec-
tric leakage. The best practice requires a 125-volt two-wire sys-
tem for apartment house independent isolated plants. Where
outside service is required as a reserve for lighting only, the 125-
volt system is still used for the plant, but the modified two-wire
system with the middle wire double each outside is adopted.

With outside service in whole or as a reserve for motors and
lighting, the 225 to 250 volt system with three wires of equal size
is required,

The three wires in this system are only run as mains; the
feeds to motors and the branch circuits to lights are two-wire.
The feeds have 220 to 250 volts and the branch circuits 110 to 125
volts between the wires.

The dynamos and motors for such a plant should be designed
for 220 to 250 volts. In order to keep lights equally brilliant on
each pair of wires, an automatic balancer is needed. Various types
of balancers are employed, but a discussion of them belongs to an
electrical paper; the best are the shunt wound motor dynamo and
the balance coil. The first is cheaper and better where a number
of dynamos are to be installed; both are equally as cheap and
good with only one or two dynamos.

The location of lights and distribution is frequently decided by
the decorative effect ; for good lighting one 16 c.p. lamp for 7co to
800 cubic feet in chambers and 500 cubic feet in dining-rooms is
ample, and this last ratio is suitable for large first floor dining-
rooms and lobby.

Basement lights are located where needed and no ratio can be
stated.

Groups of centre lights are about one-half as expensive to wire
as side lights. Side lights are generally installed in the handsomer
apartments, in a few chambers, and wherever else necessary for
decorative effect. Combination fixtures are rarely used, electricity
being as reliable as gas. Gas pipes are usually run for gas logs
and ranges, and occasionally in rooms with these, provision for
gas lighting is made.

The rules issued by the American Institute of Electrical En-
gineers, and adopted by the Board of Underwriters, known as the
National Code, specify the amounts of electricity allowed for dif-
ferent size of wires; they also cover the thickness of insulation
required for different pressures and specify in detail what material
can be used and where. These rules are fair and the requirements
in accordance with good practice, hence it is advisable to specify
that work and material shall conform to the requirements of the
Board of Underwriters.

One of these requirements is that wherever the size of wire is
changed a fuse shall be inserted which will melt and break the
circuit when more than the current allowed for the smaller wire is
being carried on this wire. Two types of fuses are used, the open
link and the enclosed fuse. The open link fuse is a strip of fusible
alloy held by copper clips, and is open to the objection that when
the fuse melts or “blows” it is liable to set fire to any inflam-
mable material it strikes. The enclosed fuse has a similar fusible
material which is enclosed in a cartridge-like case, preventing
damage. Usually these fuses have an indicating spot which turns
black when fuse is blown; without this on small fuses there would
be difficulty in locating the one blown. The rules require that
branch circuits running to electric lights shall be so subdivided
that no more than 12-16 candle power lights (660 watts) shall be
on one circuit. This has led to the use of panel distributing
boards into which the main three-wire or two-wire risers feed, and
112 THE ARCHITECTURAL REVIEW.

 

from which branch circuits lead to sets of ten or twelve lights,
each circuit being controlled by a small switch; with a fuse alone
or a ‘“‘plug cutout.” The small fused switch is the preferred
method with open link fuses, the enclosed being too expensive for
ordinary work.

The object of the switch is to allow the connection between
the circuits and the main to be broken, so as to permit insertion
of new fuse, ete., in case of trouble.

Plug cutouts are round glass fuse holders screwing into sockets
similar to those used for incandescent lamps. The General Elec-
tric Co. make up panel distributing boards with these, instead of
switches and fuses, but they are not largely used for the same
reason stated for the non-use of enclosed fuses, 7.c., expense of
renewals.

The Underwriters require that panels shall be enclosed in a
fireproof case, and the best method is to enclose the panel, which
is of slate or marble, usually slate, in a set of slate or marble sides
having holes bored for the entrance of the wires. Outside of the
slate sides, about six inches away, is built a wooden box having a
door tightly fitted, lined with slate, asbestos or tin. The last is
not as good,—a fuse blowing may set the insulation of wires on
fire, and heat the tin hot enough to start the wood outside.

The Underwriters require that all wires where concealed shall
be run in iron pipe, which shal. be a perfect mechanical protection
against careless workmen driving nails into wires.

Numbers of pipes for this purpose are on the market, among
them the Loricated Richmond Electroduct, all plain pipe enameled
outside.

Other pipes have a so-called insulated lining which has been
practically abandoned.

A third variety of conduit has been introduced within the last
few years, the Greenfield flexible conduit, a most ingenious sort of
galvanized or enameled flexible metallic pipe which can be bent in
any direction and still keep a covering over the wire. Its flexibility
makes the labor of installation much less than with the solid pipe,
but latterly the cost of the solid pipe has been reduced so as to
make the total cost about the same. The advantage of the solid
pipe is that it is watertight, or should be; the disadvantage is the
extra labor involved and the danger of tearing off or abrading
insulation of wires when they are being pulled in.

The use of solid pipe is necessary where wires run in damp or
wet places. Both types of conduit are liable to corrosion from
concrete made with wood ashes, and several instances have been
noted lately where pipe has been eaten through before the building
was fairly completed. One remedy is apparent, not to use wood-
ashes; the other is to cover the pipes with tar-paper where they
run through wet-ash concrete.

Outlet boxes or plates are required in connection with conduit
at every outlet for lights or switches. These are made in a great
variety of patterns, suited particularly for the location and fixture.
Where ceiling fixtures are used a ceiling plate is allowed, which is
nothing but a plate with holes for entrance of conduits, gaspipe if
for combination fixture, and hole for fixture stem. This plate
takes but little space and serves the purpose. It is not water-
proof and should only be used in places free from moisture.

No wire is allowed in conduits until these are completed, and
wire should not be drawn in until necessary for completion of the
work, as moisture is liable to accumulate in the pipes during plas-
tering and cementing. Main wires and wires of large size running
to motors are always run in solid pipe, the flexible being too expen-
sive and without benefit. Where three-wire system is used, three
wires are run together in a single pipe; in two-wire system, two
wires. Branch circuits are usually run with “twin”’ wire ; that is,
two wires enclosed in a common insulating covering. In specifying
sizes of wires, the Brown & Sharpe gauge is always used up to 4/0,
after this, size is stated in circular mills. All wires larger than
No. 4 should be stranded for ease of handling.

Switches, located in side walls near doors, are used in the best
type of apartment house to control groups of lights or single ceiling
lights. The use of wall switches increases the cost of the wiring
installation 50%, more or less depending upon the number ; about
$5 a switch is a rough approximation and includes extra wire,
labor, conduit, and the switch itself. The rules require that double
poie switches be used for groups of more than six lights; less than
this number can be controlled by a single pole switch. The differ-
ence between the cost of the single and double pole switches is
small, but the use of the latter involves double as much wiring and
nearly doubles the cost of installation. There are two types of
wall switches — one operated by a push, and the other by a twist ;
the choice is a matter of individual preference. Where reduced

expense is an object, pendant push switches or chandelier switches
controlled by chain are satisfactory and serve the purpose perfectly.
Wall switches are more suitable for control on entering or leaving,
pendant switches for control during use of rooms,

The space required for electric conduits is small, the branch
lighting circuits needing less than an inch; outlet boxes for wall
outlets are designed for all thicknesses or partitions, but three
inches is about the minimum allowable thickness if two lights
come directly opposite one another.

Side lights should be located not higher than 6 ft. 6 in. from
floor unless for special purpose. Switches from 3 ft. 6 in. to q ft.
from floor.

Wiring outside of building or in cold storage rooms or rooms
exposed to dampness or to acid fumes such as storage battery
rooms, should be wired with weatherproof or lead covered wire,
preferably the latter.

While it is impossible, within the limits of a paper of this kind,
to treat fully on the properties of the different pieces of electrical
apparatus, still it is possible to touch upon some of the points
to be specified and the troubles to be avoided. The electric
equipment consists of dynamos supplying electricity to switch-
board which controls and delivers it through wires to motors,
lights, ete.

Where electric elevators are used, a storage battery is fre-
quently advisable to receive electricity from dynamos and dis-
charge to elevators, performing a function similar to that of the
pressure tank in the hydraulic elevator system. Besides this, the
battery may supply light used during part of the day, the dynamos
being shut down.

Dynamos for apartment house work should be designed for
125 volts, unless street service is to be used as an auxiliary: they
should be wound to automatically raise the voltage (over com-
pound) 3% to 5% with full load; they should be directly coupled
to engines, not placed on engine shaft. Brushes, from which
electricity is collected, should be of carbon free from hard spots,
and have 1 square inch area for each 35 amperes of electricity
delivered at full load.

Dynamos should have a maximum increase in temperature
under full load, of not more than 4o° C. The capacity of a
dynamo is largely limited by the amount it will heat up under load;
so that a machine that will rise 35° C. under continuous full load,
has a much greater capacity than one which will rise 45° C. under
the same conditions, hence the allowable rise should be noted.

The armature should be secured to shaft by keys, set screws
alone are insufficient ; unless this is done the wires leading to the
commutator may break and serious trouble occur. Particular
study should be made of the commutator design, and drawing of
this should be submitted with bid, unless the purchaser is familiar
with the construction. The commutator is the part of the dynamo
from which the electricity is collected by the brushes, and it is the
only part in which trouble arises frequently, and this is invariably
due to lack of proper mica insulation, oil, or to improper securing
in place of the armature. The mica should be first class, thick,
and should be extended out beyond the protected surfaces suf-
ficiently to prevent grease and dirt from making a “short circuit”
or “ground.” The copper bars forming the commutator should
be heavy and well supported throughout their length; the chat-
tering noise of brushes is frequently due to weak support. In-
side of commutator should be protected from oil thrown up by
shaft which gets it from outboard bearing. The slots of armature
should be shallow ; deep slots cause singing noises from magnetic
vibration. The pole pieces should be solid not “laminated,” as
better lighting results under elevator load are thus obtained. In
general the dynamo should be easy to inspect and clean, particu-
larly around commutator end, and should be thoroughly tested
with 25% over full load for from two to four hours.

The foregoing requirements apply with even greater force
to motors for elevators and other purposes. Elevator motors are
continually starting and stopping, and are thus exposed to heavy
mechanical as well as electrical shocks. The securing of armature
and commutator is of the highest importance, and it is the best
practice to make the connections between armature winding and
commutator, flexible. Another reason is that copper becomes
brittle with alternating heating and slow cooling (exactly contrary
to the behavior of iron under similar conditions), and solid connec-
tions will break very easily after a period of use. Both on account
of motor and source of electricity, whether isolated or street ser-
vice, a low starting current for elevators is advisable, particularly if
lights and elevators are to be operated from the same source. It
is a proper requirement to specify that the starting current shall
THE ARCHITECTURAL REVIEW. DLS

 

never exceed the current required to run the car with full load,
and the amount should be stated.

The question is frequently asked whether elevators and lights
can be operated from the same engine and dynamo without flicker-
ing of lights. This is perfectly possible and depends on the gov-
ernor and design of the engine, the design of dynamo and starting
current of elevator. If the design of these factors is correct, and
if elevators are separately connected to plant and switchboard or
source of electricity by wires distinct from lighting wires, elevators
and lights may be run from one engine dynamo set without the
slightest apparent flicker.

The switchboard is the receiving and distributing center of
the electric system; it receives the electricity from the source,
the instruments on it measure the quantity and pressure; and the
switches control the different mains and feeders running to dis-
tributing panels on various floors and to motors. Protective
devices designed to prevent overload are located on this board.
They consist of circuit breakers and fuses; the former are instan-
taneous in action and open the circuit with even momentary over-
loads, hence they do not seem advisable for elevator circuits.
They are highly suitable for protecting lighting circuits, and the
only reason they are not more extensively used is their cost when
compared with fuses.

Switches should have one square inch cross section for every
1000 amperes of electricity ; connections between switches should
be made by copper bars (called bus bars). Enclosed fuses on face
are advisable where current does not exceed 500 amperes, above
this open fuses on slate slabs at back of board.

Instruments should include ammeter for each dynamo, one
voltmeter with switch arranged so that voltage can be read across
all dynamos and sets of “bus bars’’; wattmeters to record total
electricity delivered; a standard clock; and the rheostats of the
dynamos. If street service is used, no instruments are required,
except those supplied by the company, and the switchboard merely
contains controlling switches and fuses.

For low voltages, up to 500, slate is as good as marble, and
round pattern instruments are entirely satisfactory for boards.
Where finish is important, a marble board framed in copper with
coppered pedestals and illuminated dial instruments may be used,
but will cost from 50 to 75 per cent more.

Storage battery should be amply large for the work, where
used for lighting; end cells should be provided to hold constant
voltage. The cells should be placed in single tier, if possible, and
the distance between end of battery and switchboard should be
minimized.

Storage battery room should be separate and vented either to
open aire .flue. All iron work in room should be covered
to prevent currosion by acid fumes, and wires should be encased
in lead and run on porcelain knobs.

Bell wiring for apartment houses is simple; one for door, one
for each of large rooms and one for rear entrance, all ringing
annunciator in kitchen. Dining-rooms should have special floor
push.

A fire gong in each hall controlled from office is advisable.
Wires for mains should be rubber covered and run in conduit.
Wires for bell circuit may be damp-proof run in walls. Groups
of batteries located in basement, or, what is much better, small
dynamoter sets, supply all the current used to operate bells.

Telephone wires are usually run by company, and are simply
bunched in walls. When private telephone service is used same
practice may be followed. Telephone wall sets should have desk
for pad and be of non-ringing type.

There are all kinds of other appliances operated electrically,
which are being used in apartment houses where cheap electricity
is available from a private plant.

Electric heaters, similar to small car heaters, are used for bath-
rooms; electric lights that turn down like gas are entirely prac-
tical ; electric grills for cooking are just making their way ; electric
irons and electric driven sewing machines are already an old story.
One of the new old, recently perfected, inventions is the telauto-
graph, which is in successful use in two apartments of the hotel
type for transmitting, electrically, written orders from office to
pantry. Electric automobiles are ideal for city use, and several
apartment houses charge the batteries of these entirely from the
plant. Electric heating is sometimes suggested as a substitute
for steam for rooms. This is out of the question as the cost when
compared to steam is over 25 to 1 in the most favorable instance,
except where the heating is not of a temporary or isolated nature.

Some data on cost of plants in apartment houses may prove
of interest :

Wiring of 12-story house, 100 x 100, housekeeping apartments
well lit with side lights and wall switches, total about 2000 lights,
cost without switchboard, $7200; dynamos and switchboard, $4500.

Same as above, 3000 lights, 175 x 100 feet, $10,400 ; dynamos
and switchboard, $5000.

Wiring non-housekeeping 12-story apartment hotel, 60 x 100,
no switches, all center lights, about 1100, $3000; dynamos and
switchboard, $2500.

Same as above, 1400 lights, 100 x 100 feet, $3500 ; dynamos
and switchboard, $3500.

The lighting in apartment houses is, as might be expected,
very small during the day, about one-fifth the evening load, which
in turn varies from one-half to three-fourths of the total number
of lights installed, dropping down quickly after 11 p.m. back to
about one-sixth the evening load. The character of this load
makes three units advisable, one for day, two for night, and one
for spare.

The question of using electricity for cooking, in housekeeping
apartments containing private plants, is receiving serious consid-
eration, and its cost is now being investigated. Gas is more
economical and better fitted than electricity for this purpose, but
the questions are whether the extra cost involved by the genera-
tion of electricity for cooking in addition to that for other building
purposes, will be as much as the price charged for the service
by the gas companies, and whether the service will be equally
satisfactory.

The cost of generating electricity, including fixed charges such
as interest and depreciation, with well designed plants varies from
two cents per kilowatt hour in large apartments of the hotel type,
up to ten cents in small houses of the housekeeping type. No
general figures of this sort are of value except as an indication, as
each plant must be separately figured and all the conditions care-
fully studied.

Central Station rates vary for lighting; they are fifteen cents
per kilowatt hour for first and second hours average daily use of
the lights installed ; ten cents for the next two hours; seven and
one-half cents for next two hours, and five cents for additional
hours. Power rates vary from ten cents per horse-power hour
(three-fourths of a kilowatt hour) down to five cents, depending on
quantity used.

Note: The reference to Greenfield flexible conduit on page 112 calls for correction, as since the
writing of this article the Sprague Electric Co. have devised a flexible conduit, which has a waterproof
lining or gasket, interwoven with the spirals of the conduit. This conduit when galvanized is now
accepted by the authorities and is thoroughly watertight.

 
THE ARCHITECTURAL REVIEW.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

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THE ARCHITECTURAL REVIEW

117

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

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THE DORILTON APARTMENTS, BROADWAY AND 71st STREET, NEW YORK
JANES & LEO, “RCHITECTS

 

 

 

 

 

 

 
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THE ARCHITECTURAL REVIEW.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

THE HOLLAND, 66 AND 68 WEST 46th SFREET, NEW YORK; ISRAELS

 

 

 

 

 

 

 

 

 

 

 

 

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THE ARCHITECTURAL REVIEW.

 

 

   
   

 

 

 

 

 

 

 

 

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1a THE ARCHITECTURAL REVIEW.

 

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EUCLID HALL, BROADWAY, 85th TO 86th STREETS, NEW YORK
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THE ARCHITECTURAL REVIEW.

 

 

   
     

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THE HARGRAVE, 104 WEST 72d STREET, NEW YORK; FREDERICK C. BROWNE, ARCHITECT
THE ARCHITECTURAL REVIEW. I

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PARLOR | PARLOR

20-0 x 16-0" : 20-0% 16-0"

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*NVMBER-: 15-EAST’46:STREET-
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BACHELOR APARTMENTS, 15 EAST 48th STREET, NEW YORK; LIENAU & NASH, ARCHITECTS
THE ARCHITECTURAL REVIEW.

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POND & POND, ARCHITECTS

’

CHICAGO, ILL.

d

JAS. A. MILLER APARTMENTS

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

LL.

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CHICAGO,

’

PLAN OF THE IRVING APARTMENTS

PLAN OF MILLER APARTMENTS

POND & POND, ARCHITECTS

 

 

 

 

 
THE ARCHITECTURAL REVIEW.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

THE LEONORI APARTMENTS, MADISON AVENUE AND 63d STREET, NEW

 

YORK; BUCHMAN & FOX, ARCHITECTS

 

 

 

 

 

 

 
THE ARCHITECTURAL REVIEW.

 

 

 

 

 

 

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THE ARCHITECTURAL REVIEW.

 

 

 

 

 

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THE MANSFIELD BACHELOR APARTMENTS , NEW YORK: RENWICK, ASSINWALL & OWEN. ARCHITECT
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THE ARCHITECTURAL REVIEW.

 

 

 

 

 

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STOKES, PAUL E. DU BOY ASSOCTATED. ARCHITECTS

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THE ANSONIA, NEW YORK
THE ARCHITECTURAL REVIEW.

Xi

 

COLORS and SPECIFICATIONS

A new folder illustrating steel structures;
with colors of Dixon’s Silica-Graphite Paint,
and practical specifications for construction
and maintenance painting of steel and iron.

 

 

PUBLISHED FOR FREE DISGRIBUTION BY GHE

Joseph Dixon Crucible Co., Jersey City, U.S.A.

 

 

 

 

MAGNESIA

STEAM PIPE COVERINGS

HEAVY DAMAGES TO BE COLLECTED
AGAINST ALL INFRINGERS

 

In the Suits Against the |

PHILIP CAREY MANUFACTURING COMPANY
AMERICAN MAGNESIA COMPANY
AMERICAN MAGNESIA COVERING COMPANY
SCHOELLKOPF, HARTFORD & HANNA CO.

The Court has required the defendants to
make answer to our bill

THE KEASBEY G MATTISON CO., Ambler, Penna.

Their Demurrer Overruled

Suit has been entered against the C. W. Trainer
Manufacturing Co. of Boston.

}@= All persons are warned not to engage in any
piracy of our patents, as suits will promptly follow
against all Infringers.

 

 

 

 

 

 

 

 

cw Letters and Lettering wuss

By FRANK CHOUTEAU

A treatise with two hundred examples of standard and modern alphabets, for the use of designers, decorators, crafts-
men and all who have to draw letter forms. Send for descriptive circular.

Bates & Guild Company, Publishers, 42 Chauncy St., Boston, Mass.

BROWN

Price, postpaid, $2.00

 

 

 

 

American Sheet Steel Company
Battery Park Building
New York
Manufacturers of all varieties of
Iron and Steel Sheets
Black and Galvanized
Plain and Painted

Flat, Corrugated and
Ny Crimped

Apollo Best Bloom Galvanized

W. Dewees Wood Company’s
Patent Planished Iron

W. Dewees Wood Company’s
Refined Smooth Sheets

Wellsville Polished Steel Sheets

 

Electric Cooking Only

Should be considered for AN APARTMENT HOUSE
KITCHEN. Usually as cheap or cheaper than gas. There
is no flame, odor, dirt, smoke or bitiated air. Small kitchens
are not objectionable because the apparatus does not heat the
room, and all the debices are portable, so that there a
simple table anslvers perfectly for a range. We habe hundreds

in serbice throughout the country.

INVESTIGATE BEFORE PUTTING IN GAS

The Simplex Fulectric Heating Co

Franklin and Sidney Streets, Station A, Cambridge, Mass

CHICAGO OFFICE, MONADNOCK BLOCK

 

 
‘11

THE ARCHITECTURAL REVIEW.

 

The W. J. PERRY
DUMB WAITER

 

Roller-bearing, noiseless, easily operated and
perfectly controlled by one rope operat-
ing a band brake. Economically installed.
Capacity—TWO HUNDRED POUNDS.

Write for full particulars and estimates.

W. J. PERRY
591 Atlantic Avenue, Boston, Mass.

 

 

 

 

fi

 

FITCH SASH LOCKS

 

 

«The Perfect Window Fastener”

Send for Catalogue and Working Model
The W.& E. T. Fitch Co., New Haven, Conn.

 

 

 

 

 

 

 

 

 

 

4 + #4 ty 4 #

 

PERSPECTIVES RENDERED
In Pen-and-Ink and Water-Color
WALTER M. CAMPBELL ]
8 BEACON STREET, BOSTON, MASS.

 

 

 

 

 

Silver Lake “*A”

Is now marked
on every 3 feet of

The Best

Sash Cord

Made.

Architects can now easily protect
themselves against the substitution of
inferior cord in place of the standard
make of solid braided cord. The dif-
ference in cost to your client is very
small, but inferior cord offers a larger
profit to both builder and hardware
dealer. When absolutely
the best, specify Silver Lake ** A”
look for the name on the cord, when

you. want

and

euperintending.

 

BAY STATE OIL SHINGLE STAINS

Have superior wearing qualities and are made from the

 

 

best materials. Made in twenty different shades. Any

special shade made to order at short notice.

MANUFACTURED ONLY BY

WADSWORTH, HOWLAND & CO.

INCORPORATED

82 and 84 WASHINGTON STREET, BOSTON

MAKERS OF EVERYTHING IN THE PAINT AND VARNISH LINE

‘——V hai eee a eed

06 cm ¢-4.9 cm 4) mmm 4-4 meme $4 ( mmm 99) mm 4) ee 4) me 14) HH

 

 

 

 

The Mile-stones of Architecture

by A. D. F. HAMLIN

Professor of Architecture, Columbia Unibersity
A very clear and intelligible summary of the history of Architecture with illustrations selected to

show the relation of parentage and descent among the styles. No architectural draughtsman should
fail to secure a copy and read this article. It fills the whole August number of The Brochure Series

Price per copy ten cents

Bates & Guild Company, Publishers, Boston, Mass

 

IF YOU SPECIFY

 
         
      
 

Send < a 5 ee <
<a —> aS eee a 4

for Naan ag a a ge ee
Wy ee ee a a

Samples. ZZ 5
SAMSON SPOT CORD

You can tell at a glance that no other cord is substituted. Itis warranted to 4

be of Pure Cotton, smooth finish and perfect braid.
SAMSON CORDACE WORKS, Boston, Mass.

; Pictures

D Mounted
0) Ulith » 2

 

ASI

Have an excellence peculiarly their
own. The best results are only g
produced by the best methods and
means — the best results in Photo-
graph, Poster and other mounting E|
can only be attained by using the
best mounting paste —

PVOVAN

 

 

t wy
A) Rew HIGGINS’ PHOTO MOUNTER YJ
4) HIGGINS’ 4 (Excellent novel brush with each jar). q
5) yp
2 At Dealers in Photo Supplies, G
J Artists’ Materials and Stationery.

B

 

yp

| | , | v @

P O O A 3-02. jar prepaid by mail for thirty cts. $
4 or circulars free, from @
» | | : CHAS. M. HIGGINS & CO., Mfrs. %
4 MO N EB NEW YORK—CHICAGO—LONDON G
p)) Main Office, 271 Ninth St, | Brooklyn, #&J
y Factory, 240-244 Eighth St.\ N.Y.,U.S.A. E

 

 

 

 

Dugh Cairns

Architectural Sculptor
Modeler
and Stone Carver

INTERIOR PLASTER, BRONZE, COPPER,
ET CA TING IN oP LAST ER

MONUMENTS & TABLETS

48a Suppury Street, Boston, Mass

ae ee

 

Sculptor of
The Porch of

TRINITY CHURCH

Boston, Mass

MASS. STATE SEALS
MASS. STATE HOUSE ANNEX

HOTEL SOMERSET

Boston, Mass

MOUNT VERNON CHURCH

Boston, Mass

HOUSE OF A. C. BURRAGE

Boston, Mass

RANDALL HALL

Cambridge, Mass

DAY MORTUARY CHAPEI
Norwood, Mass

Pediment
INSTITUTION FOR SAVINGS

New Bedford, Mass

WELLESLEY COLLEGE
CHAPEL

 

 

 

 

 

 

 
THE ARCHITECTURAL REVIEW.

Nil

 

Physical Blindness

is a misfortune — mental blindness often a fault.

Those that will not see cannot see: but those

that are open to conviction can readily see that

zinc White

is an essential ingredient of durable,

beautiful,

economical paints.

FREE
Our Practical Pamphlets:
‘ Patnts tn Architecture”
* Specifications for Architects”
‘© French Government Decrees”

Ghe New Jersey
Zinc Company
ll Broadway, New York

 

 

 

Bronze Elevator Enclosures furnished for Elks’ Temple, Detroit, Mich., by

The W. S. Tyler Company, Cleveland, Ohio

 

EXPANDED METAL

SYSTEM OF FIREPROOFING
is the best for all kinds of buildings

EXPANDED METAL LATH

is the standard metal lath in all the
markets of the world

Eastern Expanded Metal Co.

602-605 Paddock Bldg., Boston, Mass.

A.P.LomBarb & Co.

101 Bristol St., BOSTON, MASS.

Papier Mache, Staff
Fibrous Plaster
MODELING TO ORDER

 

Catalogue to Architects on request

 

JORUTH

BLIND FASTENER

This improved device deserves the
attention of every architect There is
neither spike nor back-catch to be
driven into the side of the house, and
it is therefore particularly desirable

  

for brick houses.

The blind may be easily opened or
closed without leaning from the window. Open. it is held securely by the
fastener; closed, it is held by a small latch on each blind. The illustration
shows the position of the fastener when the blind is open. It can be applied
to old blinds as well as new.

Trad 4 Joruth Manufacturing Co., Wollaston, Mass.

 

 

Universal Safety Tread

IN USE UPON

New Railway Station, New York.
Central & Hu on River R.R., Troy, N.Y.

 

 

Café Main, Filth Ave., New York.
Wall Street Exchange Building,
Exchange Place, New York.
Fire Department Headquarters,
Providence, R. I.
Connecticut Fire Insurance Co.,
Hartford, Conn.
ol, Boston, Mass.
St. Francis Parochial School,
Charlestown, Mass.

 

Bigelow Sc

 

Universal Safety Tread Co., 43, Brogdway
New England Safety Tread Co., Equitable Bldg., Boston

 

 

 

WATER SUPPLY PLANTS

HIS cut shows one of our
smaller Gasolene Engine and
Triplex Pump Combinations.
The engine is of 3 h.p. and the out-
fit has a capacity of 34 gallons a
minute discharged at 146 elevation.

We are consulting and contracting
engineers for Complete Water
Works Systems. using Windmills,
Gasolene Engines and Electric or
Steam Pumps. and are prepared to
give advice to any one on proposed
plants and to submit proposals and
estimates for the whole or any part
of same. Send for our special cata-
== logue on this subject.

   

 

‘i A a Please RBGpHy Cateive Catalogue J.

CHARLES J. JAGER COMPANY

166-168 HIGH ST., COR. BATTERYMARCH, BOSTON

 

 

 

“BENEDICT- NICKEL”

Seamless Tubing

As it is ‘‘ white metal clear through” the wear of
frequent rubbings and the corrosion of ee he
do not affect its original nickel lustre.

Send for descriptive booklet.

BENEDICT & BURNHAM MFG. CoO.
WATERBURY, CONN.

NEw YORK, 253 BROADWAY BOSTON, 172 HIGH ST.

      

 

 

 
THE ARCHITECTURAL REVIEW.

 

CONSERVATORIES, ROSEHOUSES,
GREENHOUSES, FROM THE ELAB-
ORATE RANGE TO THE SMALL
CONSERVATORY, COMMERCIAL or
PRIVATE HOUSES, ERECTED IN
THE WORKMANLIKE and DURABLE
MANNER FOR WHICH OUR NAME
STANDS. WE ARE EXPERTS in THIS
LINE. LET US ESTIMATE FOR
YOUR PROPOSED HOUSES

NEW YORK BOTANICAL GARDENS, BRONX PARK, N.Y.,

HITCHINGS & Co

Horticultural Designers and Builders
Established 1844

233 Mercer St., New York

ERECTED BY US

WE PARTICULARLY INVITE COR-
RESPONDENCE FROM ALL ARCHI-
TECTS WHOSE CLIENTS CONTEM-
PLATE THE ERECTION OF CON-
SERVATORIES. ARCHITECTS’ SUG-
GESTIONS embodied in SKETCHES

Our Sash Operating Apparatus for Fac-
tories, Foundries, Greenhouses, etc., is
unexcelled. SEND FOR CATALOGUE

FULLY

 

ILLUSTRATED CATALOGUES ON GREENHOUSE CONSTRUCTION AND HEATING

FREE UPON APPLICATION

 

 

New York

Apartment Houses Using the Loomis Filter

 

Alvarado Apartments
Park Abe. and 80th St.

Astor Apartments
Broadway and 75th St.

Apartment House
771 Madison Ave.

Apartment House
470 Fifth Ave.

Apartment House
15 Evist g5th $f.

Belgravia Apartments
Fifth Abe. and goth St.

Dakota Apartments
gid St. and Central Park, W.

 

Hotel Wellington
7th Abe. and 55th St.

Hatfield House

103 East 29th St.

Hotel San Remo
75th Stand Central Park, W.

Hotel St. Andrews

Broadway and 72d St.

Hotel St. Regis
Fifth Ave. and 55th St.

RAHA

The

New York, Fuller: Flat Bldg.
Boston, Exchange Building

 

Hollywood Apart’s
1331-7 Madison Abe.

La Rochelle Apart’s
75th St. and Columbus Abe.

Lexington Apartments
126-8 East 34th St.

Narbury Hall
164 West 7gth St.

Onteora Apartments
200 West 55th St.

Park Madison Apart’'s

‘Madison Abe.. cor. 25th St.

Raleigh Apartments
814 West End Abc.

Stratford Apartments
t1-13 Euast 32d St.

 

Touraine Apartments
9 East 39th St.

Van Courlear Apart’s
201 West séth St.

Wyoming Apartments
166 West 5sth St.

Webster Apartments
38-42 West gsth St.

and SAXVEENTH

NTH AVENUE AND ONE HUNDRED

The Dorilton

See paves 116 and 317

NEW

The Arlington

See page 119

THE LOOMIS-MANNING FILTER COMPANY

402 CHESTNUT STREET, PHILADELPHIA, PA.

Wo cit Ter SEVER STREET, YORK. CLINTON aad

Ansonia

See page 128

RUSSELL, ARCHITECTS

The Mansfield

See page 127

Baltimore, Union Trust Building
Washington, 620 14th St., N.W.

 

 

 
THE ARCHITECTURAL REVIEW. |

XV

 

ROOFING
TIN

For more than sixty years @ ternes were the world’s standard for
roofing, because no condition of weather, or atmospheric property,
or location seemed to affect them. Frequently an @ roof lasted
fifty years without sign of corrosion. Read the following unsoli-
cited letter just received from Mr. Jos. F. Jewar, salesman for Tanner &
TRADE MARK Sullivan, iatlananois : : :
N M “The writer, a traveling salesman for the above firm, had something
come under his observation this week that may be worth your knowing as
; : agent for the American Tin Plate Company.
“‘ While at Wabash, Indiana, this week a customer of mine showed me a sheet of roofing plate taken
from an old building. This sheet is 14x20 of the old Welsh MF Terne, marked on the under side with
the date on which the roof was laid, i.e., 1854, and was in perfect condition ; almost as good as the ordi-
nary plate before putting on the roof. Of course this may not be of any benefit to you in any way, but
to me it seemed it would show the lasting qualities of a good tin roof, this being in use for 49 years.”
Good plates, careful hand work, lots of honest tin and lead alloy, and rigid inspection did it.
The | brand originated in Wales, but American ingenuity is never satisfied with ‘‘ good enough,”
it strives for further improvement; the J, §, Eagle NM (new method) is the result—the finest
ternes ever made — all that can be done to this date toward making perfect roofing plates. There
~ isthe same old-time good service in — somewhat more in J, §, Eagle NM. (4) remains the
best of all ternes, with the single exception of U. S. Eagle.
Our products are for sale by all first-class wholesale metal houses.
‘s A Fifty Year Roof’? —a manual of terne manufacture and roof making — free, if you write to

W. C. CRONEMEYER, Agent, Carnegie Building, Pittsburg, Pa.
American Tin Plate Company, Battery Park Bldg., New York

 

 

DETAILS OF BUILDING CONSTRUCTION

By CLARENCE A. MARTIN

Assistant Professor of Architecture, Cornell University

EW BOOKS of greater practical value to the architectural draughtsman, or of
more use for office reference, have been published. The work has already had
a sale seldom equaled by any works on architecture or construction. Prof.
Martin, an architect of practical experience, particularly in construction, prepared’
this collection of plates, knowing the impossibility of carrying the numerous details
of ordinary construction constantly in mind.
The work contains thirty-three full page plates, 10 x 12% inches in size, showing
over three hundred separate detail drawings at definite scale, covering all the ordinary
details of wood construction. In many cases alternative methods are shown, which
are used in different parts of the country, and also, occasionally, forms of construction

which, although desirable, are not in common use.

SuBsTANTIALLY BounpD 1n CtotuH, Price, $2.00

BATES & GUILD CO., Publishers, BOSTON, MASS.

 

 

 

 

 

 
  

 
 
  

Che ANS ONIA

Ghe Greatest Apartment House ize World.

Broadway, 73rd a20 74th Sts..New York.

       

 

 

"PLUNGER ELEVATORS
USED EXCLUSIVELY,

THERE BEING 15 ALL TOLD.

MAXIMUM CAR TRAVEL, 223 FT.

Manufactured ano Installed by
PLUNGER_ELEVATOR_ COMPANY

WORCESTER.,.MASS.
SALES OFFICES :-New York, 156 Fifth Ave.- Boston,373 Washington St. - Phila., 1101 WestEndTrustBlg.

 
 
   
 

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