Add to ORKGLow grade thermal energy with low temperatures of up to 150° C occurs e.g. as waste heat or waste steam in industry, or in in renewable energy systems such as solar thermal collectors or geothermal systems. The cost-effective utilisation of such low-grade thermal energy still constitutes an engineering challenge. Existing technology such as Organic Rankine Cycle systems is complex, and only cost-effective for power ratings of 500 kW and more. At Southampton University, the condensing steam cycle, which has an operating temperature of 100C and was originally proposed by James Watt in 1782, was re-examined. The theoretical efficiency at 100°C ranges from 0.064 for a simple condensing engine to 0.174 for a steam expansion ratio of 1:8. A 30 Wa...
The purpose of this design project is to evaluate the feasibility of power recovery from a lowgrade ...
thermodynamic efficiency The first low-temperature difference Stirling engine was presented at the I...
An innovative solar thermal power generation system using cascade steam-organic Rankine cycle (SORC)...
Low grade thermal energy with low temperatures of up to 150° C occurs e.g. as waste heat or waste st...
The cost-effective utilisation of low-grade thermal energy with temperatures below 150 C for electri...
The re-use of low-grade waste heat has the potential to contribute significantly to a better energy ...
Low and medium temperature thermal energy with temperatures of 100°–150 °C is available from renewab...
The conservation of energy by its recovery from low temperature waste heat is of increasing importan...
The fuel price increase and severe environmental regulations determine energy-saving importance. Use...
Rankine cycles for low to medium power and low temperature heat using water as working fluid, were a...
Recently, new environment-friendly energy conversion technologies are required for using energy reso...
The implementation of industrial heat pumps utilizing waste water from various industrial processes ...
Global energy consumption is continually increasing, and intelligent energy supply is a critical con...
A presentation of the design of the Organic Rankine Cycle (ORC) with heat regeneration and super-hea...
Abstract: Effective utilization of low-grade steam in a Rankine cycle power plant is one of the chal...
The purpose of this design project is to evaluate the feasibility of power recovery from a lowgrade ...
thermodynamic efficiency The first low-temperature difference Stirling engine was presented at the I...
An innovative solar thermal power generation system using cascade steam-organic Rankine cycle (SORC)...
Low grade thermal energy with low temperatures of up to 150° C occurs e.g. as waste heat or waste st...
The cost-effective utilisation of low-grade thermal energy with temperatures below 150 C for electri...
The re-use of low-grade waste heat has the potential to contribute significantly to a better energy ...
Low and medium temperature thermal energy with temperatures of 100°–150 °C is available from renewab...
The conservation of energy by its recovery from low temperature waste heat is of increasing importan...
The fuel price increase and severe environmental regulations determine energy-saving importance. Use...
Rankine cycles for low to medium power and low temperature heat using water as working fluid, were a...
Recently, new environment-friendly energy conversion technologies are required for using energy reso...
The implementation of industrial heat pumps utilizing waste water from various industrial processes ...
Global energy consumption is continually increasing, and intelligent energy supply is a critical con...
A presentation of the design of the Organic Rankine Cycle (ORC) with heat regeneration and super-hea...
Abstract: Effective utilization of low-grade steam in a Rankine cycle power plant is one of the chal...
The purpose of this design project is to evaluate the feasibility of power recovery from a lowgrade ...
thermodynamic efficiency The first low-temperature difference Stirling engine was presented at the I...
An innovative solar thermal power generation system using cascade steam-organic Rankine cycle (SORC)...