Inhalt,
Contents
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Strategies and basic conditions
for an innovative energy policy in Germany
Chr.Dudda, DENA, Deutsche Energie-Agentur (German Energy
Agency), Berlin
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Ideal
Stirling cycle in Alpha, Beta, Gamma engines
L Kolin, University
of Zagreb, Croatia
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The
optimum Stirling engine geometry problem revisited
R. Senft, University of Wisconsin, River Falls, USA
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Oscillating flow in porous media
and proper formulations for regenerator analysis
Bauwens, Xiaohui Deng, Liang Fang, Pavel Mayzus, University
of Calgary, Canada
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Survey on Solar-Electric Dish/Stirling
Technology
W. Schiel, Schlaich, Bergermann und Partner, Stuttgart,
Germany; D. Laing, Deutsches Zentrum für Luft- und Raumfahrt (DLR)
e. V. Stuttgart, Germany
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Overview speech about combustion
systems and fuels
G. Lundholm, Lund University, Sweden
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A shot in the dark
A.J. Organ, L. J. Larque, D. A. Roberts, mRT-RegenerativeThermal
Machines, Cambridge, United Kingdom
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Simulation of the high-compression,
scavenged air engine
A. J. Organ, mRT-Regenerative Thermal Machines, Cambridge,
United Kingdom
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Re-design of the high-compression,
scavenged air engine
A .J. Organ, Regenerative Thermal Machines, mRT, Cambridge,
United Kingdom PROSA -software for evaluation
of Stirling cycle machines
B. Thomas, Reutlingen University, Germany
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Preliminary design of a 7 kW, free-piston
Stirling engine with rotary Generator output
G. Wood, N. W Lane, W T. Beale, Sunpower lnc., Athens,
Ohio, USA
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The commercial Stirling Engine:
Its absence, and the need for a new design approach
R. F. Kinnersly, D. W Hislop, Sustainabie Engine Systems
Ltd. (SES), London, United Kingdom
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Reliable, maintenance-free Stirling
generators that benefit the environment
M. White, D. Tolley, K. Colenbrander, Stirling Technology
Company, Kennewick, USA
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The free piston Vuilleumier heat
pump for residential heating: Project status
J. Rüther, H. - D. Kühl, S. Schulz, University
of Dortmund, Germany
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Field-test and market introduction
of
a 1 0 kW Stirling engine 106 as CH-and solar-module
A. Baumüller,
E. Schmieder, SOLO Kleinmotoren GmbH, Sindelfingen, Germany
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Development
and field test of a SOLO 161 Stirling engine based Micro-CHP114 unit with
Ultra-Low emissions
M. Palsson, Lund University,
Sweden
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Experimental
and theoretical evalutation of a Stirling Engine prototype for small power
units
M. Bartolini, F. Caresana,
L. Pelagalli, University of Ancona, ltaly
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The
Stirling engine in underwater applications
C. Bratt, 0. Ivarsson,
Kockums AB, Mlmö, Sweden
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Status
of Free-Piston Stirling power conversion in the United States space program
J. G. Schreiber, L.
G. Thieme, L. S. Mason, NASA Glenn ResearchCenter, Cleveland, USA
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A
semi free piston Stirling engine for a fish robot146
K. Hirata, National
Maritime Research Institute, Tokyo, Japan
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Optimisation
of automotive applications of the Stirling engine employing simulation
tools
L. Figueroa, 0. R..
Fauvel, University of Caigary, Canada; G. T. Reader, University of Windsor,
Canada
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Representation
of an innovative open regenerative cycle by systematic comparison with
known cycles: Stirling engine, innovative SoliSolar engine, gas spring
and Kompressor
T. Ertle, Langenau, Germany, T. Finkelstein, Stirling Associates
International, California, USA
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Relationship
between the mechanical phase advance k and the thermodynamical phase advance
- in double acting SIEMENS-like Stirling engines with n pistons
T.Raballand, Bordeaux,
France
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Comparison
between conventional and inverted Ross Yoke drive mechanisms
J.L. Prieto, A. Mendez,
University of Oviedo, Spain
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Investigation
of seal performance in a 4-alpha -double- acting Stirling -cycle heatpump
/refrigerator
D. Haywood, J. K Raine,
M. A. Gschwendtner,
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Stirling
Cycle
Research, University
of Canterbury, New Zealand
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A
novel power control method for gamma type Stirling engines
E. A. Paradissis,
Athens, Greece
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Status
of development of the dish/Stirling systems at Plataforma Solar de Almeria
P. Heller, W. Reinalter,
DLR Plataforma Solar de Almeria; D. Martinez-Plaza, CIEMA T Plataforma
Solar de Almeria, Tabemas, Spain
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Design,
fabrication and evaluation of Stirling engine generator and heat receiver
for sogar power Generation system in space
T. Hoshino, H. Naito,
T. Fujihara, K. Eguchi, National Aerospace Laboratori of Japan, Tokyo,
Japan
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New
concept for a solar electric Generation system using parabolic dish concentrators
J.-P. Budliger, Plan-les-Ouates,
Switzerland
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System
technical investigation of a sogar low temperature Stirling engine in Aden,
Nemen
H. Al- Towaie, University
of Aden, Yemen; J. Eickhoff, Dresden University of Technology, Germany
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Supercharged
Stirling engine with one single mechanical piston
J.-P. Budliger, Plan-les-Ouates,
Switzerland
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The
hermetic 0.5 kW Stiriing cogeneration unit ST 05 G-G with integrated generator
D. Viebach, Kolbermoor,
Germany
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Preliminary
experimental tests on a 3-kW, Stirling engine based co-generation unit
K Makhkamov, V. Trukhov,
L Tursunbaev, E. Orda, A. Lejebokov, B. Orunov, A. Korobkov, 1. Makhkamova,
Uzbek Academy of Sciences, Maviyanova, Tashkent, Usbekistan; D. B. lngham,
The Universityof Leeds, United Kingdom
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Investigations
on residential co-generation system with a Stirling engine
K. Hamaguchi, Meisei
University, Tokyo, Japan; M. Nishino, Hokkaido Po@echnic College,
Japan
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Development
of power installations with a Stirling engine and electric generators working
on ecologically clean fuel-biological mass
V.P. Breusov, V. V.
Elistratov, State Technical University, St Petersburg, Russia
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Biomass
combustion systems for combined heat and power applications with Stirling
engines
R.. Berger, U. Zuberbühler,
K. R.. G. Hein, University of Stuttgart, Germany; Chr.Gaegauf, Center of
Appropriate Technology and Social Ecology, Langenbruck, Switzerland
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Development
and testing results of a biomass fired 1 kW Beta-Stirling cogeneration-unit
B. Kammerich, Dortmund,
Germany
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Test
of 9 kW Stirling engine using biogas as fuel
H. Carisen, J. Bovin,
Technical University of Denmark, Lyngby, Denmark
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Development
of a charcoal-fire type Stirlingngine
I. Fujii, Y. Hamada,
Meiji University, Kawasaki, Japan
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Simulation
research on the performance of a four-cylinder double-acting Stirling engine
G. Gu, J. Donghan,
F. Linyun, Shanghai Marine Diesel Engine, Research Institute, Shanghai,
China
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The
load exploitation factor E_ir
P. Fette, Walzbachtal,
Germany
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Influence
of lowering the minimum cycle temperatures (down to approx.80 K) on the
Stirling cycle performance
V. Medica, University
of Rijeka, Croatia; W Servis, Winterthur, Switzerland
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Thermodynamic
modeling of free-pistons Stirling engines
P. Arques, Central
School of Lyon, Ecully, France
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Study
of dynamic deformation and energy transfer of working fluid in Stirling
engines
V. Naso, Dong Wei,
M. Lucentini, R. Capata, L. Rubini, University of Rome,"La Sapienza", ltaly
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Analysis
and simulation of heat exchanger of oscillating flow
V. Naso, Dong We4
M. Lucentini, R. Capata, R..I.. Abenavoli, University of Rome "La Sapienza",
ltaly
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A
simulation model with heater subdivided and its application to Stirlingengine
simulation
L. Fang, D. Jin, G.
Gu, Shanghai Marine Diesel Engine Research Institute, Shanghai, China
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Some
light on the regenerator problem
A. J. Organ, mRT-Regenerative
Thermal Machines, Cambridge, United Kingdom
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Measurement
of the heat transfer in the regenerator of a Stirling machine
H.Schikora, University
of Essen, Germany
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Grapho-analytical
method for condensed expression of regenerator efficiency
V. Naso, University
of Rome "La Sapienza", ltaly, L Kolin, M. Golub, S. Koscak, University
of Zagreb, Croatia
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Thermodynamical
influence of the mesh geometry on the wire mesh regenerator
S. Koscak, 1. Kolin,
University of Zagreb, Croatia; R.. Capata, M. Lucentini, University of
Rome, "La Sapienza', ltaly
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Summarized
formula for regenerator efficiency depending upon 370 aperture and wire
diameter
S. Koscak-Kolin, University
of Zagreb, Croatia; W Dong, M. Lucentini, University of Rome "La Sapienza",
ltaly
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Development
of a LPP CGR combustion system with ultra-low emissions for a SOLO 161
Stirling engine based Micro-CHP unit
M. Palsson, Lund University,
Lund, Sweden
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First
trials with direct catalytic combustion on the heater surface 386 of a
V-160 Stirling engine
G. Lundholm, M. Päisson, Lund University, Lund, Sweden
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Static
modelling and analysis of updraft gasifier for 35 kW, Stirling engine
N. Jensen, J. Werling,
U. Henriksen, H. Carisen, Technical University of Denmark, Lyngby, Denmark
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Theoretical
investigations of the working process of the combustion chamber for a Stirling
engine
K. Makhkamov, Uzbek
Academy of Siences, Mavlyanova, Tashkent, Uzbekistan; D. B. Ingham, M.
Pourkashanian, University of Leeds, Leeds, United Kingdom
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Novel
Stirling engine concept for compact and high eff icient power productionJ.
Frauscher, Frauscher GmbH, St Marienkirchen, Austria, B.Thomas, Fachhochschule
Reutlingen, Germany,
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A
constant pressure reciprocating regenerative cycle engine
B. M. Mangaya, C.
J. Rallis, University of the Witwatersrand, Johannesburg, South Africa
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Performance
of a low temperature difference Stirling engine in reverse cycle operation
M. Takeuchi, S. Suzuki,
Suction Gas Engine MFG., Tokyo; S. lwamoto, Waseda University, F. Toda,
Utsunomiya University, Japan
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Towards
further development of the Low AT engines
S. Koscak-Kolin, University
of Zagreb, Croatia Investigation of a Stirling
process with phase transition
M.Löffier, Consulting
Löffier, Karlsruhe, Germany
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The
MC Stirling -a simple and unconventional design
H.Stierhof, Frankfurt,
Germany
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Development
of the Steam Rankine Stirling Engine (SRSE)
N.lsshiki, Tokyo Institute
of Technology; H. Kojima, Maeta lndustrial Co.; S.lsshiki, National Technical
College of Fukushima; 1. Ushiyama, Ashikaga Institute of Technology, Japan
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The
Stirling engine in micro cogeneration - some crucial application and market
issues
S. Kolin, Sigma Elektroteknisk
AS, Holen, Norway
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Experimental
study on 3-kW two-piston type Stirling engine
N.Kagawa, J. Nakamura,
H. Nakano, A. Matsuguchi, S.Tsuruno, National Defense Academy, Yokosuka,
Japan
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Tests
of a Near-Stirling cycle internal combustion engine
B. M. Mangaya, C.
J Rallis, University of Witwatersrand, Johannesburg, South Africa
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Experimental
and theoretical analysis of the Stirling-cycle cryocooler efficiency
A. K. de Jonge, Stirling
Cryogenics & Refrigeration BV, Eindhoven, The Netherlands
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Development
of a Stirling cooling unit for industrial use
H.Sekiya, T. Nakamura,
L Nakazaki, T. lnoue, T.Komatsubara, SANYO Electric Co., Gunma, Japan
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Study
of mechanical loss on a cylinder Cam Type Stirling cycle refrigerator
H.Sekitani, M. Ota,
Tokyo Metropolitan University,- T. Otaka, M.Sakamoto, Tokyo Metropolitan
College of Technology, Tokyo
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Study
of performance characteristics on a Stirling refrigerator as a household
machine
T.Otaka, M. Sakamoto,
Tokyo Metropolitan College of Technology, H.Sekitani, M. Ota, Tokyo Metropolitan
University, Tokyo, Japan
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Study
on the operating conditions of Orifice Type Pulse Tube refrigerator
M.Nohtomi, M. Katsuta,
Waseda University, Tokyo, Japan
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Results
of measurements taken from a SOLO 161 Stirling-Refrigerating machine
M.Mai, H. Schikora,
A. Siegel, F Steimle, University of Essen, Germany
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Micro
Co-generation with Bioenergy
H.Eckl, AK Stirtingmotor,
München, Germany
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The
Stirling chain reaction
K.Kübler, AK
Stirlingmotor, München, Germany
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Report
on the 3rd and 4th Stirling Techno Rally
N. Isshiki, Tokyo
Institute of Technology; M. Matsuo, Saitama University; M. Hirata, Shibaura
Institute of Technology; L Fujii, Meiji University, Japan
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