With the increasing use of twin screw expanders in waste heat recovery applications, the performance prediction of these machines plays an important role. This paper presents a mathematical model for calculating the performance of a twin screw expander. From the mass and energy conservation laws, differential equations are derived which are then solved together with the appropriate Equation of State in the instantaneous control volumes. Different flow processes that occur inside the screw expander such as filling (accompanied by a substantial pressure loss) and leakage flows through the clearances are accounted for in the model. The mathematical model employs all geometrical parameters such as chamber volume, suction and leakage areas. With...
This paper presents numerical investigations of a twin-screw expander for low grade (≤100°C) heat to...
With the increase in energy prices and environmental constraints, recovering the energy from low gra...
Positive displacement expanders are widely investigated and theirs models commonly use the REFPROP d...
With the increasing use of twin screw expanders in waste heat recovery applications, the performance...
A twin screw expander is a positive displacement machine used in various applications of waste heat ...
With the increase in energy prices and environmental constraints, recovering the energy from low gra...
Small scale Organic Rankine Cycle (ORC) systems have a big potential for waste heat recovery in the ...
Positive displacement machines have been identified as appropriate expanders for small-scale power g...
Organic Rankine cycle (ORC) is widely recognized as a viable technology to convert low temperature h...
Positive displacement machines have been identified as appropriate expanders for small scale power g...
With the increasing importance of minimizing primary energy usage and complying with emission restri...
A twin screw expander’s working chamber can be modelled in detail using 3D CFD and for a given opera...
The institutional support of the Department of Mechanics is gratefully acknowledged
AbstractThe constantly rising energy demand and the depletion of fossil fuel resources currently rep...
The numerical simulation of rotary positive displacement (PD) machines has proven to be a very chall...
This paper presents numerical investigations of a twin-screw expander for low grade (≤100°C) heat to...
With the increase in energy prices and environmental constraints, recovering the energy from low gra...
Positive displacement expanders are widely investigated and theirs models commonly use the REFPROP d...
With the increasing use of twin screw expanders in waste heat recovery applications, the performance...
A twin screw expander is a positive displacement machine used in various applications of waste heat ...
With the increase in energy prices and environmental constraints, recovering the energy from low gra...
Small scale Organic Rankine Cycle (ORC) systems have a big potential for waste heat recovery in the ...
Positive displacement machines have been identified as appropriate expanders for small-scale power g...
Organic Rankine cycle (ORC) is widely recognized as a viable technology to convert low temperature h...
Positive displacement machines have been identified as appropriate expanders for small scale power g...
With the increasing importance of minimizing primary energy usage and complying with emission restri...
A twin screw expander’s working chamber can be modelled in detail using 3D CFD and for a given opera...
The institutional support of the Department of Mechanics is gratefully acknowledged
AbstractThe constantly rising energy demand and the depletion of fossil fuel resources currently rep...
The numerical simulation of rotary positive displacement (PD) machines has proven to be a very chall...
This paper presents numerical investigations of a twin-screw expander for low grade (≤100°C) heat to...
With the increase in energy prices and environmental constraints, recovering the energy from low gra...
Positive displacement expanders are widely investigated and theirs models commonly use the REFPROP d...