--------------- --------------------- - - --

Appreciation 
The Life and Work of
 

Bill Heronemus,
 
wind engineering pioneer 

by 

Woody Stoddard 

REPRINTED FROM 

WIND ENGINEERING
 
VOLUME 26, No.5, 2002 

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335 WIND ENGINEERING VOLUME 26, No.5, 2002 PP 335-341 

The Life and Work of Bill Heronemus, 
wind engineering pioneer 

Woody Stoddard
 
Ocean Wind Energy Systems, PO Box 1373,Amherst MA 01004 USA. Email <woodystodd@aol.com>
 

ABSTRACT 
William Edward. Heronemus, Captain,. USN (Ret.), Professor Eme~ihls, University of 
Massachusetts at Amherst, born April 16, 1920, died November 2,2002: This is a memorial 
record and obituary of a remarkable wind power engineer, Bili Heronemusof the University 
of Massachusetts and, previously, of the US Navy. The author, a previous student and close 
colleague, writes personally, with much input .and support from other colleagues and 
previous students. The aim is not only to record research, development and commitment at 
the early stages of modern wind power, but also to honour an admirable pioneer. Bill 
Heronemus is credited with foreseeing the 1973 Oil Crisis and thereafter wind power 
developments that have since been realised, including offshore wind farms. He is also 
credited with teaching and motivating many students who later became professional of 
modern wind power development and commerce. The obituary Note has been written from 
personal knowledge and from many written and verbal communications from colleagues 
and friends of Bill Heronemus who worked with him at different stages of his life. Details are 
referenced, with other records kept with the author. 

I. INTRODUCTION 
Bill Heronemus is known the world over as the "father of modern windpower" and the 
inventor of the wind turbine array, windship, wind furnace and offshore hydrogen flotilla 
ideas. He is generally credited with the invention of the terms "windfarm", "windshaft" and 
"windsmith" in wide use today. All the present researchers in wind turbines owe the grasp of 
the fundamentals to Bill Heronemus' work of the 1970s, when he and his cadre published many, 
many reports on windpower, along with the earlier pioneers forming the backbone of all the 
engineering, which was yet to come. Wind turbine engineers the world over know of Bill's 
work, and Quietly credit him with the original plan and vision, because most of us knew that he 
steadfastly avoided any public adulation or praise for his work, which he considered just to be 
"plain old common sense". Bill Heronemus was an engineer's engineer. He was humble, and 
would have been horrified and embarrassed to see his life in print like this. But he gave us a 
vision and a legacy for our own dreams, and changed many lives. 

2. A SUMMARY OF THE WORK OF BILL HERON EMUS 
The exert below was written in 1968 by Bill Heronemus as Professor of Civil Engineering at the 
University of Massachusetts in Amherst [1]: 

"In the immediate future, we can expect the 'energy gap' to result in a series of 
crises as peak loads are not met. The East Coast will be dependent on foreign 
sources for most of its oil and gas. The environment will continue to deteriorate 
in spite of ever-increasing severity of controls. Air pollution, oil spills and 



336 THE LIFE AND WORK OF BILL HERONEMUS, WIND ENGINEERING PIONEER 

thermal pollution are likely to be worse, not better in 1985. In the face of the 
continuing dilemma: power us. pollution: a third alternative [to nuclear and 
fossil energy} must be sought. It may be found in the many and varied non­
polluting energy sources known to exist in the US or its offshore aggregate. 

These energy sources, tied together in a national network, could satisfy a 
significant fraction of our total power needs in the year 2000': 

Thus Bill Heronemus not only predicted the worldwide energy difficulties which were to 
come, including nuclear power plant failures, but saw the grand scale of future of renewable 
energy development [28]. This included solar thermal, land-based and offshore wind [29], and 
ocean thermal energy. He had encyclopaedic knowledge of power plants, oceanography and 
engineering, and he was able to present his arguments in a practical and convincing way. 

Originally from a dairy farming family in Lancaster, Wisconsin, Bill Heronemus attended 
the US Naval Academy at Annapolis, and was commissioned Ensign, USN, on December 19, 
1941. He was immediately assigned as Gunnery Officer on the destroyer USS Woodworth, and 
fought in the campaigns in the Solomon Sea and Western Pacific, where he was awarded the 
Bronze Star with Combat 'V' for his actions under fire. Later in the war and being an engineer, 
L1. Heronemus was reassigned to the famous battleship USS North Carolina in February 1945 
as the Engineering Auxiliary Officer. After the war, he attended MIT to complete his MS in 
Naval Architecture & Marine Engineering; his chief interest was the propulsion of warships 
and submarines. At the Portsmouth Naval Yard in 1948, he became a Submarine Engineering 
Duty Officer, and he spent the next 17 years in the US Navy working on the design and 
construction of the US nuclear submarine fleet. He was a central figure in the unprecedented 
Cold War effort to establish a formidable US nuclear submarine fleet under three Presidents, 
which was pivotal in maintaining detente. In 1963, Bill Heronemus became the Assistant Naval 
Attache to the Court of S1. James in London, England. 

Bill retired from active duty at the rank of Captain in 1965, and went to United Aircraft 
Corporation as the Engineering Manager, still pursuing power systems. In 1967, Bill took the job 
of starting an Ocean Engineering department at the University of Massachusetts. The OE 
work included oceanography, marine biology and geology as well as naval architecture, 
which Bill taught personally in a very difficult two-semester course. We were lucky to have 
had him for a teacher and mentor. 

In the late 1960s Bill Heronemus correctly predicted a coming energy crisis, and began a 
national debate on energy policy, advancing the use of "Grand Scale Renewables" to replace 
gradually fossil fuel and nuclear energy. Bill was already an expert on structures, power 
systems and the oceans, and quickly learned ocean thermal and wind energy by using the 
literature available in the 1960s, the work of the other pioneers: Juul, Champly, Hutter, Betz, 
Percy Thomas, Golding, Shefter, Lacroix, Helge Petersen, Sabinin, Vadot, Stodhart, Putnam, 
LeCours, Honnef, Claude, Chilcott, and many others. To their work, he added support 
structures for Multiple Arrays (Fig 1), Wind Ships, Flotillas and a Hydrogen Storage System to 
firm the power. He enlisted practically the entire engineering faculty of UMass, and presented 
a landmark proposal urging the National Science Foundation in 1971 to accelerate renewables 
research and development [1]. The Proposal was audacious, including putting many wind 
turbines on a space array, on Wind Ships out at sea in Flotillas, to harvest the wind energy 
there producing hydrogen fuel and anhydrous ammonia fertilizer via electrolysis. The Grand 
Scale Offshore Wind Power System was showcased in the December 1975 issue of National 
Geographic Magazine. It depicted a 34-turbine array Wind Ship moored at sea in a Flotilla, 
converting seawater to hydrogen fuel. This concept was widely circulated in the technical 



337 WIND ENGINEERING VOLUME 26, No.5, 2002 

and popular press, but no funding came to UMass because the competing interests were too 
strong. The offshore windpower concept was eagerly adopted by the Energy Research and 
Development Administration (later the US Department of Energy), who funded GE and 
Westinghouse, using Bill's ideas. Their results were mediocre, and seemed to discredit offshore 
windpower, but our technological culture is very close to realizing that vision now. 

Bill's energy debate grew, with his appearances before Congress and many government 
agencies and utilities, each time presenting feasible plans for renewable energy [2, 3, 6, 8, 10,12, 
13, IS, 17, 21]. This culminated in the Carter Administration recognizing the wisdom of the Plan, 
and in 1975 with UMass getting a contract with NSF to design and construct the Wind Furnace 
and Solar Habitat, a 10m wind turbine heating a single-family solar home via large hot water 
storage tanks (Northeast Utilities would not permit us to produce grid electricity). The WF-I 
was commissioned on Nov. 6, 1976. The installation, though idle, still stands on the UMass 
campus, and is a well-known landmark to all of us who studied wind energy then. 

-' 

{~. ~ 
#" ...,;'-­

if 

Figure 1	 Design for a multiple-array wind turbine structure, produced by Bill Heronemus and his colleagues at the 
University of Massachusetts in the early 1970s. The concept predicted offshore windfarms. The turbines on 
this array were based on the Russian Yalta machine of the 1930s, as described in the classic book by Golding 
(reprinted 1976) 



338 THE LIFE AND WORK OF BILL HERONEMUS, WIND ENGINEERING PIONEER 

In 1972, Bill founded the Wind Power Group in the UMass Engineering Department. Bill 
personally enlisted other professors from mechanical, electrical, and civil engineering to lend 
their leadership and expertise to the program, notably, Jon McGowan, Dick Monopoli, Duane 
Cromack, Bob Kirchhoff, Frank Kaminsky, Al Russell and Merit White. This team of professors 
generated a group of undergraduate and graduate students to work in renewable energy 
under Bill. The major efforts were offshore windpower and ocean thermal energy. Since we 
were all eagerly learning about wind turbines, Bill and the author gave the first course in 
windpower engineering to the students in 1972. Under Jim Manwell's leadership this course has 
continued as an official UMass engineering course of study, unbroken ever since then, 
culminating with a conlprehensive textbook [33] 

This UMass Renewable Energy Project was long-lived, due to Bill's consistent lobbying and 
pushing the DOE to implement solar, wind, and ocean thermal energy. The graduates from the 
windpower course numbered 8 in 1974. These were the students who designed and built the 
Wind Furnace. In subsequent years, the number of students grew, and this cadre of graduates 
formed the core of the US wind industry, both in founding wind energy companies and staffing 
the national agencies, principally NREL (National Renewable Energy Laboratory). Dozens of 
Bill's students still work in the wind industry and DOE, and the "UMass Mafia", as it is fondly 
known, is still the strongest core of close professionals in the field in the world. These UMass 
graduates were, and still are, eagerly sought by the now-large wind turbine companies. 

During the 1980s, Bill worked on ocean thermal energy conversion (OTEC) [31]. He 
proposed large OTEC plants abroad and in the US, along with wind turbines in appropriate 
locations, at a yearly cost starting with two billion dollars and increasing over the years. He 
took leave from the University to start his own company, Ocean Wind Energy Systems. Co­
operating with the Alfa-Laval company, the plan was to build a prototype OTEC. The estimate 
was that such energy systems should cost no more than current generating plant, but would 
produce no pollution, no fuel shortages, no price increases and a simple, labour-intensive 
technology offering more ample and more balanced employment. 

US Windpower was founded by Stanley Charren and Russell Wolfe in 1976; the company 
became the first major US wind turbine manufacturer. This company undertook to build 
"windfarms" based on Bill's ideas and the original Wind Furnace design. US Windpower (later 
Kenetech) became the largest wind energy firm in the world, and succeeded in erecting 
thousands of windmills. Charren and Wolfe credit Bill with the vision and plan which "created 
the entire windpower community", and then "staffing it with his own students and graduates". 
Bill lived to see windpower grow into a major industry and way of life in the world. He 
particularly enjoyed the offshore windfarms. He pursued his own research and designs 
through the '80s and '90s, with help from his previous students. In 1998, Bill and the author 
founded Ocean Wind Energy Systems, Inc. to implement the Wind Turbine Array, Windship, 
Wind Furnace and Hydrogen Flotilla and codify Bill's vision and designs in patents. 

Bill Heronemus was a member of the Society of Naval Architects and Marine Engineers, 
ASME, American Society of Naval Engineers, International Solar Energy Society (ISES), 
Marine Technology Society, Sigma Xi, Phi Eta Sigma and the American Wind Energy 
Association. He was the recipient of the Chancellor's Medal at UMass in 1977, an NSF grantee, 
1963-68, and awarded the Lifetime Achievement Award by the American Wind Energy 
Association in 1999: "In recognition of the inspiration that he provided to an entire generation 
of wind energy engineers and of a vision for the wind industry that is only now starting to be 
realized". 

,In his AWEA 1999 acceptance speech, Bill said: 



339 WIND ENGINEERING VOLUME 26, No.5, 2002 

"There is an absolute requirement for the Earth to remain in thermal balance 

within our solar system. There is only one ultimate solution to the global 
warming problem: total reliance upon solar energy. And the most productive of 

all solar energy processes is the wind energy process." He continued, saying, 

"Wind power needs to be developed at a steady and appropriate pace, but the 
free market capitalistic system that we hold so dear will not do the job. There is 

need for massive governmental interference. If we wait for the private sector to 
reduce the greenhouse gases linked to our fossil fuel use, it will be too late." 

He remained active until the last days of his life, writing in 2000 [32]: 
"Renewable energy is mandatory for the future of mankind. Wind energy is one 

of the best sources, and the technology already exists to tap it. Europeans are 
moving quickly in this direction, while Americans are dragging their feet': 

In conclusion, the following paragraph is taken from a published obituary [34]: 
"Heronemus' crusade to expand energy sources makes sense to us and is more relevant 

than ever today, when many people believe the quest for oil is a destabilizing factor in world 
politics. But ideas such as his found little favour in the US, where "black gold" has always been 
king. Wind power, being less tangible than other energy sources, just doesn't excite the 
imagination of the energy industry the way a gushing oil well does. The industry's fears of 
competition also played a part in its rejection of Heronemus' ideas. A source of power that is 
easily obtained, renewable and doesn't require extensive supporting industries - in short, one 
that upsets the established order and could compromise profits - is viewed as a threat rather 
than a possible solution to a problem... We don't want to give the impression that William 
Heronemus' struggle to promote alternative energy sources was in vain. Far from it; his vision 
is becoming a reality in Denmark, which hopes by 2040 to supply 50% of its electricity through 
renewable energy sources - a large portion of it from offshore wind turbines. William 
Heronemus is gone, but his ideas live on. They are needed now more than ever, and we'd like 
to see them given more consideration, especially in the United States. There is little to lose and 
much to gain". 

REFERENCES 
1 Heronemus WE. (April 1971) A National Network of Pollution-Free Energy Sources, 

Proposal submitted to the National Science Foundation, Research Applied to National 
Needs (RANN) Directorate, Washington DC. 

2 Heronemus W.E. (1972) The US Energy Crisis: Some Proposed Gentle Solutions, The 
Congressional Record, Vol. 118, No. 17, Feb. 9; also presented at Joint Meeting of 
American Society of Mechanical Engineers and Institute of Electrical and Electronics 
Engineers, Springfield MA, Jan. 12, 1972. 

3 Heronemus WE. (April 1972) A Proposed Program for the Development of Wind Power 
in the United States, Presented before Congressional Hearings, Washington DC. 

4 Heronemus WE. (1972) Power From the Offshore Winds, Proceedings of the 8th Annual 
Conference of the Marine Technology Society, Washington, DC. 

S Heronemus W.E. (1972) Alternatives to Nuclear Engineering, Catalyst, Vol. II, No.3. 

6 Heronemus WE. (Jan. 1973) A Proposed Two-Increment Wind Power System for the 
Production ofElectricity for Long Island, Prepared for the Lloyd Harbor Study Group as 
testimony for LILCO proposed Shoreham Nuclear Power Station, AEC Docket No. 
50-322, Long Island NY 



340	 THE LIFE AND WORK OF BILL HERONEMUS, WIND ENGINEERING PIONEER 

7	 Heronemus W.E. (1973) Energy: Windpower in the 1970s, Presented at American 
Geophysical Union Meeting, Washington DC, April 1973. 

8	 Heronemus W.E. (June 1973) The Possible Role of Unconventional Energy Sources in 
the 1972-2000 u.s. Energy Market, Testimony presented at hearings before the 
Subcommittee on Science, Research and Development of the Committee on Science 
and Astronautics, U.S. House of Representatives, 92nd Congress, Washington DC. 

9	 Heronemus W.E. (1973) A Proposal to Investigate Windpower as a Natural, Clean, Solar­
Driven Energy Resource with Potential for Significant Impact on the United States' 

Energy Market, Proposal submitted to the National Science Foundation, Washington 
DC. 

10	 Heronemus W.E. (1973) A Preliminary Study of a Large Windpower Electricity System 
Sited in the Lake Ontario Region, University of Massachusetts Report Prepared for the 
Oswego Ecology Action Group, Oswego NY 

11 Heronemus WE. (Sept. 18, 1973) Windpower: Near-Term Partial Solution to the Energy 
Crisis, Presented at the 1973 EASCON of the IEEE, Washington DC. 

12 Heronemus W.E. (Sept. 1973) The Feasibility of Windpower Utilization in the 
Wisconsin Energy Market, Presented at Wisconsin State Senate Hearings, Madison WI. 

13 Heronemus W.E. (1973) Energy Alternatives: The Need and the Possibilities, Lecture 
delivered at many forums, including Hampshire College, Amherst MA, Nov. 28, 1973. 

14	 Heronemus W.E. (1974) Windpower: Look Backward, Then Move Forward Confidently, 
Paper C74098-0, Presented at IEEE Power Engineering Society Meeting, IEEE 
Publication 74-CH0913-4-PWR, New York NY 

15	 Heronemus WE. (1974) Testimony prepared for the Hearings Before the Energy 
Subcommittee of the Senate Finance Committee on S.2806 Energy Revenue and 
Development Act of 1973, Washington DC. 

16	 Heronemus W.E. (1974) Alternate Energy Sources from the Ocean, Journal of the 
Marine Technology Society, Vol. 8, No.2. 

17	 Heronemus W.E. (1974) Pollution-Free Energy From the Oceans, Testimony offered to 
Congressman M. McCormick's Energy Subcommittee of the House of Representatives 
Committee on Science and Astronautics, Washington DC. 

18	 Heronemus W.E. (1974) Using Two Renewables, Oceanus, Vol. XVII, Woods Hole 
Oceanographic Institution, Woods Hole MA, Summer. 

19	 Heronemus W.E. (1974) A Survey of the Possible Use of Windpower in Thailand and the 
Philippines, Prepared for the US Department of State, AID/TA/OST, Contract No. 
AID/TA-C-1143, Washington DC. 

20	 Heronemus W.E. (1975) Windpower: A Significant Solar Energy Resource, AWARE, 
June 1975, Presented at American Chemical Society Conference, Philadelphia PA. 

21	 Heronemus W.E. (1975) An Assessment of the Wind Energy Resource Available to Long 
Island, New York, with FS Stoddard, GR Whicher, and RF Pryblo, Report Prepared for 
Dubin, MindelI & Bloome Associates, County of Suffolk Planning Commission, New 
York NY 

22	 Heronemus WE., J. M. McGowan and G, Darkazalli (1975) Wind and Solar Thermal 
Combinations for Space Heating, Proc 10th Intersociety Energy Conversion 
Engineering Conference, Newark NJ. 



341 WIND ENGINEERING VOLUME 26, No.5, 2002 

23	 Heronemus W.E. (1976), Oceanic Windpower, Presented at "Energy From the Oceans" 
Conference, North Carolina State University, Raleigh NC, Jan. 

24	 Heronemus WE. (1976) Wind Generated Electricity: Its Application and Future, 
Presented at 12th Annual Meeting of the American Society of Heating, Refrigeration 
and Air Conditioning Engineers, Los Angeles CA, March. 

25	 Heronemus WE. (1976) Investigation of the Feasibility of Using Windpower for Space 
Heating in Colder Climates, University of Massachusetts Energy Alternative Program, 
Prepared for National Science Foundation Grant AER 75-00603, Report NSFI 
RANN I AER-75-00603IPR/76II, Amherst MA. 

26	 Heronemus W.E.,(1977) Wind Power Space Heating, with D Cromack, Proceedings of 
Third Biennial Wind Energy Conference, ERDA, Washington DC, Sept. 1977. 

27	 Heronemus WE.,(1977) Design and Operational Aspects of a 25 KW Wind Turbine 
Generator for Residential Heating Applications, with D.E. Cromack and J.G. McGowan, 
Presented at 12th Intersociety Energy Conversion Engineering Conference, 
Washington DC, Sept. 

28 Gipe, Paul in (2000) Reaping the Wind, Editor Peter Asmus, Island Press. 

29 Weisbrich A.L. and Rainey D. L. WARP Technology for Low Cost Marine Based Wind 
Power Plants, Proceedings 1998 BWEA Conference, Cardiff University of Wales, MEB 
London. 

30 Baring-Gould, I. (2002) Personal Communication, National Renewable Energy 
Laboratory. 

31	 Bearse, Bryn (1981) Every Willing Hand 

32	 Heronemus WE. (2000) Earth Connection 2000 Workshop, University of Massachusetts 
Extension. 

33	 Manwell, McGowan, and Rogers (2002) Wind Energy Explained: Theory, Design, and 
Application, Wiley. 

34	 Foudy, Jim (2002) Pioneer in the Valley, Daily Hampshire Gazette, Northampton MA, 
Nov. 14, 2002. 

35	 Golding E.W. (1976) The Generation of Electricity by the Wind, reprinted with 
additional material by E. & E N. Span, London.