Add to ORKGThis study applies three methods for design of Rankine cycles utilizing waste heat in the oil and gas industry. The methods differ in the level of detail of heat exchanger model applied and in the flexibility with respect to heat exchanger design. All the methods involve formulating a constrained optimization problem with the objective of maximizing net power output, but vary in the constraints related to limit the size of the heat exchangers. The cycles with using two working fluids, n-butane and a n-butane/n-pentane mixture (30%/70%), are compared for each method. The methods yield different results; both the maximized net power output and the best-performing working fluid differ with respect to the method used, emphasizing the importance...
Organic Rankine cycles (ORC) are considered a mature technology in waste heat recovery applications....
Power cycles using alternative working fluids are currently receiving significant attention. Selecti...
Includes bibliographical references (pages 72-76)Energy conservation will allow the earth's limited\...
This study applies three methods for design of Rankine cycles utilizing waste heat in the oil and ga...
Rankine Cycles are an effective and efficient way of producing power from low-medium temperature hea...
Rankine Cycles are an effective and efficient manner to convert waste thermal energy into power. Num...
Using organic Rankine cycles to produce power from low temperature heat sources seems like a promisi...
This paper aims at finding the optimal design of MW-size organic Rankine cycles by employing the mul...
The organic Rankine cycle is a suitable technology for utilizing low grade heat for electricity prod...
The present work is focused on the thermodynamic optimization of Organic Rankine Cycles (ORCs) for p...
The present paper focuses both on the thermodynamic and on the economic optimization of a small scal...
An important objective in combustion engine research is to develop strategies for recovering waste h...
Heat recovery heat exchangers for heat-to-power conversion from metallurgical off-gas should have a ...
In industrial processes, a significant amount of waste heat is produced. However, most of the low-gr...
The optimization of an organic Rankine cycle is a challenging task that cannot be tackled without th...
Organic Rankine cycles (ORC) are considered a mature technology in waste heat recovery applications....
Power cycles using alternative working fluids are currently receiving significant attention. Selecti...
Includes bibliographical references (pages 72-76)Energy conservation will allow the earth's limited\...
This study applies three methods for design of Rankine cycles utilizing waste heat in the oil and ga...
Rankine Cycles are an effective and efficient way of producing power from low-medium temperature hea...
Rankine Cycles are an effective and efficient manner to convert waste thermal energy into power. Num...
Using organic Rankine cycles to produce power from low temperature heat sources seems like a promisi...
This paper aims at finding the optimal design of MW-size organic Rankine cycles by employing the mul...
The organic Rankine cycle is a suitable technology for utilizing low grade heat for electricity prod...
The present work is focused on the thermodynamic optimization of Organic Rankine Cycles (ORCs) for p...
The present paper focuses both on the thermodynamic and on the economic optimization of a small scal...
An important objective in combustion engine research is to develop strategies for recovering waste h...
Heat recovery heat exchangers for heat-to-power conversion from metallurgical off-gas should have a ...
In industrial processes, a significant amount of waste heat is produced. However, most of the low-gr...
The optimization of an organic Rankine cycle is a challenging task that cannot be tackled without th...
Organic Rankine cycles (ORC) are considered a mature technology in waste heat recovery applications....
Power cycles using alternative working fluids are currently receiving significant attention. Selecti...
Includes bibliographical references (pages 72-76)Energy conservation will allow the earth's limited\...