Add to ORKGSupercritical Organic Rankine cycle (SRC) based power generation from geothermal heat is analysed to identify good working fluid from the list of various organic refrigerants. Also, the fluid either CFC or HCFC with zero ozone depletion potential is selected to make the process eco-friendly. The SRC uses source temperature 125-200ºC and sink temperature 10-20º. Performance analysis is done for various fluids regarding condensation pressure, thermal efficiency, and exergy efficiency. Thermal efficiency obtainable is 20%. Mixtures show efficiency remaining between constituent fluids
In the thermodynamic optimization of Organic Rankine Cycles both thermal efficiency and heat recover...
Power generation from low-temperature heat sources (80-300 degrees C) like thermal solar, geothermal...
Organic Rankine cycle (ORC) systems are increasingly being deployed for waste-heat recovery and conv...
Geothermal heat mining simulations using supercritical CO2 (sCO2) were performed in this research. W...
The selection of suitable working fluid for simple and recuperative organic Rankine cycle (ORC) oper...
Low grade heat sources have a large amount of thermal energy content. Due to low temperature, the co...
Low grade heat sources have a large amount of thermal energy content. Due to low temperature, the co...
In this paper, for the low-temperature geothermal organic Rankine (ORC) power generation system, the...
The world’s energy demand is still growing, partly due to the rising population, partly to increasin...
The performance analysis of a supercritical organic Rankine cycle system driven by exhaust heat usin...
International audienceThis paper presents the system efficiency optimization scenarios of basic and ...
Today process industry has to deal with a lot of waste heat. Very often this waste heat is dumped to...
Existing ORC power cycle system still tend to use refrigerant with relatively high global warming po...
Existing ORC power cycle system still tend to use refrigerant with relatively high global warming po...
Existing ORC power cycle system still tend to use refrigerant with relatively high global warming po...
In the thermodynamic optimization of Organic Rankine Cycles both thermal efficiency and heat recover...
Power generation from low-temperature heat sources (80-300 degrees C) like thermal solar, geothermal...
Organic Rankine cycle (ORC) systems are increasingly being deployed for waste-heat recovery and conv...
Geothermal heat mining simulations using supercritical CO2 (sCO2) were performed in this research. W...
The selection of suitable working fluid for simple and recuperative organic Rankine cycle (ORC) oper...
Low grade heat sources have a large amount of thermal energy content. Due to low temperature, the co...
Low grade heat sources have a large amount of thermal energy content. Due to low temperature, the co...
In this paper, for the low-temperature geothermal organic Rankine (ORC) power generation system, the...
The world’s energy demand is still growing, partly due to the rising population, partly to increasin...
The performance analysis of a supercritical organic Rankine cycle system driven by exhaust heat usin...
International audienceThis paper presents the system efficiency optimization scenarios of basic and ...
Today process industry has to deal with a lot of waste heat. Very often this waste heat is dumped to...
Existing ORC power cycle system still tend to use refrigerant with relatively high global warming po...
Existing ORC power cycle system still tend to use refrigerant with relatively high global warming po...
Existing ORC power cycle system still tend to use refrigerant with relatively high global warming po...
In the thermodynamic optimization of Organic Rankine Cycles both thermal efficiency and heat recover...
Power generation from low-temperature heat sources (80-300 degrees C) like thermal solar, geothermal...
Organic Rankine cycle (ORC) systems are increasingly being deployed for waste-heat recovery and conv...