The selection of the cycle configuration, working fluid and operating parameters is crucial for the economic profitability of Organic Rankine Cycle systems using low to medium temperature heat sources. The aim of this paper is to show a method that improves this selection taking into account several criteria at a time: an original thermodynamic optimization procedure of the system configuration and design parameters which explores all possible configurations, the design options around the optimum values of the objective function, an economic modeling technique validated on real cost data, and the consideration of the off-design behavior. The method is applied to comparatively assess the performance of two working fluids, isobutane and R134a...
For zeotropic mixtures, the temperature varies during phase change, which is opposed to the isotherm...
The purpose of this work is to investigate the possibility of exploiting the low-temperature thermal...
AbstractTo improve the performances of the Organic Rankine cycle, several advanced cycle designs are...
The optimization of an organic Rankine cycle is a challenging task that cannot be tackled without th...
The organic Rankine cycle is a suitable technology for utilizing low grade heat for electricity prod...
We present a generic methodology for organic Rankine cycle optimization, where the working fluid is ...
In the thermodynamic optimization of Organic Rankine Cycles both thermal efficiency and heat recover...
The selection of the most suitable working fluid and cycle configuration for a given heat source is ...
The thermodynamic performance of a regenerative organic Rankine cycle that utilizes low temperature ...
The present work is focused on the thermodynamic optimization of Organic Rankine Cycles (ORCs) for p...
The aim of this paper is to conduct a generalised assessment of both optimal working fluids and radi...
Organic Rankine cycle power systems represent a viable and efficient solution for the exploitation o...
The selection of suitable working fluid for simple and recuperative organic Rankine cycle (ORC) oper...
Rankine Cycles are an effective and efficient way of producing power from low-medium temperature hea...
Among the different renewable sources of energy, solar power could play a primary role in the develo...
For zeotropic mixtures, the temperature varies during phase change, which is opposed to the isotherm...
The purpose of this work is to investigate the possibility of exploiting the low-temperature thermal...
AbstractTo improve the performances of the Organic Rankine cycle, several advanced cycle designs are...
The optimization of an organic Rankine cycle is a challenging task that cannot be tackled without th...
The organic Rankine cycle is a suitable technology for utilizing low grade heat for electricity prod...
We present a generic methodology for organic Rankine cycle optimization, where the working fluid is ...
In the thermodynamic optimization of Organic Rankine Cycles both thermal efficiency and heat recover...
The selection of the most suitable working fluid and cycle configuration for a given heat source is ...
The thermodynamic performance of a regenerative organic Rankine cycle that utilizes low temperature ...
The present work is focused on the thermodynamic optimization of Organic Rankine Cycles (ORCs) for p...
The aim of this paper is to conduct a generalised assessment of both optimal working fluids and radi...
Organic Rankine cycle power systems represent a viable and efficient solution for the exploitation o...
The selection of suitable working fluid for simple and recuperative organic Rankine cycle (ORC) oper...
Rankine Cycles are an effective and efficient way of producing power from low-medium temperature hea...
Among the different renewable sources of energy, solar power could play a primary role in the develo...
For zeotropic mixtures, the temperature varies during phase change, which is opposed to the isotherm...
The purpose of this work is to investigate the possibility of exploiting the low-temperature thermal...
AbstractTo improve the performances of the Organic Rankine cycle, several advanced cycle designs are...