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MECHANICAL ENGINEERING – The Organic Rankine Cycle: Thermodynamics, Applications and Optimization – Sylvain Quoilin and Vincent Lemort Freymann, R., W. Strobl and A. Obieglo. (2008). The Turbosteamer: A System Introducing the Principle of Cogeneration in Automotive Applications. MTZ 05/2008 Vol 69: 20-27. [Description of the Turbosteamer: a system converting the exhaust gases residual energy into useful work on vehicles]. Hettiarachchia, H.D.M, M. Golubovica, and W.M. Worek (2007). Optimum design criteria for an Organic Rankine cycle using low-temperature geothermal heat sources. Energy 32:9, 1698-1706. [Another working fluid study for low-temperature power generation using Organic Rankine Cycles]. Karytsas C., Mendrinos D. (2006). Efficient Low Temperature Geothermal Binary Power – Low-Bin Project, http://www.lowbin.eu/documentation.php. [Powerpoint presentation: potential for geothermal energy in different European countries and for different temperature ranges]. Kranz S. (2007). Market Survey – Germany, Low-Bin project, http://www.lowbin.eu/documentation.php. [Powerpoint presentation: potential for very low geothermal energy in Germany and related investment costs]. Lemort, V., C. Cuevas, J. Lebrun, and I.V. Teodorese. (2007). Contribution à l'étude des cycles de Rankine de récupération de chaleur, VIIIème Colloque Interuniversitaire Franco-Québécois sur la Thermique des Systèmes, Montréal, Canada [Another working fluid study for low-temperature power generation using Organic Rankine Cycles]. Leizerovich, A.S. (2008). Steam turbines for modern fossil-fuel power plants, Taylor & Francis/CRC Press, Lilburn, GA Boca Raton, FL. [This book describes and evaluates the most important new design and operational improvement opportunities for the full spectrum of today's steam turbines – from the newest and most advanced to the more common existing systems]. Moran, M.J., Shapiro, H.N. (2004). Fundamentals of engineering thermodynamics, 5. ed, internat. ed., Wiley, Hoboken, NJ. [One of the major books of reference in the field of thermodynamics engineering, with the description of the most common thermodynamic cycles, and an excellent introduction to exergy analysis]. Liu, B.-T., K.-H. Chien, C.-C. Wang (2004). Effect of working fluids on organic Rankine cycle for waste heat recovery, Energy 29, 1207-1217. [Another working fluid study for low-temperature power generation using Organic Rankine Cycles]. Mago, P.J., Chamra, L.M., Srinivasan, K., Somayaji, C. (2008). An examination of regenerative organic Rankine cycles using dry fluids, Applied Thermal Engineering 28, 998-1007. [A second law analysis of regenerative and non-regenerative ORCs for waste heat recovery using different working fluids]. Maizza, V., and A. Maizza (2001). Unconventional working fluids in organic Rankine-cycles for waste energy recovery systems. Applied Thermal Engineering 21, 381-390 [Another working fluid study for low-temperature power generation using Organic Rankine Cycles]. Mikielewicz, D., Mikielewicz, J. (2010). A thermodynamic criterion for selection of working fluid for subcritical and supercritical domestic micro CHP, Applied Thermal Engineering 30, 2357-2362. [Working fluid study for both subcritical and supercritical ORC operation]. Monahan J., M.R. (1976). Development of a 1-kW, Organic Rankine Cycle Power Plant for remote applications, in Intersociety Energy Conversion Engineeing Conference, New York. [Early work on the development of a solar ORC using volumetric expander]. Oomori H., Ogino S. (1993). Waste heat recovery of passenger car using a combination of Rankine bottoming cycle and evaporative engine cooling system. Society of Automotive Engineers (SAE) 930880: 159– 164. [Waste heat recovery on the exhaust gases and on the cooling loop of an internal combustion engine]. Orosz, M.S., Quoilin, S., Hemond, H. (2010). SORCE: A Design Tool for Solar Organic Rankine Cycle Systems in Distributed Generation Applications, in International scientific conference on solar heating, cooling and buildings. [Development of an open-source simulation tool for the sizing, the component selection, and the performance prediction of a small-scale solar ORC]. Owen B. and Ernst W (2005). Clean Energy Technologies: A Preliminary Inventory of the Potential for Electricity Generation (Report No. LBNL-57451). Berkeley, CA [Inventory of potential energy sources for clean power generation in the US]. ©Encyclopedia of Life Support Systems (EOLSS) UNESCO – EOLSS SAMPLE CHAPTERSPDF Image | The Organic Rankine Cycle
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