Add to ORKGThe evaporation temperature is regarded as one of the major parameters influencing the organic Rankine cycle (ORC) efficiency. Majority of contributions in literature for ORC cycle analyses treat the heat source as if it had an infinite heat capacity. Such analyses are not valuable as the resulting temperature drops of the heat source needs to be small. That leads to the fact that the heat source is not well explored and in the case of waste heat utilization it can prove the poor economics of the ORC. In the present study cooperation of the ORC cycle with the heat source available as a single phase or phase changing fluids is considered. The analytical heat balance models have been developed, which enable in a simple way calculation of heat...
Organic Rankine cycles (ORC) are a well proven technology in the waste heat recovery market. The con...
Many industrial sectors and applications are characterized by the availability of low enthalpy therm...
The present work is devoted to the problem of utilization of the waste heat contained in the exhaust...
The evaporation temperature is regarded as one of the major parameters influencing the organic Ranki...
The first and the second law analyses of a 20 kWeR245fa organic Rankine cycle (ORC) with low grade t...
Low-grade heat from renewable or waste energy sources can be effectively recovered to generate po...
Organic Rankine cycles (ORC) are an effective way to convert low-medium temperature heat to electric...
The use of waste heat in many branches of industry is limited due to temperature in the range of 30 ...
The energetic and exergetic performance of an updated ORC (organic Rankine cycle) is investigated. T...
New energy conversion technologies are required in order to ensure the production of electricity wit...
Low-grade heat recovery from solar or geothermal energy may be an eco-friendly resource for electric...
Some considerations on the waste heat treatment, heat and power combined generation and principles o...
International audienceThe valorization of low-temperature waste heat ( 50°C), the optimal evaporatio...
© 2016 Elsevier Ltd An indicator, namely equivalent hot side temperature (TEHST) is proposed for the...
Numerical models of a standard organic Rankine cycle (ORC) system and the heat exchangers comprising...
Organic Rankine cycles (ORC) are a well proven technology in the waste heat recovery market. The con...
Many industrial sectors and applications are characterized by the availability of low enthalpy therm...
The present work is devoted to the problem of utilization of the waste heat contained in the exhaust...
The evaporation temperature is regarded as one of the major parameters influencing the organic Ranki...
The first and the second law analyses of a 20 kWeR245fa organic Rankine cycle (ORC) with low grade t...
Low-grade heat from renewable or waste energy sources can be effectively recovered to generate po...
Organic Rankine cycles (ORC) are an effective way to convert low-medium temperature heat to electric...
The use of waste heat in many branches of industry is limited due to temperature in the range of 30 ...
The energetic and exergetic performance of an updated ORC (organic Rankine cycle) is investigated. T...
New energy conversion technologies are required in order to ensure the production of electricity wit...
Low-grade heat recovery from solar or geothermal energy may be an eco-friendly resource for electric...
Some considerations on the waste heat treatment, heat and power combined generation and principles o...
International audienceThe valorization of low-temperature waste heat ( 50°C), the optimal evaporatio...
© 2016 Elsevier Ltd An indicator, namely equivalent hot side temperature (TEHST) is proposed for the...
Numerical models of a standard organic Rankine cycle (ORC) system and the heat exchangers comprising...
Organic Rankine cycles (ORC) are a well proven technology in the waste heat recovery market. The con...
Many industrial sectors and applications are characterized by the availability of low enthalpy therm...
The present work is devoted to the problem of utilization of the waste heat contained in the exhaust...