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Design analysis of turbines for co-generating micro-power plant working in accordance with organic Rankine’s cycle

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This paper presents results of a design analysis of turbines for co-generating micro-power plant working in accordance with organic Rankine’s cycle and using biofuel. The heat power range from 25 kW to 100 kW with corresponding available electric power from 2kW to 12kW, was considered. Designs of axial-flow turbines (single-stage and multi-stage ones, also those partially fed), radial-flow and axial-radial -flow ones, were analyzed. Particular variants of the solutions were compared to each other.
Rocznik
Tom
S 1
Strony
34--38
Opis fizyczny
Bibliogr. 27 poz., rys., tab.
Twórcy
Bibliografia
  • 1. Campanari S., Boncompagni L., Macchi E.: „Microturbines and Trigeneration: Optimization Strategies and Multiple Engine Configuration Effects”.Journal of Engineering for Gas Turbines and Power, Vol. 126, JANUARY 2004
  • 2. Campanari S., Macchi E.: „Technical and Tariff Scenarios Effect on Microturbine Trigenerative Applications”. Journal of Engineering for Gas Turbines and Power, Vol. 126, January 2004
  • 3. Colombo L. P. M., Armanasco F., Perego O.: „Experimentation on a Cogenerative System Based on a Microturbine”. Applied Thermal Engineering 27, 2007
  • 4. Duvia A., Gaia M.: „ORC Plants for Power Production from Biomas from 0.4MWe to 1.5MWe: Technology, Efficiency, Practical Experiences and Economy”.7th Holzenergie Synopsium, Zurich 2002
  • 5. Duvia A., Tavolo S.: „Application of ORC Units in the Pellet Production Field: Technical-Economic Considerations and Overview of the Operational Results of an ORC Plant in the Industry Installed in Mudau (Germany)” 7th Holzenergie Synopsium, Zurich 2002
  • 6. Fréchette Luc G., Stuart A. Jacobson, Kenneth S. Breuer1, Fredric F. Ehrich, Reza Ghodssi2, Ravi Khanna, Chee Wei Wong, Xin Zhang, Martin A. Schmidt and Alan H. Epstein: „Demonstration of a Microfabricated High-Speed Turbine Supported on Gas Bearings”. Solid-State Sensor and Actuator Workshop, Hilton Head Is., SC, June 4-8, 2000
  • 7. Fréchette L. G., Lee C., Arslan S. Yuan-Chun Liu: „Preliminary Design of a MEMS Steam Turbine Power Plant on a Chip”. 3rd Workshop on Micro & Nano Tech. for Power Generation & Energy Conv. (PowerMEMS’03), Makuhari, Japan, 4-5 Dec. 2003
  • 8. Fréchette L. G., Lee C., Arslan S.: „Development of a MEMS-Based Rankine Cycle Steam Turbine For Power Generation”. 4th Workshop on Micro and Nano Technology for Power Gene. & Energy Conv. Apps (Power MEMS’04), Kyoto, Japan, pp. 92-95, Nov. 28-30, 2004
  • 9. Gailfuß M.: „Private meets Public – Small scale CHP”. Technological Developments, Workshop BHKW-Infozentrum Rastatt 09.09.2003, Berlin, 2003
  • 10. Haught D.: „Final ATS Annual Program Review Meeting”. Clean Energy for 21st Century, Alexandria, VA, December 4-6, 2000
  • 11. Hedman B. A.: „The Potential for Combined Heat and Power (CHP)”. An Underserved Market for Combined Heat and Power, Energy and Environmental Analysis, Inc., September 19, 2005
  • 12. Ho J.C., Chua K.J., Chou S.K.: „Performance study of a microturbine system for cogeneration application”. Renewable Energy 29, 2004
  • 13. Horlock J. H.: „Advanced Gas Turbine Cycles”. An imprint of Elsevier Science, Amsterdam, Boston, Heidelberg, London, New York, Oxford, Paris, San Diego, San Francisco, Singapore, Sydney, Tokyo, 2003
  • 14. Hoval: Close-ups: „Visions become reality” (in Polish). Information for clients and co-workers of Hoval Group, July 2004
  • 15. Infinity Turbine LLC, phone (608) 238-6001, November 7, 2008
  • 16. Logan Earl, Jr. Roy R.: „Handbook of Turbomachinery”. Second Edition, Arizona State University, Marcel Dekker Inc., New York, Basel, 2003
  • 17. McMahan A. C., Klein S. A., Reindl D. T.: „Design and Optimization of Parabolic Trough Organic Rankine Cycle Powerplants”. University of Wisconsin – Madison Solar Energy Laboratory July 12, 2006
  • 18. Mills D.: „Advances in solar thermal electricity technology”.Solar Energy 76, 2004
  • 19. Nexus Energy Group: „Catalogue of CHP Technologies”. Introduction to CHP Catalogue of Technologies, U.S. Environmental Protection Agency Combined Heat and Power Partnership, Arlington, Virginia, 2002
  • 20. ONSITE SYCOM: „Review of Combined Heat and Power Technologies”. Office of Industrial Technologies, Office of Energy Efficiency and Renewable Energy, U.S. Department of Energy, October 1999
  • 21. Riffat S. B., Zhao X.: „A Novel Hybrid Heat Pipe Solar Collector/CHP System”. Project no. ENK5-CT-2001-20544, Thematic Network on Combined Heat and Power, United Kingdom, 2004
  • 22. Rosfjord T., Tredway W., Chen A., Mulugeta J., Bhatia T.: „Advanced Microturbine Systems”. Final Report for Tasks 1 Through 4 and Task 6, Report Number DOE/CH/11060-1 prepared for The U.S. Department of Energy, Office of Distributed Energy, 2007
  • 23. Simader G. R., Krawinkler R., Trnka G.: „Micro CHP systems: stateof- the-art”. Deliverable 8 (D8) of Green Lodges Project, EIE/04/252/ S07.38608, Vienna 2006
  • 24. Spentzas S.: „Optimization of a Cogeneration System in the Automotive Industry”. SAE 2006 World Congress, 2006
  • 25. Staunton R. H., Ozpineci B.: „ Microturbine Power Conversion Technology Review”. OAK Ridge National Laboratory, ORNL/TM- 2003/74, April 8, 2003
  • 26. Turboden Company Profile: „Organic Rankine Cycle (ORC) concept”. University of Wisconsin – Madison Solar Energy Laboratory July 12, 2006, 101;
  • 27. Wolf Jonas et al.: „Micro and Small Scale CHP from Biomass (<300kWe)”. Technology Paper 2, OPET RES-e – NNE5/37/2002, Networks Put You in Touch with Innovative Energy Technologies, April 2004.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BWM4-0028-0054
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