INTERSOCIETY ENERGY CONV - GBV · 809022 —ComputerSimulation of Solar PanelVoltage Regulation,...

Volume 3 of3

"Energy tothe 21stCentury"

PROCEEDINGSOFTHE

INTERSOCIETY

ENERGY CONV:

ENGINEERINGCONFERENCE

SION

Seattle,Washington

August 18-22,1980 UNIVERSiTATSBIBLIOTHEKHANNOVER

TECHNISCHEINPORMATIONSBIBLIOTHEK

Published by:The American Institute of Aeronautics and Astronautics

in cooperation with the IECEC Steering Committee

Table of Contents

Advanced Concepts809025 — Photocell Heat Engine Solar Power Sys¬

tems, Robert T. Taussig, Thinium S. Vaidyanathan,S. Hoverson, C. Bruzzone, Mathematical Sciences

Northwest, W. Christiansen, University oj Wash¬

ington 119

809028 — Measurements and Modeling of Energy

Exchanger Flow, William J. Thayer, 111, Thinium S.

Vaidyanathan, John F. Zumdieck, Mathematical

Sciences Northwest, Inc 2368

809029 — A New Method of Efficient Heat Transfer

and Storage at Very High Temperatures, David J.

Shaw, Adam P. Bruckner, Abraham Hertzbcrg.

University of Washington 125

809476 —The Falling Bead Dry Cooling Tower,

Reiner Decher, Univ. of Washington 133

809477 — Liquid Droplet Radiators for Heat Rejectionin Space, Arthur T. Mattick, Abraham Hertzberg.Univ. of Washington 143

Advanced Power Cycles for Fusion

809275 — Overview of High Efficiency Power Cyclesfor Fusion, Abraham Hertzberg, University oj

Washington 1406

809276 — Advanced Power Technology for Fusion

Reactors, Robert T. Taussiq, John F. Zumdieck,

Harvey J. Willenberg, Thinium S. Vaidyanathan,Mathematical Sciences Northwest, Inc., James R.

Powell, Brookhaven National Laboratory 1412

809277 — Blanket Options for High Efficiency Fusion

Power, John L. Usher, Otto W. Lazareth, John A.

Fillo, Fred L. Horn, James R. Powell, Brookhaven

National Laboratory, Robert Taussig, Mathematical

Sciences Northwest 1417

809278 — Direct Energy Conversion for Fusion Power,

George H. Miley, University of Illinois 1423

Aerospace Power: Aircraft Electrical

Power Systems I

809079 —A Jet Engine Integrated Generator, Eike

Richter, Thomas W. Neumann, General Electric

Company 415

809080 — Integrated Control Techniques for Advanced

Aircraft Electrical Power Systems, Duane G. Fox,

United States Air Force 419

809081 —Power System Design for an All Electric

Airplane, Eldon T. Reiquam, Boeing Military Air¬

plane Co 425

Aerospace Power: Aircraft Electrical

Power Systems II

809082 — Application of a Microprocessor for Aircraft

Electrical Generator Control and Protection, Patrick

J, Leong, Ishaque S. Mehdi, Teddy R. Thomas,

Boeing Military Airplane Co 431

809083 — High Power Density Superconducting Gen¬

erator, Bruce B. Gamble, Thomas A. Keim, General

Electric Company 436

809084 — Modular SCR Assemblies iii VSCF Systems,

John W. Butler, Dr. Homer H. Glascock, Raymond

F. Dyer, General Electric Company 443

Aerospace Power: Aircraft, Missile,& Launch Facility Batteries I

809432 — Sealed Lead Acid Batteries for Aircraft

Applications, Ronald O, Hammel, Gates EnergyProducts, Inc 2139

809433 — Nickel-Zinc Batteries for Aircraft and Aer¬

ospace Applications, Robert A. Brown, Eagle-PicherIndustries, James S. Cloyd, Air Force WrightAeronautical Lab 2144

809434 — New Separator Material for Ni-Cd Aircraft

Batteries, John J, Lander, Air Force Wright Aero¬

nautical Laboratories 2149

809435 — Aircraft Nickel-Cadmium Battery Chargersand Fault Warning Systems, Keith L. Senderak.

Naval Weapons Support Center, R. L. Langley,NavalAir Test Center 2153

Aerospace Power: Aircraft, Missile,& Launch Facility Batteries II

809436 — High Performance Silver-Zinc Reserve Bat¬

tery for Missile Applications, Carroll G. Wheat,

Timothy N. Oster, Eagle-Picher Industries, Inc. ...2164

809437 - Development of Thionyl Chloride Batteries

for Missile Applications, Robert L. Higgins, L. Rex

Erisman, Eagle - Picher Ind., Richard A. Marsh,

Wright Patterson AFB 2168

809439 — Performance Characteristics of the Min-

uteman Lithium Power Source, Franz Goebel,

Robert C. McDonald, GTE - Syhania, Nicola

Marincic, Battety Engineering 2173

809440 — Hybrid Lithium/Nickel-Zinc Large Missile

Ground Power Source, Earl W. McDonald.

Honeywell Power Sources Center, Martin G. Klein,

Anthony J. Leo, Energy Research Corporation ....2176

Aerospace Power: High VoltageTechnology

809146 —A Six Kilowatt Transformer-Coupled Con¬

verter for Space Shuttle Solar Power Systems,

Michael C. Glass, Lockheed Missiles & Space Co. 767

809149 —Environmental Effects of Particulate Debris

on Spacecraft Systems, Nazih N. Youssef. William

G. Dunbar, Boeing Aerospace Co 773

Aerospace Power: NiCd

Space Batteries I

809318 — Heat Dissipation and Instantaneous Charge

Efficiency in Sealed Nickel-Cadmium Cells, Willard

R. Scott, TR W Defense and Space Systems 1613

809319 — Expansion Mechanisms of the Nickel Elec¬

trode in an Alkaline Storage Cell. 1. Electrode

Bending Experiments, Hong S, Lim, Scott A.

Verzwyvelt, Hughes Research Laboratories 1619

809320 —RCA Satcom Fl and F2 Ni-Cd Battery

Orbital Performance, Stephen J. Gaston, RCA,

Astro-Electronics 1623

809321 — The INTELSAT V Nickel-Cadmium Battery

System, Jon D. Armantrout, T. O. Meyer, Ford

Aerospace & Communications Corporation, D. C.

1627

Bnggs, fotd Aeiospace & Communcations Cotpo-i atton

809322— Aerospace Nickel-Cadmiuni/Nickel-IIydro-gen Electrode Process Facility, Lee E Miller

Eagle-Ptchet Industiies, Inc 1632

Aerospace Power: NiCd

Space Batteries H

809323 — Application of Battery Reconditioning Tech¬

niques to Achieve Capacity Restoration: A Case

History, Charles Lune, TRW DSSG

809324 — Nickel-Cadmium Batteries for the Modular

Power Subsystem, Vernon C Mueller Donald A

Webb, McDonnell Douglas Autonomics St Louts

Division

809325 — Performance of the Recently DevelopedNi-Cd Cells for the ETS-3 Batteries, MasayukiShimodaira NASDA Tamotsu Shuogami Ken|iMuruta Kohei Takagi, Toshiba Coipoiatmn

809326 — Linear Constraints Aid Selection of Battery

Charge Control Parameters, Norman B North

TRW Int

809327 —An Accelerated Test Design for Use with

Synchronous Orbit, Patnck P McDeimott K L

Vasanth Copptn State College, Baltimoie MD

1634

1638

1643

1647

1653

Aerospace Power: NiH2Space Batteries I

809381 Status of COMSAT/INTELSAT Nickel-

Hydrogen Battery Technology, lames D DunlopJoseph T Stockel COMSAT I aboiatones

809382 -Nickel-Hydrogen Batteries for INIELSAT

V, Gertit Van Ommenng Charles W Koehler

Donald C Bnggs totd Aeiospace and Comnium

cations Coipoiation809383 — NiH2 Battery Advanced Development Pro¬

gram Status Report, Ervin Adlei Highes Amiah

Co Howard H Rogers Steve J Stadnick HughesAn cutft Co

809384 — Nickel-Hydrogen Battery for a SpacecraftPower Subsystem, Steven I Stadnick HughesAnaaft

809385 — Nickel-Hydrogen Battery Integration Studvfor the Multimission Modular Spacecraft, Vernon C

Muellei McDonnell Douglas Astionautics Co St

Louis Division

809386 — Common Pressure Vessel Nickel-HydrogenBattery Design, Gerhaid L Holleck TIC Coipounion Newton MA

Aerospace Power: NiH2Space Batteries II

809387 -Life Cycle Test of Air Force Nickel-Hy¬

drogen Flight Experiment Battery, Martin G

Gandel Lockheed Missiles & Space Co, Inc

809388 — Cycling Characteristics of Nickel-HydrogenCells, Paul F Ritterman TRW

809389 — Establishment of Parameters for Production

of Long Life Nickel Oxide Electrodes for Nickcl-

Hvdrogen Cells, David F Pickett, Howard H

Rogers, Lawience A Tinkei, Hughes Ancialt Co

CaioleA Blesser, James S Hill James S Meadoi

Eagle-Pichei Industiies

1878

1885

1891

1897

1901

1908

1912

1915

1918

809391 — Test Data Analysis and Application of Nickel

Hydrogen Cells, Lloyd W Barnett, Bui t M

Otzinger Erik Paulsen Rockwell International 1925

Aerospace Power: Power SystemRequirements & Issues

809015 — Progress in Space Power Technology,Jerome P Mullin, Lynwood P Randolph, WayneR Hudson NASA/HQ 83

809016 —Future Space Power - The D.O D. Per¬

spective, Tom Mahefkey UASF 89

Aerospace Power: Power SystemSimulation

809020 — A Saturating Transformer Model for SPICE,Daniel L Rumsey Aeiospace Coipoiation 95

809021 — Battery Model and Computer Simulation of

a Multi-Battery/Solar Array Spacecraft Electrical

Power System, Douglas P Hafen, Ronald B

Wallace, Lockheed Misiilei and Space Co 100

809022 — Computer Simulation of Solar Panel VoltageRegulation, Markland 1 Gates, William J

Muldoon, Hughes Anciaft Company 106

809023 — Statistical Analysis of Ni-Cd Battery Deg¬radation and Applications to New Spacecraft De¬

signs, W J Billerbeck Communications Satellite

Coipoiation 110

Aerospace Power: Space Power

Electronics II

809150 — Advanced Development of a ProgrammablePower Processor, Fied E Lukens Maitin Manetia

J R Lanier Ji R Kapustka, J Graves Mai shall

Space Tltght Centei 111

809154 — Power Processing Technology for Spacecraft

Primary Ion Propulsion, J J Biess L Y lnouye.

TRW Defense & Space Systems, R J Fiye NASA

Leuti Reieauh Centei 782

Aerospace Power: SpacePhotovoltaics & Solar Arrays I

809067 —GaAs Solar Cells for Space Applications,Edmund J Conway, Gilbert H Walker, NASA-

Langley Reseaich Centei John H Heinbockel, Old

Dominion Untveisity 350

809068 — Effects of Thermal Annealing on the Deep-Level Defects and I-V Characteristics of 200 KcV

Proton Irradiated AIGaAs-GaAs Solar Cells, ShcngS Li, D W Schoenleld, T T Chiu Umveisttv ofFloiida.R Y Loo, Hughes Reseaich Labs 354

809069 —The Planar Multijunction Cell - A New

Solar Cell for Earth and Space, fohn C Evans Ji ,

An-Ti Chai, NASA, Chandra Goiadia, Cleveland

State Umveisity 358

809070 —The Applicability of DOE Solar Cell and

Array Technology to Space Power, John A Scott-

Monck, Paul M Stella, Paul A Berman, CaliforniaInstitute of Technology, let Piopuhwn Laboiaioiv 364

809071- High-Efficiency Concentration/Multi-So¬

lar-Cell System for Orbital Power Generation, loan

VI

R. Onffroy, David E. Stoltzmarn, Ray J. H. Lin,

Gary R. Knowles, Honeywell 371

809072 — Solar Thermophotovoltaic Space Power Sys¬tem, W. E. Home, A..C. Day, R. B. Greegor, L. D.

Milliman, Boeing Aerospace Company, W. L. Crab-

tree, NASA Marshall Space Flight Center 377

Aerospace Power: SpacePhotovoltaics & Solar Arrays II

809073 — Concentrating Photovoltaics - A Viable

Candidate for the Next Generation of Air Force

Satellite Power Systems, Jack W. Geis, AFWAL!POOC, Wright-Patterson AFB Ohio 383

809074 — Concentrator-Enhanced Photovoltaic Arraysfor Deep Space Applications, Donald Rockey, Jet

Propulsion Laboratory 389

809075 — Heat-Rejection Design for Large Concen¬

trating Solar Arrays, Edward P. French, Rockwell

International 394

809076 — Design and Flight Performance of the Pio¬

neer Venus Multiprobe and Orbitcr Solar Arrays,Leland J. Goldhammer, James B. Allan, Steven W.

Gelb, Hughes Aircraft Co 400

809077 — INSAT-I Solar Array Design and Devel¬

opment Summary, Darryl G. Peterson, D. C. Briggs.N. Barberis, Ford Aerospace & Comm. Corp 406

809485 — Large Area Flexible Solar Array Design for

Space Shuttle Application, Clint J. Souza, Lockheed

Missiles & Space Co 410


Satellites & Platforms I

809267 — The SPS Concept - An Overview of Status

and Outlook, Francis C. Schwenk, NASA 1375

809268 — Future Energy Sources for Electric Utilities,

James W. Moyer, South. Calif. Edison Co 1382

809269 — Potential Economics of Large Space Based

Solar Power Stations, Orlando E. Johnson, Boeing

Aerospace Company 1384


Satellites & Platforms II

809271 —Multi-Hundred kW Solar Arrays for Space,William G. Woodcock, III, Jerry A. Mann,

Lockheed Missiles and Space Co., Inc 1390

809272 — Design, Performance and Life Cycle Cost

Relationships for a 500 kW Solar Array, Peter W.

Richardson, Fred Q. Miller, Martha N. White, PRC

1396

809273 —Power Management for Multi-100 KWe

Space Systems, James W. Mildice, General Dynam¬ics/Convair Division, Martin F. Valgora, NASA,

Lewis Research Center 1401


Systems, Nuclear ReactorTechnology

809140 — Reactor/Brayton Power Systems for Nuclear

Electric Spacecraft, J. Preston Layton, Consultant 732

809141 — System Tradeoffs in Space Reactor Design,Kenneth C. Cooper, Ronald G. Palmer, Los Alamos

Scientific Laboratoiy 738

809142 —Experimental Results for Space Nuclear

Power Plant Design, William A. Ranken, Los

Alamos Scientific Lab 744

809143 —Fabrication of High Temperature (1400-1700

K) Molybdenum Heat Pipes, Lynn B. Lundberg,Edward H. Martinez, Los Alamos Scientific Labo¬

ratory 753

809144 — Titanium Heat Pipes for Space Power

Systems, Karl L. Meier, Steven P. Girrens, James

M. Dickinson, Los Alamos Scientific Laboratoiy ..762


Systems, Photovoltaic Applications809206 — LEASAT Power System, Jack R. Kettler,

Hughes Aircraft 1047

809207 — Design and Performance of the International

Sun-Earth Explorer Power Systems, Arthur F.

Obenschain, Arthur P. Ruitberg, NASA/Goddard

Space Flight Center 1051

809208 — Electrical Power Subsystem for INSAT-I,

Donald C. Briggs, Howard N. McKinney, Ford

Aerospace and Communications Corporation 1058

809209 — Electrical Power System for the SBS Com¬

munications Satellite, Michael W. Miller, Hughes

Aircraft Co 1064

809210 —Mission Analysis of the P78-2 Power Sub¬

system after One Year of Operation, Jack E. Rink,

John W. Lear, Martin Marietta Corp 1070


Systems, Radioisotope Generators

809201 — Unique Features of Dynamic Isotope Power

Systems for High-Requirements Spacecraft, Bernard

Raab, Fairchild Space & Electro/tics Co 1020

809202 — Development of an Advanced RTG Using

Segmented Thermoelectrics, Norbert B. Eisner,

John C. Bass, General Atomic Company, Frank A.

Russo, Teledyne Energy Systems, Patrick A.

O'Riordan, U.S. Department ofEnergy 1026

809203 — Design Evolution and Verification of the

"General-Purpose Heat Source", Alfred Schock,

Fairchild Space & Electronics Co 1032

809204 —RTG Power Sources for the International

Solar Polar Mission, Robert D. Cockfield, Robert

F. Hartman, C. Edward Kelly, General Electric...

1043

Aerospace Power. Space Power

Systems, Technology & Needs

809134 —Unfulfilled Technology Needs in SpacePower Systems, Luther W. Slifer, NASA/Goddard

Space Flight Center 704

809135 —Development of Automated Power Systems

Management for Planetary Spacecraft, Arthur O.

Bridgeforth, Jet Propulsion Laboratoiy 709

809137 —High Voltage Power Systems for MilitaryNeeds, Robert E. Corbett, Lockheed Missiles and

Space Co 715

809138 — The 1980 Technology Status of the Dynamic

Isotope Power System, George L. Sorensen,

Richard Niggemann, Max Reck, Sundstrand Energy

Systems, Dyer Kenney, U.S. Department of Energy 720

VII

809139 — Assessment of the Need for Space Nuclear

Electric Power, David Buden, Los Alamos Scientific

Laboratoiy 726

Ambient-Temperature Batteries I

809235 — Status of Electrochemical Energy Storage

Systems for Electric Vehicles, Solar and Electric

Utility Applications, Albert R. Landgrebe, James

W. Mayo, Stanley Ruby, U.S. Department of

Energy, Radko C. Chudacek, Irwin B. Weinstock,The Aerospace Corporation 1178

809236 — Low-Maintenance Lead-Acid Batteries for

Energy Storage, Brian W. Burrows, Won G. Sunu,

Bruce H. Dick, Gould Inc 1187

809237 — An Advanced Technology Iron-Nickel Bat¬

tery for Electric Vehicle Propulsion, William

Feduska, Richard Rosey, Westinghouse Electric

Corporation 1192

809238 — Nickel Hydrogen for Load Leveling Appli¬

cation, Vincent J. Puglisi, Aldo S. Berchielli, C.

Philip Donnel, Yardney Electric Division 1198

809239 — Effect of Positive Pulse Charge Waveforms

on Cycle Life of Nickel-Zinc Cells, John J,

Smithrick, NASA-Lewis Research Center 1203

809240 — Temperature Limitations of Alkaline Battery

Electrodes, M. C. H. McKubre, D. D, MacDonald,

SRI International 1207

Ambient-Temperature Batteries II

809484 —The Aluminum-Air Battery for ElectricVehicle Propulsion, John F. Cooper, Robert V.

Homsy, Jerry H. Landrum, Lawrence LivermoreNational Laboratoiy 1487

809287 — Sandia Battery Program for Energy Storagein Photovoltaic Systems, David L. Caskey, Robert

P. Clark, Arthur E. Verardo, Sandia National

Laboratories 1459

809288 — Development of a Bipolar Zn/Br2 Battery,Richard J, Bellows, Harry Einstein, Patrick Grimes,Edward Kantner, Kenneth Newby, Exxon Research

& Engineering 1465

809289 — Improvement and Scale-Up of the NASA-

Redox Storage System, Margaret A. Reid,Lawrence H. Thaller, NASA-Lewis Research Center 1471

809290 — Performance and Structural Characteristics

of the Iron-Air Battery System, Brian G. Demczyk,William A, Bryant, Chia-tsun Liu, Edward S.

Buzzelli, Westinghouse Electric Corporation 1477

809291 — Development of a Lithium-Water-Air Pri¬

mary Battery, William R. Momyer, Ernest L.

Littauer, Lockheed Missiles & Space Company, Inc. 1480

Biomass I

809167 — Economics of Wood Energy Systems for

Industries, Badarinath S. Dixit, Georgia Institute ofTechnology, Atlanta, GA, William S. Bulpitt, GeorgiaInstitue of Technology, Atlanta, GA 846

809168 —Start-Up Considerations in Utility Use of a

Refuse Derived Fuel, Floyd Hasselriis, JosephLyons, Carolyn S. Konheim, Combustion EquipmentAssociates, Inc 853

809169 —Alternatives for Heat Supply in Bioinass

Energy Conversion Systems, Paola 1. De Marchi

Desenzani, Universita di Pavia 860

809170 —Kelp Processing and Biomethanation Tech¬

nology, John R. Forro, General Electric Co., Marcus

Hart, U.S. Dept. of Agriculture, David P.

Chynoweth, Institute of Gas Technology 865

Biomass II

809232 — Recovery of Ethanol from Fermentation

Broths Using Selective Sorption-Desorption, W. W.

Pitt, Jr., D. D. Lee, Oak Ridge National Laboratory 2363

809233 — Potential for Biological Conversion of Bio¬

mass to Liquid Fuels, Edward J. Nolan, General

Electric Reentry Systems Division, Philadelphia, PA,

Arthur E. Humphrey, University of Pennsylvania,

Philadelphia, PA 1164

809234 — Fermentation Ethanol as a Petroleum Sub¬

stitute, Leonardo Goldstein, Jr., Arnaldo Carvalo,

Jr., Sergio C. Trindade, Antonio Bonomi, CTP -

Promon Engenharia S.A 1170

Chemical Heat PumpEnergy Storage Systems

809181 — Sensitivity Analysis of the Value of a Solar

Driven Chemical Heat Pump System, W. Roger L.

Thomas, Exxon 921

809182 —Development Status and Utility of the

Sulfuric Acid Chemical Heat Pump/Chemical En¬

ergy Storage System, E. Charles Clark, Dale K.

Carlson, Rocket Research Company 926

809183 — Engineering Prototype Studies on (he

CaCI2-CH + H Chemical Heat Pump for Soler Air

Conditioning, Heating, and Storage, Peter O'D.

Offenhartz, David Schwartz, Robert E. Malsberger,Theodore V. Rye, EIC Corp 932

809427 — A Thermodynamic Analysis of a Metal

Hydride Heat Pump, Harvey 1. Abelson, Argonne

National Laboratory, Jeffrey Horowitz, Dept. of

Energv 936

Electric/Hybrid Vehicle Systems809353 — Design Considerations for a Near-Term

Hybrid Vehicle, Robert Schwarz, South Coast

Technology, Inc 1760

Electric Vehicle Components809415 —Electric Vehicle Traction Motors - The

Development of an Advanced Motor Concept, Peter

Campbell, Univ. ofSouthern California 2057

809416 — A New Controller for Battery-Powered Elec¬

tric Vehicles, Charles A. Belsterling, John Stone,

Franklin Research Center 2062

809417 — An SCR Inverter for Electric Vehicles, T. S.

Latos, R. M. Ehrlich, T. M. Jahns, J. R. Mezera. D.

J. Bosack, D. M. Thimmesch, Gould Inc 2070

809418 — An Analysis of Aluminum-Air Battery Pro¬

pulsion Systems for Passenger Vehicles, John D.

Salisbury, Ervin Behrin, Lawrence Livermore Lab¬

oratoiy 2080

Energy Conservation in Buildings809293 — Energy Conservation Measures for Com¬

mercial Buildings Used in Life Cycle Cost Analysis,J. J. Deringer, Gilford, Deringer and Company ...

.2350

VIII

809294 —Life Cycle Cost Economics of Residential

Heating and Cooling Systems and the BuildingEnvelope, M. D. Levine, D. B. Goldstein, I. Turiel,

University of California, Berkeley 2356809295 — Microcomputers for Energy Conservation in

Homes and Other Small Buildings, Anthony S.

Hendrick, Brookhaven Nat'l. Lab 1496

809296 — Architectural Design for Energy Conserva¬

tion, Brian Shawcroft, Shawcroft-Tuylor, AIA 1502

Energy Conservation: District

Heating & Cooling I

809110 — Planning for Energy Conservation - The

Community Is the Key, Isiah Sewell, U.S. Depart¬ment of Energy, Kevin Croke, University ofIllinois

. 586809111 — Methods of Improving Limestone Utilization

in Fluidized-Bed Combustion, E. B. Smyk, W. M.

Swift, W. F. Podolski, K. M. Myles, ArgonneNational Laboratory, Irving Johnson, Aronne Na¬

tional Laboratory 591

809113 — A Financial Risk Analysis of a District

Heating Business Venture, Joel S. Greenberg. Econ.

Inc 600

809114 — Prospective Piping Materials for District

Heating Networks, Ishai Oliker, Burns and Roe, Inc. 609

809488 —A Fluidized Bed System for Glass Batch

Preheating, D. Pavlakis, R. Sakhuja, Thermo Elec¬

tron Corp 615

Energy Conservation: District

Heating & Cooling II

809177 — Municipal Solid Waste and District Heating:A Case Study, Peter F, Donnelly, Argonne National

Laboratoiy 900

809178 —Solar/Electric District Heating via CASES,

W. Richard Powell, Applied Physic Laboratoiy ....904

809179 —Industrial Waste Heat Utilization for Dis¬

trict Heating, Douglas D. Huxtable, Trans Energy

Systems, inc., Mitchell Olszewski, Oak Ridge Na¬

tional Laboratoiy 910

809487 — Thermal Analysis of Continuous Furnaces,

Hong-Yap Ling, Shi-chune Yao. Carnegie-MellonUniv., Robert R. McConnell, Institute t>t PaperChemistry 915

Fossil Fuels: Coal Gasification I

809120 —Direction and Scope of Coal Gasification at

the Department of Energy, C. Lowell Miller, U. S.

Department of Energy 630

809121 — Solar Coal Gasification, David W. Gregg, R.

W. Taylor, J. H. Campbell, W. R. Aiman, Lawrence

Livermore National Lab 633

809122 —Flash Pyrolysis and Gasification of Coal

Through Laser Heating, Willard H. Beattie, J. Al

Sullivan, Los Alamos Scientific Laboratory 637

809123 —Fast Fluid Bed Coal Gasification in a

Process Development Unit, G. J. Snell, C. L. Chen,

Hydrocarbon Research, Inc 642

809125 —Historical Development of the U-GASH

Process at the IGT Pilot Plant, Manu K. Vora,

William A. Sandstrom, Amirali Rehmat, Institute of

gas technology 648

809126 —Coal Gasification at the University of Min¬

nesota's Duluth Campus Heating Plant, D. F. Bress,

R. J. Broeker, Foster Wheeler Energy Corporation .654

Fossil Fuels: Coal Gasification II

809186 —The HYGAS Process to Produce PipelineGas from Coal, Francis S. Lau, John Meek, Institute

of Gas Technology 946

809187 —The CS/R Advanced SNG Hydrogas-ification Process, Joseph Friedman, (Dr.) Daniel R.

Kahn, Rockwell International, Dan Rimmer,

Richard Matyas, Cities Service Research and Devel¬

opment Company 952

809188 — Status of Peat Biogasification Development,Michael G. Buivid, Donald L. Wise, Dynatech RIDCo., Arnold M. Rader, Minnesota Gas Co., MelvynJ. Kopstein, U.S. Dept. of Energy 959

809189 —Peat Char Gasification - Laboratory and

PDU-Scale Studies, Dharam V, Punwani, Sanford

A. Weil, Eugene J. Pyrcioch, Satyendm P. Nandi,

Institute of Gas Technology 964

809192 —Removal of Metals from Coal Ash, T.

Michael Gilliam, Ronald M. Canon, Oak RidgeNational Laboratoiy 970

809475 — Indirect Liquefaction via the Avco Coal

Gasification System, G. A. White, Ralph M. Parson

Co., D. B. Stickler. C. W. von Rosenberg. Jr.. R. E.

Gannon, Avco Everett Research Lab 978

Fossil Fuels: Coal Liquefaction I

809304 — Advanced Process Development in Coal

Liquefaction, Ronald H. Fischer, U.S. Dept. of

Energy 1539

809305 — Advanced Coal Liquefaction Processes Em¬

phasize Low Hydrogen Consumption, Harvey D.

Schindler, Morgan C. Sze, Raymond H. Long,Harold Unger, The Luminus Company 1543

809306 — Disposable Catalysts in the Solvent Refined

Coal Processes, R. P. Anderson, The Pittsburg &

Midway Coal Mining Co 1557

809307 — Approach (o Steady-State Solvent Compo¬sition in the SRC-I Coal Liquefaction Process,

Ronald W. Skinner, E. N. Givens, Air Products and

Chemicals, Inc 1562

809308 —Chem Systems' Liquid Phase Methanol

Process, Marshall E. Frank, Chem Systems Inc. ... 1567

809309 — Mobil Methanol-to-Gasoline Process, David

Liederman, Sergei Yurchak, James C. W. Kuo.

Wooyoong Lee, Mobil Research and Development

Corp 1573

809310 — Liquid Products from Peat Pyrolysis, Dennis

A. Duncan, Joseph Paganessi, IGT 1579

Fossil Fuels: Coal Liquefaction II

809368 — The Department of Energy's Major ProjectCoal Liquefaction Program, Larry M. Joseph, U. S.

Dept. of Energy 1808

809369 — Assessment of Current Research and Devel¬

opment in Support of the U.S. Coal Liquefaction

Demonstration Plants Program, B. R. Rodgers, M.

S. Edwards, C. H. Brown, P. K. Carlson, W. R.

Gambill, T, M. Gilliam, J. M. Holmes, R. P.

Krishnan, L. F. Parsly, Oak Ridge National Labo¬

ratory'812

ix

809370 — H-Coal Processing of Kentucky No. 11 Coal

and 1980 Status of H-Coal, Alfred G. Comolli, P.

Ganguli, Michael Merdinger, Hydrocarbon Re¬

search, Inc 1818

809371—Exxon Donor Solvent Coal LiquefactionProcess: Development Program Status, W. R.

Epperly, Karl W. Plumlee, D. T. Wade, Exxon Res.

&Engr. Co 1824

809372 — LC-Fining of Solvent Refined Coal - SRC-I

and Short Contact Time Coal Extracts, John D.

Potts, Kenneth E. Hastings, Richard S.

Chillingworth, Cities Service Company, Harold

Unger, C-E Lummus Company 1832

809373 — Heat Transfer in Slurry Preheaters for Coal

Liquefaction Plants, A. T. Talwalkar, Institute of

Gas Technology, Anil Ambegaonkar, Foster-Miller

Associates, Inc., Remon Dihu, Kiran Gandhi,

Institute of Gas Technology 1840

809374 — Reaction Modelling and Correlation for

Flash Hydropyrolysis of Lignite, Bharat L. Bhatt.

Peter T. Fallon, Meyer Steinberg, Brookhaven

National Laboratory 1847

Fossil Fuels: Fluidized Bed

Combustion I

809009 — A Mathematical Model for the Continuous

Combustion of Char Particles in a Fluidized Bed,

Satish C. Saxena, Argonne National Laboratory A.

Rehmat, Institute of Gas Technology 50

809010 —Selecting Fines Recycle Methods to Opti¬mize Fluid Bed Combustor Performance, William S.

Rickman, Dale E. Fields, W. L. Brimhall, Steven

F. Callahan, General Atomic Company 57

8090! 1 — Methods of Improving Limestone Utilization

in Fluidizcd-Bed Combustion, Eugene B, Smyk,William M. Swift, Walter F, Podolski, Kevin M.

Myles, Irving Johnson, Argonne National Labora¬

tory 62

809012 — Performance and Projections of the Elec¬

trostatic Precipitator in a Fluid Bed Environment,

Joel J. Mittleman, Pope, Evans & Robbins Inc., Jack

E. Dumbauld, Buell Envirotech Corporation 67

809013 — An Engineering Study on the Use of Regen¬erative Calcium Silicates Sorbent for AFB Power

Generation from High Sulfur Coal, Patrick J.

McGauley, Anthony S. Albanese, Brookhaven Na¬


809014 — Hydration of 'Spent' Limestone and Dolo¬

mite to Enhance Sulfation in Fluidizcd-Bed Com¬

bustion, John A. Shearer, Gregory W. Smith, David

S. Moulton, C. B. Turner, Kevin M. Myles, Irving

Johnson, Argonne National Laboratory 78

Fossil Fuels: Fluidized Bed

Combustion II

809061—Economic Performance Model of AFBC

Systems, John S. Gordon, TRW 321

809062 — Economic Analysis of Coal Burning Fluid¬

ized Bed Steam and By-Product Power Generation

Systems for Industrial Facilities, John E. Mesko,

Pope, Evans and Robbins Inc 330

809063 — Circulating Fluidized Bed Boiler, L. D.

Fraley, L. N. Do, K. H. Hsiao, Pullman Kellogg Co. 337

809064 — Design and Operation of Fluidised Bed

Industrial Boilers and Hot Gas Producers, John

Highley, William G. Kaye, Robert C. Payne,

Douglas M. Willis, National Coal Board 343

809066 — Outlining Application of Coal/Oil Mixtures,

George T. Claypoole, David L. Kracun, Pope,Evans & Robbins Inc 347

Fossil Fuels: In-Situ Coal Gasification

809253 — Results from the Hoe Creek No. 3 Under¬

ground Coal Gasification Experiment, C. B.

Thorsness, R. W. Hill, R. J. Cena, W. R. Aiman, D.

R. Stephens, Lawrence Livermore Laboratoiy 1284

809254 — Theory of Reverse Combustion Along Fis¬

sures in Fuel Which Gasifies at Depth, Dwayne M.

Shearer, Richard C. Corlett, U of Washington 1293

809255 — A Successful Eastern In Situ Coal Gasi¬

fication Field Trial, Leo A. Schrider, James A.

Wasson, Department of Energy, Morgantown Energy

Technology Center 1298

809256 —A Water-Influx Model for UCG with

Spalling-Enhanced Drying, David W. Camp,William B. Krantz, University of Colorado, Robert

D. Gunn, University of Wyoming 1304

809257 — An Investigation of Simultaneous Heat and

Mass Transfer in Subbituminous Coal, Bryan A.

Kashiwa, Francis H. Harlow, Los Alamos ScientificLab 1311,

809258 — Characterization of a Potential Underground

Coal Gasification Site in the State of Washington,Lewis C. Bartel, Thomas L. Dobecki, Sandia

National Laboratories, Randolph Stone, Lawrence

Livermore National Laboratory 1315

809259 — A Combined Fracture/Porous Media Model

for Contaminant Transport, H. E. Nuttall, A. Ray,The University of New Mexico 1321

809260 — Sorption of Moisture and Methane on

Fruitland Coal, Anthony Heller, Guy R. B. Elliott,

Univ. of Calif., Los Alamos National Lab., Lee F.

Brown, Univ. of Colorado 1327

Fossil Fuels: Oil Shale

809052 —Solar Retorting of Oil Shale, David W.

Gregg, John Z. Grens, Robert W. Taylor, William

R, Aiman, Lawrence Livermore National Lab 262

809053 — The Behavior of Flow Channels in Rubble

In-Situ Beds of Oil Shale, Terry R. Galloway,Lawrence Livermore Lab., Robert W. Lyczkowski,Institute of Gas Technology 268

809055 —In Situ Borehole Retorting of Oil Shale,

Craig E. Tyner, Sandia National Laboratories 278

809056 — Ultimate Tensile Strengths of Colorado and

Utah Oil Shales, Ken P. Chong, University of

Wyoming, John Ward Smith, Laramie Energy

Technology Centei; Eric S. Borgman, University of

Wyoming 285

809057 — The Kinetics Governing the Pyrolysis of

Michigan Oil Shale, R. W. Mickelson, M. Rostam-

Abadi, Wciyne State University 291

809058 — Retorting and Combustion Processes in

Surface Oil-Shale Retorts, Arthur E. Lewis, Robert

L. Braun, Lawrence Livermore Laboratory 297

809059 — Effect of Retorting Atmosphere on Com¬

pound Types Found in Various Shale Oils, John J.

Duvall, K. K, Mason, L. P. Jackson, Laramie

Energy Technology Center 305

809060 — Preliminary Assessment of Technologies for

the Development of Naval Oil Shale Reserve No. 1,

S. S. Sareen, TRW Energy Systems, L. St. Cyr, OR &

DC : 312

Fossil Fuels: Tar Sands/

Heavy Crude

809001 — Recent Activity in U.S. Tar Sand, Leland C.

Marchant, Laramie Energy Technology Center,

George J. Stosur, U.S. Dept. of Energy, Cecil Q.

Cupps, Registered Professional Engineer 1

809002 —Tar Sands and Heavy Oil Reservoir Eval¬

uation Using Geophysical Well Logs, Walter H.

Fertl, Dresser Industries, Inc 11

809004 — Fireflooding in the Bellevue Field, John M.

Garvey, William H. Pusch, Cities Service 20

809005—The CANMET Residuum Hydrocracking

Process, Michael A. Menzies, Thomas F. Scott,

Pelro-Canada, Jean M. Denis, Energy, Mines &

Resources, Canada 26

809006 — Natural Gas from Heavy Crude Oil, Robert

L. Whiting, Texas A&M University 33

809007 — Bituminous Sands of Utah, D. A. Preston,

Oklahoma Geologic Survey 39

809008 —Tar Sands and Heavy Oil in Oklahoma,

William E. Harrison, Oklahoma Geological Survey .45

Fuel Cells

809171— Development of Molten Carbonate Fuel

Cells for Power Generation, Kenneth W. Browall,

Farhad N. Mazandarany, General Electric Company". 870

809172 — Industrial Energy Conservation with the

Natural Gas-Fueled Molten Carbonate Fuel Cell,

Ronald M. Bowman, Bassam J. Jody, Kuang C. Lu,

Keith F. Blurton, Institute of Gas Technology 875

809173 — Development of a High Temperature Solid

Electrolyte Fuel Cell, Yoshihiro Ohno, Susumu

Nagata, Hiroyuki Sato, Electrotechnical Laboratoiy 881

809174 — Improved Alkaline Hydrogen/Air Fuel Cells

for Transportation Applications, James McBreen, G.

Kissel, F. Kulesa, E. Gannon, S. Srinivasan,

Brookhaven National Lab., K. V. Kordesch, Univer-

sitat of Graz, Austria, E. J. Taylor, University of

Virginia 886

809175 — Improvement in Stacking Structures of Fuel

Cells, Hidejiro Kawana, Hitachi Limited, Tatsuo

Horiba, Toshiki Kahara, Kohki Tamura, Hitachi

Ltd 892

809474 —The Kinetics of the 02/C02 Reaction in

Molten Carbonate: Reaction Orders for Oz and C02

On NiO, J. Winnick, Georgia Institute of Tech¬

nology, Philip N. Ross, Lawrence Berkeley Lab....

895

Fusion Reactor

Engineering and Design

809441 — Energy Conversion Considerations of the

STARFIRE Commercial Fusion Power Plant,

Charles C. Baker, Argonne National Laboratoiy.

Dale A. DeFreece, Clarence A. Trachsel,

McDonnell Douglas Astronautics Co., Donald

Graumann, General Atomic Company, John

Kokoszenski, 77ie Ralph M. Parsons Company 2182

809442 —The Engineering Test Facility: The Next

Major Development in the U.S.A. Fusion Program,W. R. Becraf t, General Electric Co 2196

809444 —The Reversed-Field Pinch Fusion Reactor,

Randy L. Hagenson, Science Applications. Inc.,

Robert A. Krakowski, Los Alamos Scientific Lab¬

oratory 2201

809445 — TRACT: A Small Fusion Reactor Based on

Near-Term Engineering, Harvey J. Willenberg, L.

C. Steinhauer, A. L. Hoffman, T. L. Churchill. P.

H. Rose, Mathematical Sciences Northwest, Inc...

.2214

809446 — Small Mirror Reactor System Designs, K.

R. Schultz, C. P. C. Wong, General Atomic Com¬

pany, G. A. Carlson. Lawrence Livermore Labora¬

tory. A. C. Smith, Jr., Pacific Gas <& Electric

Company 2221

809447 —The Spheromak Fusion Reactor, A. M. M.

Todd, Grumman Aerospace Corp., R. E. Olson. J. G.

Gilligan, G. H. Miley, University o\ Illinois 2229

809448 — An Engineering Development Plan for In-

ertial Confinement Fusion, James A. Blink.

Lawrence Livermore Natl. Laboratoiy. James A.

Maniscalco, TRW, Inc 2237

Fusion: Synfuels from Fusion I

809328 — Perspectives on the DOE Fusion SyntheticFuels Program, Raymond N. Ng, Department of

Energy 1658

809329 — The Fusion-Synfuel Tie-Producing Hydro¬

gen with the Tandem Mirror Reactor, Richard W.

Werner, Lawrence Livermore Lab ,1662

809330 — Interfacing the Tandem Mirror Reactor to

the Sulfur Iodine Process for Hydrogen Production,

Terry R. Galloway, Lawrence Livermore Lab 1668

809331 — Materials Considerations for the Coupling of

Thermochemical Hydrogen Cycles to Tandem Mir¬

ror Reactors, Oscar K. Krikorian, Lawrence Liver¬

more Lab 1675

809332 - Scoping Study of a Tandem-Mirror Fusion

Reactor Coupled to a Thermochemical Hydrogen

Synfuel Plant, Fred L. Ribe, Gene L. Woodruff,

Univ. of Washington. Don S. Rowe, Rowe and

Associates 1680

Fusion: Synfuels from Fusion II

809392 — Development of a Falling-Bed Fusion Blan¬

ket System for Synthetic Fuel Production, Jose F.

dePaz, Yousry A. Gohar. Howard L. Schreyer.

Argonne National Lab 1929

809393 — HYFIRE: Fusion-High Temperature Elec¬

trolysis System, John A. Fillo, James R. Powell,

Meyer Steinberg, Robert Benenati, V. D. Dang,

Fred Horn, Hugh Issacs, Otto Lazareth, Henry

Makowitz, John Usher, Brookhaven National Lab¬

oratory' 1938

809394 — High-Temperature Thermochemical Water

Splitting Cycle Fusion Reactor Design Considera¬

tions, Edward T. Cheng, Clement P. C. Wong.

Kenneth H. McCorkle, Jr., Paul W. Trester,

Kenneth R. Schultz, General Atomic Company .... 1943

XI

809395 — Present and Future Status of Therino-

chcmical Cycles Applied to Fusion Energy Sources,

Lawrence A. Booth, Kenneth E. Cox, Robert A.

Krakowski, John H. Pendergrass, Los Alamos

Scientific Laboratory 1951

809396 — High-Temperature Fusion Blanket for a

Synthetic Fuel Plant, Loren C. Steinhauer,

Mohammed H. Shirazian, Charles Bruzzone. Math¬

ematical Sciences Northwest, Inc 1959

Geothermal Energy I: Federal

Program Overview & Direct

Use Applications

809030 — The Federal Geothermal Energy Program,

Rudolph A. Black, U.S. Department of Energy ....151

809032 — Klamath Falls District Heating Network,Paul J. Lienau, John W. Lund, Gordon Gene

Culver, Charles V. Higbee, Oregon Institute of

Technology, Geo-Heat Utilization Center 156

809033 — Adapting Geothermal Energy to Produce

Ethanol for Automotive Use, Russell A. Stenzel,

Jackson Yu, Emile H. Houle, Bechtel National, Inc. 162

809035 — Heat Pumps in Low Temperature Applica¬

tions, J. G. Keller, R. C, Schmitt, EG&G Idaho Inc. 167

Geothermal Energy II: Conversion &Fluid Handling Technology809086 — Condenser Designs for Binary Power Cycles,

John W. Michel, Richard W. Murphy, Oak RidgeNational Laboratory 449

809087— Condensation Film Coefficients for Mixtures

of Isobutanc and Isopentane, Badawi W. Tleimat,

Alan D. K. Laird, Sea Water Conversion Labo¬

ratory, University of California, Henry Rie,

Envirotech-Sephton Development Center, Shu-PingZhao, Sea Water Conversion Laboratoiy, University

of California 455

809088— Corrosion and Materials Selection for Geo¬

thermal Systems, Richard L. Miller, EG&G Idaho,

Inc 460

809089 — Impinging Jets Direct Contact Heat Trans¬

fer, Ram Manvi, California Slate Univ., Los Angeles 465

809091 — Simulation of Mass Transfer Processes in

Geothermal Power Cycles with Direct Contact Heat

Exchange, Joseph F. Knight, Joseph J. Perona,

Univ. of Tennessee 471

Geothermal Energy III:

Conversion Systems

809156 — Power Production from Geothermal Burn

with the Rotary Separator Turbine, Donald J,

Cerini, BiPhase Energy Systems 788

809158 — Analysis of Binary Thermodynamic Cyclesfor a Moderately Low-Temperature Geothermal

Resource, Orin J. Demuth, EG&G Idaho, Inc 798

809160 — Generalized Performance Predictions for

Energy Conversion Plants Using GeopressuredGeothermal Fluids, J. P. Lamb, G. F. Polansky, S.

P. Bradley, The University of Texas at Austin 804

XII

Geothermal Energy IV:

Demonstration Projects809219 — Raft River 5MW(e) Geothermal Pilot Plant,

Robert R. Stiger, EG&G Idaho, Inc 1120

809220 — 10 MW Geothermal Power Plant for South¬

ern California Edison and Union Oil Company of

California, Herbert Rogers, Jr., Rogers EngineeringCo., Inc 1124

809221 — Electric Power Generation Using Low Tem¬

perature Geothermal Resources and Wood Residues,

Kenneth L. Boren, GeoProducts Corporation 1125

809222 - Hawaii Geothermal Project "A" Wellhead

Generator Feasibility Project, Herbert Rogers, Jr.,

Rogers Engineering Co., Inc 1132

809223—The Challenge of Financing Geothermal

Development, Paul Rodzianko. Geothermal Energy

Corporation 1134

Heat Engines I

809127 —Helium-Topping/Organic Bottoming - Ad¬

vanced Power Generation System - Exergetic/En¬

ergetic Analysis, Rifat Tabi, New York Institute of

Technology, John E. Mesko, Pope, Evans and

Robbins, Inc 660

809128 — The HTGR-GT Closed-Cycle Gas Turbine -

A Plant Concept with Inherent Cogeneration (Power

Plus Heat Production) Capability, Colin F.

McDonald, General Atomic Company 667

809129 —Over 50% Efficiency Achieved in Gas Tur¬

bine System Using Isothermal Expansion, Charles E.

Jahnig 676

809130 — Power Cycles Analyses by Generalized Ther¬

modynamic Properties, Ashok V. Pradhan, W. L.

Tanksley & Assoc., Inc., Vincent H. Larson, Cleve¬

land State University 680

809131—Initial Test Results for the RE1-11 Rotary

Expander Engine, Robert M. Tompkins, Giovanni

J. Silvestri, Naval Underwater Systems Center (New¬

port Lab), George A. Brown, University of Rhode

Island, Robert W. Shepard, Naval Underwater

Systems Center (Newport Lab) 686

809132 — The Two-in-One Engine - An Experimental

Study, Antonio Barulli, Domenico Laforgia,Michele Napolilano, Istituto di Macchine - Univer¬

sity of Bari - Italy 691

809133 — Performance and Exhaust Emissions of a

Multicylinder S.I. Engine Fueled with Methanol and

Gasoline, Omer L. GOlder, Middle East Tech, Univ. 698

Heat Engines II

809194 — The Use of Organic Working Fluids in

Rankine Engines, Henry M. Curran, Hittnutn

Associates, Inc 985

809195 — Experimental Results on the Thermal Sta¬

bility of Some Fluorocarbons, Alberto Morini.

Ennio Macchi, Gustavo Giglioli, Politecnico di

Milium 992

809196 — Subsea Isotope Power System (SIPS), John

E. Boretz, TRW/DSSG, Ron Marosko, TRW

Subsea Petro. Sys. Inc 998

809197 —Rankine Cycle Augmented Light-Gas-FlowTurbine Studies, John E. Minardi, University of

Dayton, M. O. Lawson, L. I. Boehman 1. O. Salyer,H. P. von Ohain, R. K. Newman 1003

809199 —Experimental Results and Economics of a

Small (40 kW) Organic Rankine Cycle Engine, C.

Casci, G. Angelino, P. Ferrari, M. Gaia, G. Giglioli.E. Macchi, CNPM-Instilute di Macchine, Politecnico

di Mi/ano 1008

809200 — Steam Expander Research for High Engine

Efficiency, Roger L. Dernier, H. H. Fuller, A. C.

Harvey, E. C, Poulin, Foster-Miller Associates, Inc. 1015

Heat Pumps I

809363 — Analysis of a Heat-Activated Stirling Heat

Pump, Dr. Theodor Finkelstein, TCA Stirling

Engine Research and Development Co 1788

809365 — Development of a Diaphragm Stirling En¬

gine Heat-Actuated Heat Pump, Robert A.

Ackermann. Thomas J. Marusak, Mechanical Tech¬

nology, Inc 1797

809367 — An Energy and Cost Analysis of Residential

Heat Pumps in Northern Climates, Jay K. Martin,

Dennis L. O'Neal, Oak Ridge National Laboratory..

1802

Heat Pumps II

809426 — Simulation and Evaluation of Latent Heat

Thermal Energy Storage Heat Pump Systems, TonyW. Sigmon, Jane H. Davidson, J. Michael Doster,

Research Triangle Institute, J. F. Martin. Oak Ridge

National Laboratory, J. A. Edwards, North Carolina

State Univ 2117

809429 — Opportunities in the Application of Micro¬

computers to Heat Pumps, Robert D. Fischer,

Battelle-Columbus Laboratories 2123

809430 —Test Evaluation of a Prototype 18-Ton

Solar-Powered Heating and Cooling System,Gorken Melikian, Frank R. Biancardi, Maurice D.

Meader, United Technologies Research Center 2127

809431—Twenty Years of Experience with Well-

Water-Source Heat Pumps at Battelle's Columbus

Laboratories, Robert D. Fischer, Charles F. Holt.

Sherwood G. Talbert. Thomas E. Maloy, Battelle-

Columbus Laboratories 2131

High Temperature Nuclear

Process Heat

809211 — Status of Nuclear High Temperature Process

Heat Development in the Federal Republic of

Germany (Coal Gasification and Long Distance

Energy Transport), Rudolf Pruschek. GHT Gesell-

schaft fiir Hochtemperatw-Technik mbH, Erhard

Arndt, Hochtemperatur-Reaktorbau GmbH (HRB).

Ralf Harth, Kemforschungsanlage Jiilich GmbH

(KFA) 1074

809212 — A Challenge to Create New, Manageable and

Possible Energy Supply System (JAERPs Projection

on Nuclear Process Heat Application), H. Murata,

H. Nakamura, M. Hirata, S. Ikari, S, Yasukawa,

Japan Atomic Energy Research Institute 1080

809213 —The High Temperature Gas-Cooled Reactor

for Nuclear Process Heat Applications: Status of the

U.S. Program, Scott R. Penfield, Jr., Gas-Cooled

Reactor Associates 1091

809214 — Feasibility of a Steam Reforming Plant

Heated by an H.T.G.R., Jean Malherbe. Commis¬

sariat a L'Energie Atomique 1097

809215 — High-Temperature Gas-Cooled Reactors and

Process Heat, P. R. Kasten, Oak Ridge National

Laboratory 1101

809216 —Design of the HTGR for Process Heat

Applications, Daniel L. Vrable, Robert N. Quade,

General Atomic Company 1107

809217 — Structural Materials Requirements for Nu¬

clear Process Heat Gas Cooled Reactor Systems

Applications, Orville F. Kimball, General Electric... 1113

Hydrogen I

809340 —The Mark-13 Process for Hydrogen Pro¬

duction, Daniel Van Velzen, Heinrich Langenkamp,

Joint Research Centre, Ispra 1716

809342 — Development Status of the General Electric

Solid Polymer Electrolyte Water Electrolysis Tech¬

nology, Leonard J. Nuttull, General Electric Co. ...1721

809343 — High-Temperature Water Electrolysis for

Hydrogen Production, Ronald M. Bowman, Bassam

J. Jody, Keith F. Blurton, Institute of Gas Tech¬

nology!'^25

809344 — Catalytic Combustion of Hydrogen in Model

Appliances, Jon B. Pangborn, Institute of Gas

Technology'731

809345 — Hydrogen Production from the Solar Based

LASL Cadmium Cycle, Caroline F. V. Mason,

MelvinG. Bowman, Robert G. Behrens, Los

Alamos Scientific Laboratory '737

Hydrogen II

809403 — A Comparison of Capital Cost Estimates and

Process Efficiencies for Hydrogen Production by

Thermochemical Cycles and Water Electrolysis,

Kenneth E. Fox, LosAlamos Scientific Laboratory ..1993

809404 — Process Economics and the Second Law in

Thermochemical Hydrogen Production: The Effect

of Heat Transfer, James E. Funk, James K. Prueitt,

Univ. of Kentucky 2000

809405— Decomposition of Sulphuric Acid Using Hot

Air. A Process Applied to Thermochemical Cycles

for Hydrogen Production, Armando P. Broggi.

Giorgio Beghi, J.R.C.- ISPRA 2004

809406 — Recent Progress on the Sulfur Cycle Hybrid

Hydrogen Production Process, William A.

Summers, Robert L. Ammon, Gerald H. Parker,

Westinghouse Electric Corporation 2008

809407 — Off-Peak Power for Hydrogen Production,

Keith E. Johnson, Saskatchewan Power Corporation,

Arun Verma, Saskatchewan Oil & Gas Corp 2015

Hydrogen III

809457 — A Hybrid Water-Splitting Cycle Using Cop¬

per Sulfate and Mixed Copper Oxides, James D.

Schreiber, Robert J. Remick, Stephen E. Foh.

Mono M. Mazumder, Institute ofGas Technology .2285

809458 — Solids Decomposition Kinetics for LASL

Bismuth Sulfate Cycle, Charles L. Peterson, Melvin

G, Bowman, Los Alamos Scientific Laboratory 2289

809459 — Thermochemical Cycle for Hydrogen Pro¬

duction Based on Cerium-Titanium-Sodium-Oxygen

Compounds, Carlos E. Bamberger. Oak Ridge Natl.

Laboratoiy 2293

809460 —Gas Distribution Equipment in Hydrogen

Service - Phase II, Walter J. Jasionowski, H. Ding

Huang, Institute ofGas Technology 2295

XIII

Lithium/Metal Sulfide

Battery Technology

809041 — Recent Progress in Lithium/Iron Sulfide

Battery Development, Duane L. Barney, Robert K.

Steunenberg, Albert A. Chilenskas, Argonne Na¬


809042 — Cycle Life Studies of LiAI/FeS Cells UsingBN Felt Separators, Fredric J, Martino, Eddie C.

Gay, Hiroshi Shimotake, Argonne National Labo¬

ratoiy 205

809043 — Optimization Studies of Lithium/Iron

Sulfide Cells for Electric Vehicle Applications, Eddie

C. Gay, William E. Miller, Fredric J. Martino,

Argonne National Laboratory 211

809044 — New Approach to Electrode Current Col¬

lection for LiAI/Iron Sulfide Cells, Thomas D.

Kaun, Paul F. Eshman, William E. Miller, ArgonneNational Laboratory 218

809045 — Development of a Tubular Lithium-Iron

Sulfide Cell, Y. W. Park, Korea Institute o\ Science

& Technology', H. Shimotake, Argonne National

Laboratoiy 224

809046 — Scaling Up of Bipolar Lithium/Iron Di¬

sulfide Cells, Thompson G. Bradley, General Motors

Research Laboratories 228

Mechanical EnergyStorage Components

809297 — The New Age of High Performance Kinetic

Energy Storage Systems, Donald Davis, ArpadCsomor, Rocketdyne 1507

809298 — Performance and Applications Potential of a

Turbine-Pump with Controlled Flow Rate, GeorgeC. Chang, Cleveland State Univ., Alexander

Gokhman, Nail Ozboya, EDS Nuclear, Inc 1513

809299 — Coal-Fired Fluid Bed Combustion Aug¬mented Compressed Air Energy Storage Systems,Albert J. Giramonti, Robert D. Lessard, United

Technologies Research Center, David Merrick. Coal

Processing Consultants 1522

809301—Residential Photovoltaic Flywheel StorageSystem Performance and Cost, R. D. Hay, P. O.

Jarvinen, MIT Lincoln Laboratoiy, A. R. Millner.

Tri-Solar Corp., Bedford, MA 1528

809302 — Flywheel-Transmission Characteristics Re¬

quired for Break-Even Impact on Automotive Vehi¬

cle Performance, Robert F. McAlcvy, III, Stevens

Institute of Technology 1534

New Developments in MHD Systems

809092 — U.S./U.S.S.R. Joint MHD Generator Test¬

ing at the U-25 Pilot Plant, Basil F. Picologlou.

Argonne National Laboratoiy 476

809093 — Development of the High Temperature Air

Heater for Open Cycle MHD, David P. Saari,

Ronald R. Smyth, C. Lynn Marksberry, Lloyd R.

White, FluiDyne Engineering Corp 482

809094 —Near Term Commercialization of MHD

Power Generation Using Coal/Oil Fuel, M. L.

Ramachandra Murthy, John C. Cutting, Walter P.

Trzaskoma, Gilbert/Commonwealth, Arnold

Manakek, Tennessee Valley Authority 489

809095 — Simplified Correlations for the Prediction of

NO„ Emissions from MHD Power Plants, Joram

Hopenfeld, U.S. Dept. of Energy 497

809096 — Liquid-Metal MHD for Solar and Coal:

System and Component Status, Edward S. Pierson,

Steven J. Grammel, Donald Cohen, Thomas

Frisardi, Argonne National Laboratoiy 505

Ocean Thermal Energy Conversion

809261 —Review of Mini-OTEC Performance, L. C.

Trimble, W. L. Owens, Lockheed Missiles & Space

Company, Inc 1331

809262 — Design of 40-MW Grazing and Moored

OTEC Pilot/Demonstration Plants, D. Richards, J.

F. George, Johns Hopkins University, J. S. Seward,

Seward Associates '

1339

809263 — Projected Costs for Electricity and Products

from OTEC Facilities and Plantships, G. L. Dugger,R. W. Henderson, E. J. Francis, W. H. Avery, The

Johns Hopkins University - Applied Physics Labo¬

ratoiy 1347

809264 — The Commercial Application of an OTEC

Jacket (Tower), Robert A. Hindle, Paul B. Pribis,

General Electric 1355

809265 — Material Evaluation and Testing Programfor OTEC Riser Cable, C. A. Pieroni, K. P. Roberts,

Simplex Wire & Cable Company, T. F. Garrity, R.

Eaton, U.S. Department of Energy, T. C. Dalton,

Gibbs and Cox, Inc 1360

809266 — Further Analyses of a Novel Wave EnergyDevice, Wiguo Chiou, AFC Industiies, Inc., Dennis

A. Guenther, Ohio State University, Dedger Jones,

Arrow Manufacturing Company, Columbus, Ohio . . 1367

Progress in MHD SystemDevelopment

809037 — Open-Cycle MHD Generator Channel De¬

velopment, R. Kessler, Avco Everett Research Lab.,

Inc 170

809038 — Development of Steam Generator Compo¬nents for Open-Cycle MHD, Terry R. Johnson,

Gregory F, Berry, Michael Petrick, Argonne Na¬

tional Lab 179

809039 — Component Development and IntegrationFacility a Description and Status Report, Robert A.

Carrington, Jack M. Sherick, MERDI-CDJF 186

809040 — Description of the DOE MHD Coal-Fired

Flow Facility (CFFF), James F. Martin, Joel W.

Muehlhauser, Stephen S. Strom, University ofTennessee 192

Sodium/Sulfur and Other

High-Temperature Battery Systems

809104 —Advance Battery Development at General

Electric, Jeffrey A. Asher, John A. Bast, Ferhad N.

Mazandarany, General Electric 550

809105 —Sodium-Sulfur Load Leveling Battery Sys¬tem, Harold J. Haskins, Carl R. Halbach, Ford

Aerospace & Communications Corp., Aeronutronic

Division 554

809106 — Volume Optimization of Sodium-Sulfur Bat¬

teries Using Various Advanced Cell Concepts, Mati

Mikkor, Ford Motor Co 561

XIV

809107 —A New Rechargeable High Voltage Low

Temperature Molten Salt Cell, Gleb Mamantov, R.

Marassi, Y. Ogata, M. Matsunaga, J. P. Wiaux,

Department of Chemistry, University of Tennessee ..569

809108 — Sodium-Sulfur-Aluminum Chloride Cells,

James J. Auborn, S. M. Granstaff, Jr., Bell Labo¬

ratories 575

809109 —Calcium/Iron Disulfide Secondary Cells,

Laurids E. Ross, Sandra K. Preto, Neil C. Otto.

Condescita C. Sy, Michael F. Roche, Argonne

National Laboratory 581

809412 — Power Processing and Control Requirements

of Dispersed Solar Thermal Electric Generation

Systems, S. L. Das Radhe, Jet Propulsion Labo¬

ratoiy, California Institute of Technology 2039

809413 — Ceramic Dome Receiver Technology Devel¬

opments, Philip O. Jarvinen, MIT - Lincoln Lubo-

ratoiy2045

809414 —An Advanced 15 kW Solar Powered Free-

Piston Stirling Engine, Glendon M. Benson,

Ronald J. Vincent, William D. Rifkin, Energy

Research & Generation, Inc. (ERG, Inc.) 2051

Solar Ponds

809280 — Salton Sea Solar Pond Project, R. L.

French, Jet Propulsion Laboratory, I. Meitlis, South¬

ern California Edison Company 1430

809281—Solar Ponds in the Region Served by the

Tennessee Valley Authority, Dieter W. Kubcrg,

TVA1432

809282 — Management of a Large, Operational Solar

Pond, Layton J. Wittenberg, Marc J. Harris,

Monsanto Research Corporation 1435

809283 —Key Questions in the Application of Salt-

Stratified Solar Ponds, Robert F. Boehm, Ty

Newell, University of Utah 1438

809284 — Operational Experience with a Saturated

Borax Solar Pond, Thomas L, Ochs, Desert Re¬

search Institute1444

809285 — Laboratory Demonstration of Self-Creation,

Self-Maintenance and Self-Correction of Saturated

Solar Ponds, Satish C. Jain, Gurmukh D. Mehta,

InterTechnology/Solar Corporation 1448

809286— Solar Ponds for District Heating and Elec¬

tricity Generation, C. M. Leboeuf, J. S. Kowalik, M.

Edesess, J. S. Jayadev, Solar Energy Research

Institute1453

Solar Thermal I

809346 —The JPL Parabolic Dish Program, Vincent

C. Truscello, A. Nash Williams, Jet Propulsion

Laboratory1741

809347 — Comparison of Advanced Solar Engines for

Parabolic Dish Solar Thermal Power Plants, Toshio

Fujita, J. M. Bowyer, B. C. Gajanana, Cal Tech/Jet

Propulsion Lab1747

809348 — Thermal Buffering of Receivers for Parabolic

Dish Solar Thermal Power Plants, Ram Manvi,

Toshio Fujita, Birur C. Gajanana, Cynthia J.

Marcus. Jet Propulsion Laboratory 1753

Solar Thermal II

809409 — Comparative Economics of Small Solar

Thermal Electric Power Systems, Thomas A.

Williams, Pacific Northwest Laboratoiy 2019

809410 —Assessment of Solar Thermal Concepts for

Small Power Systems Applications, Walter W.

Laity, Duane T. Aase, Walter J. Apley, Steven P.

Bird, J. William Currie, M. K. Drost, T. A.

Williams, Pacific Northwest Laboratory 2026

809411 — One Megawatt (Thermal) Bench Model

Solar Receiver Design and Test, William D.

Beverly, Boeing Engineering & Construction Co. ...2034

Solar Thermal III

809462 —A Comparison of the Flat Plate and Con¬

centrating Solar Collector, Robert P. Stromberg,

Sandia National Laboratories 2301

809464—The Impact of Solar Irrigation on Utility

Peaking Characteristics, Christopher Ward, Robert

F. Boehm, Stephen R. Swanson, University of Utah 2306

809465 — Solar Drying of Coal Wastes from Slurry

Ponds, Wayne A. Helmer, Ahmed Abbas, College of

Engineering, Southern Illinois University 2312

809466 —Pilot Plant Studies of Solar and Solar-

Dehumidification Lumber Drying, Peter Y. S. Chen,

North Central Forest Exp. Sla., USDA Forest

Service, Wayne A. Helmer, Southern Illinois Uni¬

versity, Howard N. Rosen, North Central Forest

Exp. Sta., USDA Forest Service 2316

Stirling Engine Applications I

809397 — Design Characteristics and Test Results of

the United Stirling P40 Engine, Christer Bratl,

United Stirling (Sweden) 1964

809398— Stirling Engine Power System Development

and Test Results, William D. C. Richards, G. E.

Company - VFSC, Daniel Lehrfeld, Philips Labs./

Div. of N. A. Philips Corp1967

809399 — Stirling Engines for Developing Countries,

William T. Beale. J. G. Wood, B. J. Chagnot.

Sunpower Inc1971

809400 — 1 kWe Free-Piston Stirling Engine-Linear

Alternator Test Program, George R. Dochat.

Thomas M. Moynihan, Manmohan Dhar, Me¬

chanical Technology Incorporated 1976

809401 — Applications of Free Piston Stirling Engines,

William D. Rifkin, Glendon M. Benson, Ronald J.

Vincent, Energy Research & Generation, Inc 1982

809402 — Stirling Traction Motors with Regenerative

Braking Capability, G. Walker. University of Calgary1987

Stirling Engine Applications II

809449 — Validation of Published Stirling Engine

Design Methods Using Engine Characteristics from

the Literature, W. R. Martini, Martini Engineering 2245

809450 —A State Space Analysis of a Symmetrical

Compounded Free Piston Stirling Engine, Louis F.

Goldberg, University of the Witwaiersrand ....2251

809451—Investigation of a Philips MP1002CA

Stirling Engine, Michael A. Clarke, Graham T.

Reader. British Navy, John Slowly. Bath University 2258

XV

809452 — Nodal Analysis of Miniature Cryogenic

Coolers, Roger C. C. Ho, Mark E. Howson, Peter L.

Boland, Raytheon Co., Missile Systems Div 2265

809453 —An Analytical Solution for a Stirling Ma¬

chine with an Adiabatic Cylinder, C. D. West,

Westware Company 2274

809454 — Regenerative Engines with Dense Phase

Working Fluids: The Malone Cycle, Graham

Walker, University of Calgary 2278

Stirling Engine Design and Analysis

809334 — Analysis and Design of Free-Piston Stirling

Engines - Thermodynamics and Dynamics, Ronald

J. Vincent, Energy Research & Generation, Inc.

William D. Rifkin, Glendon M. Benson 1686

809335 — Harmonic Analysis of Stirling Engine Ther¬

modynamics, Jeffrey S. Rauch, M.T.I 1696

809336 — A General Purpose Program for Stirling

Engine Simulation, Israel Urieli, Ormat Turbines

Ltd 1701

809338 — Performance Loss Due to Transient Heat

Transfer in the Cylinders of Stirling Engines,

Kangpil Lee, Foster-Miller Associates, Inc., Joseph

L. Smith, Jr., Henry B. Faulkner, Massachusetts

Institute of Technology 1706

809339 — An Algorithm for the Preliminary Design of

Stirling Engine Heaters, Graham T. Reader, David

R. Taylor, British Navy 1711

Technology Applications for ICES

809241 —The Role of Refuse Derived Fuel (RDF) as

an Alternative Energy Source for District Heating

and Power Generation, Oscar O. Ohlsson, Argonne

National Lab 1215

809242 — Georgetown University's Experience in the

Atmospheric Fluidized Bed Combustor Technology,

Donald J. Roy, Argonne National Laboratoiy 1220

809243 — The OASIS Computer Program for Optimi¬zation and Simulation of Integrated Systems,

Dorothy J. Bingaman, Veronika A, Rabl, James M.

Calm, Argonne National Laboratoiy, Zulfikar O.

Cumali, Paul K. Davis, Ilan Adler, Consultants

Computation Bureau 1229

809244— Residential/Commercial Cogeneration: Fuel

and Technological Options, John C. Bratis, Thomas

J. Marciniak, Mohan L. Jain, Robert E. Holtz,

Argonne National Lab 1233

809245 —COST: An Automated Conceptual Designfor Energy Systems, John Voelker, Argonne Na¬


Terrestrial Photovoltaics

809479 — Thin-Film Solar Cells, Allen M. Barnett,

University of Delaware 2342

Terrestrial Photovoltaic

Systems—Today

809097 — The 100-kWP Photovoltaic Power System at

Natural Bridges National Monument, F. J. Solman,

J. H. Helfrich, E. F. Lyon, A. E. Benoit, Massa¬

chusetts Institute of Technology 511

809098 — Residential Photovoltaic Systems, E. C.

Kern, MIT Lincoln Laboratoiy 515

809099 — Residential Photovoltaic Systems Costs, C.

H. Cox, III, Massachusetts Institute of Technology .519

809100 — Intermediate Load-Center Photovoltaic Ap¬

plication Experiments, E. L. Burgess, Sandia Na¬

tional Laboratories 527

809101—Photovoltaic Central Station Applications:

Status and Prospects, Gary J. Jones, Sandia Na¬

tional Laboratories 532

809102 —470-kW Photovoltaic Power System for

Saudi Arabia Villages, Matthew S. Imamura,

Robert L. Moser, John A. Sanders, Martin Marietta

Corp., Fahd Huraib, Bakr Khoshaim, Solar Energy

Research Institute 537

809103 — High Performance Photovoltaic Systems,

Henri J. R. Maget, Varian Associates, Inc 542

Thermal Storage: Components& Systems

809047 — Seas: A System for Undersea Energy Stor¬

age, John D. Powell, Scripps Inst, of Oceanography,James R. Powell, Brookhaven Natl. Labs 233

809048 — Energy Conservation and Environmental

Benefits of Thermal Energy Storage Systems in the

Pulp and Paper Industry, Howard J. Edde, Howard

Edde, Inc., Marshall W. Dietrich, NASA 239

809049 — Chemical Energy Storage for Solar Thermal

Electric Conversion, Richard D. Smith, Rocket

Research Company 243

809050 — Domestic Ceramic Refractories for Heat

Storage Furnaces, Hayne Palmour, III, Billy M,

Gay, Ronald L. Cochrane, Engineering Research

Services Div., North Carolina State University 248

809051 — Air/Roek Storage For Solar Central

Receiver Power Stations, Wallace B. Thomson,

Anargiros Z. Frangos, Thomas H. Springer,

Rockwell International, Energy Systems Group .... 254

809473 — Thermal Energy Storage Using Glauber's

Salt: Improved Storage Capacity with Thermal

Cycling, Stephen B. Marks, Institute of Energy

Conversion, University of Delaware 259

Thermal Storage: Heat Exchange

& Transport809116 —Study of Thermal Energy Storage Using

Fluidized Bed Heat Exchangers, Thomas E. Weast,

Larry J. Shannon, K. P. Ananth, Midwest Research

Institute 619

809118 —A Model of Direct-Contact Heat Transfer

for Latent Heat Energy Storage, Michael Cease,

Solar Energy Research Institute 624

XVI

Thermionics I Thermoelectrics I809359 — Collector Temperature Effects on the Per¬

formance of Advanced Thermionic Converters and

Nuclear Electric Propulsion Systems, Reay S. Dick,Jr., John B. McVey, Edward J. Britt, Gary O.

Fitzpatrick, Rasor Associates, Inc 1766

809360 — The Changing Emphasis of the DOE Therm¬

ionic Program, Owen S, Merrill, U.S. Dept. ofEnergy 1773

809361—Design Study of a Coal-Fired Thermionic

(THX) Topped Power Plant, Reay S. Dick, Jr.,Rasor Associates, Inc., James W. Starr, FosterWheeler Develop. Corp., Brij M. Banda, Bechtel

National, Inc 1775809362 — Thermionic Topping of Combined Cycle

Powerplants and Cogeneration Applications, Gabor

Miskolczy, Chi Chung Wang, Thermo Electron

Corp., Arthur E. Margulies, Lewis J. Fusegni, Stone

& Webster Eng. Corp 1783

Thermionics II

809420 — Progress in the Development of Small Flame

Heated Thermionic Energy Converters, Rudolf

Henne, Michael v. Bradke, Whirried Weber.DFVLR 2089

809421 —Combustion Performance of CVD Silicon

Carbide Thermionic Diodes, Douglass B. Goodale,Peter Reagan, Gabor Miskolczy, David Lieb, Fred

N. Huffman, Thermo Electron Corp 2095

809422 — Utilization of Low Temperature Insulators

and Seals in Thermionic Converters, Marshall D.

Smith, E. J. Britt, Rasor Associates, M. L. Manda.

Pacific Environmental Services 2098

809423 — Characteristics of a Cesiated W(110) Elec¬

trode Annealed in Oxygen, Bernd Gunther. Fred N.

Huffman, Thermo Electron Corp 2103

809424 — Thermionic Converter Output as a Function

of Collector Temperature, Glenn Stark, Michael

Saunders, David Lieb, Thermo Electron Corp 2107

809425 —Heat Flux at the Thermionic Collector,

Katsunori Shimada, Jet Propulsion Laboratory...

.2112

Thermionics III

809467 — Thermionic Properties of the MolybdenumBoron System,. Edmund K. Storms, Los Alamos

Scientific Lab 2324

809468 — The Adsorption of Cesium on Lanthanum

Hcxaboride Surfaces, Paul R. Davis, Oregon Grad¬

uate Center, S. A. Chambers, George Fox College. L.

W. Swanson, Oregon Graduate Center 2327

809469 — Thermionic Emission and Surface Compo¬sition of the Y-B System, Jim Jaskie, Dean

Jacobson, Arizona State University 2331

809470 — Cesium Adsorption on the Zr/O/W(I00)

Surface, H. K. Chen, L. W. Swanson. P. R. Davis,

Oregon Graduate Center 2334

809471 — Development of Low Work Function

Zr/O/W(100) Emitter, Lee R. Danielson, Thermo

Electron Corp 2338

809311 — Demonstration of Heat to Electrical EnergyConversion with a Ferroelectric Material, Randall B.Olsen, Power Conversion Technology, Inc 1586

809312 —Electrical Energy Production by Particle

Thermionic-Thermoelectric Power Generators, Peter

E. Oettinger, Thermo Electron Corp 1592

809317 — Advanced Thermoelectric Material Devel¬

opment at J.P.L., Gerhard Stapfer, Jet PropulsionLab 1595

809375 — Refractory Thermoelectric Materials,Norbert B. Eisner, Park H, Miller, Jr., George H.

Reynolds, General Atomic Company 1600

809378 — Analysis of the Application of Thermo-

Galvanic Cells to the Conversion of Low Grade Heat

to Electricity, H. L. Chum, R. F. Fahlsing, T. S.

Jayadev, Solar Energy Research Institute 1603

809379 — Thermoelectric Properties of Bi-Sb AlloyThin Films, John U. Trefny, Colorado School of

Mines, T. S. Jayadev, S.E.R.I '.. 1610

Thermoelectrics II

809314 —Thermoelectricity: Phase Diagrams and Im¬

perfection Structures II, Donald Tuwmi, RC

Ingersoll Research Center, Borg-Warner Carp 1853

809316 —Universal Thermoelectric Design Curves,

Richard J. Buist, Marlow Industries. Inc 1862

809376 — Preparation and Properties of High-Per-

formance (Bi,Sb)2 (Te,Se)3 Alloys, Rudolf B. Horst,

Lloyd R. Williams, Lockheed 1866

809380 — Thermoelectric OTEC - An Update, David

K. Benson, Mark S. Bohn, John Kowalik, Solar

Energy Research Institute. T. S. Jayader, EnergyConversion Devices, Inc 1873

Underground Thermal &

Mechanical Storage Systems

809246 — Experimental and Theoretical Studies of

Thermal Energy Storage in Aquifers, Chin-Fu

Tsang, Lawrence Berkeley Laboratory, Fred Molz,

David Parr, Auburn University 1244

809247 — Seasonal Thermal Energy Storage of Chilled

Water in Aquifers, S. G. Angus, G. T. Williams,

Hooper andAngus Associates, Ltd. 1249

809248 — Temperature-Induced Permeability Altera¬

tions in Unconsolidated and Consolidated AquiferMedia, James A. Stottlemyre, Battelle PNL, CraigH. Cooley, Terra TEK 1255

809249 —Heat Storage in a Phreatic Unconfined

Aquifer - the Campuget Experiment, Pascal Iris,

Ghislain de Marsily, Ecole des Mines de Paris, Yges

Cormary, Electricite de France 1259

809250 — The Economics of Aquifer Storage of Chilled

Water for Air Conditioning, R. W. Reilly, D. R.

Brown, H. D. Huber, Pacific Northwest Laboratory 1265

809251—Development of a Compressed Air Energy

Storage Power Generation Plant - the PEPCO

Demonstration Plant Study, Edwin D. Shippey,

XVM

Acies American Inc, Peter E Schaub, Potomac

Electi ic Powei Co 1272

809252— The Economics of Compressed Air Energy

Storage with 1 hernial Energy Storage, R W Reilly,

Pacific Noithwest Laboiatoiy Mil

Wind Energy I

809162 —Development of 4 kW Wind Turbine Gen¬

erator, Gerald Bottrell Lawrence J Sullivan,

Stiuctuial Composites Industiies Inc 810

809163 —Interim Status Report on DOE Prototype

Development SWECS, Roger L Moment Andrew

R Trenka Rockwell International 815

809164 — Benefits Arising from the Use of Pneumatic

Energy Transmittal in Wind-Power Systems, J A

C Kentfield, Dept of Mechanical Engineeung

Untveistty of Calgaiy, Calgaiy Albeita, Canada 821

809165 — Analysis of Small, Nonconventional Electric

Power Systems for Remote Site Applications, Louis

I Boehman, Loien A Anderson Untveisitv oj

Dayton John N Crisp Uiweisttv of Kansas Jay D

Pmson San Jose State Unneisity Wayne S Bishop

An Foice Wnght Aeionauttcal Laboiatones 828

809166 —Wind Energy for Electrical Vehicle Re¬

charge, Anthony F Sammelh Andiew A Fejer

Institute oj Gas Technology 835

809478 —Wind Energy Capacity of a Single Airfoil

with Vertical Axis on a Circular Track, Dale E

Palmgren, Untveisity of Wisconsin-Madison, David

R Otis, Depaitment of Mechanical Engineeung

Untveisitv of Wisconsin-Madison 840

Wind Energy II

809226 — Feasibility Studies of Spoiler and Aileron

Control Systems for Large Horizontal-axis Wind

Turbines, W H Wentz Jr, Melvin H Snyder,

Wichita State University, John T Calhoun, Con¬

sultant 1138

809227 — Wind Resource Assessment in the Upper

Skagit River Valley of Washington, Scott D

Veenhuizen Jung-Tai Lin, United Industries Corp,

Alan T Yamagiwa Seattle City Light 1143

809228 — Turbulence as Experienced by a Moving

Rotor of a Wind Turbine, James R Connell, Pacific

Noithwest Laboiatoiy 1149

809229 — Implications of the Effects of Wind Char¬

acteristics on the Operation of Large Wind Turbines,

Alan H Miller Battelle, PNL 1154

809230 — The MOD-2 Wind Turbine, R A Axell, P

W Helms, Boeing Engineeung & Constitution 1159

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