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REFERENCES 127 Quoilin S., Declaye S., Tchanche B.F., and Lemort V. (2011). Thermo-economic optimization of waste heat recovery Organic Rankine Cycles. Applied Thermal Engineering, 31(14), pp. 2885-2893. Rinaldi E., Buonocore A., Pecnik R., and Colonna P. (2013). Inviscid stator/rotor interaction of a single stage high expansion ratio ORC turbine. ASME ORC 2013: 2nd International Seminar on ORC Power Systems. Rotterdam, The Netherlands, 7-8 October 2013. Roe P.L. (1981). Approximate Riemann solvers, parameter vectors, and differ- ence schemes. Journal of Computational Physics, 43(2), pp. 357-372. Rohlik H. (1975). Radial Inflow Turbines, Chapter 10 in Glassman A. J., Tur- bine Design and Application: Volume 1-3. NASA SP-290, 388 pages. Saleh B., Koglbauer G., Wendland M., and Fischer J. (2007). Working fluids for low-temperature organic Rankine cycles. Energy, 32(7), pp. 1210-1221. Sauer R. (1947). General characteristics of the flow through nozzles at near crit- ical speeds. TM 1147, NACA. Schuster A., Karellas S., Kakaras E., and Spliethoff H. (2009). Energetic and economic investigation of Organic Rankine Cycle applications. Applied Thermal Engineering, 29(8-9), pp. 1809-1817. Schuster A., Karellas S., and Aumann R. (2010). Efficiency optimization poten- tial in supercritical Organic Rankine Cycles. Energy, 35(2), pp. 1033-1039. Seher D., Lengenfelder T., Gerhardt J., Eisenmenger N., Hackner M., and Krinn I. (2012). Waste Heat Recovery for Commercial Vehicles with a Rankine Process. In 21st Aachen Colloquium Automobile and Engine Technology, Aachen, Germany, 7-9 October 2012. Siikonen T. (1995). An Application of Roe’s Flux-Difference Splitting for the k- ε Turbulence Model. International Journal for Numerical Methods in Fluids, 21, pp. 1017-1039. Span R. and Wagner W. (2003). Equations of State for Technical Applications. II. Results for Nonpolar Fluids. International Journal of Thermophysics, 24(1), pp. 41-109. Sprouse III C. and Depcik C. (2013). Review of organic Rankine cycles for in- ternal combustion engine exhaust waste heat recovery. Applied Thermal Engineering, 51(1-2), pp. 711-722.PDF Image | WORKING FLUID SELECTION AND DESIGN OF SMALL-SCALE WASTE HEAT RECOVERY SYSTEMS BASED ON ORGANIC RANKINE CYCLES
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