Rankine-cycle systems for harnessing power from low-grade energy sources

Barber, 1974, Potential of Rankine engines to produce power from waste-heat streams, 508 Barber, 1978, Current costs of solar-powered organic Rankine-cycle engines, Solar Energy, 20, 1, 10.1016/0038-092X(78)90133-0 Palmer, 1978, Selection of a Rankine-cycle fluid for recovery of work from heat at moderate temperature, 1500 Ray, 1966, Fluorochemicals as working fluids for small Rankine-cycle power units, Adv. Energy Conversion, 6, 89, 10.1016/0365-1789(66)90003-8 Luchter, 1967, A qualitative method of screening working fluids for Rankine-cycle power plants, ASME paper 67-GT-12 Stoddart, 1968, Waste-heat recovery by the use of low boiling-point liquids, Process Eng., 5 Wood, 1969, Alternative fluids for power generation, 184, 713 Niggemann, 1978, Fluid selection and optimisation of an organic Rankine-cycle waste-heat power-conversion system, ASME paper 78-WA/Entr-6 Wali, 1980, Optimal working fluids for solar-powered Rankine-cycle cooling of buildings, Solar Energy, 25, 235, 10.1016/0038-092X(80)90330-8 Curran, 1981, Use of organic working fluids in Rankine engines, J. Energy, 5, 218, 10.2514/3.62532 Badr, 1985, Selecting a working fluid for a Rankine-cycle engine, Appl. Energy, 21, 1, 10.1016/0306-2619(85)90072-8 Martin, 1959, Correlations and equations used in calculating the thermodynamic properties of freon refrigerants Downing, 1974, Refrigerant equations, ASHRAE Trans., 80, 158 Badr, 1985, Thermodynamic and thermophysical properties of organic working fluids for Rankine-cycle engines, Appl. Energy, 19, 1, 10.1016/0306-2619(85)90037-6 Hartree, 1952, Numerical Analysis, 194 1965 Badr, 1984, Multi-vane expanders as prime movers for low-grade energy organic Rankine-cycle engines, Appl. Energy, 16, 129, 10.1016/0306-2619(84)90060-6