This study analyzed the variation law of engine exhaust energy under various operating conditions to improve the thermal efficiency and fuel economy of diesel engines. An organic Rankine cycle (ORC) waste heat recovery system with internal heat exchanger (IHE) was designed to recover waste heat from the diesel engine exhaust. The zeotropic mixture R416A was used as the working fluid for the ORC. Three evaluation indexes were presented as follows: waste heat recovery efficiency (WHRE), engine thermal efficiency increasing ratio (ETEIR), and output energy density of working fluid (OEDWF). In terms of various operating conditions of the diesel engine, this study investigated the variation tendencies of the running performances of the ORC waste...
The Organic Rankine Cycle (ORC) has been proved a promising technique to exploit waste heat from Int...
A novel transcritical cascade-Organic Rankine Cycle (C-ORC) system was proposed to recover multi-gra...
Modern heavy duty diesel engines can well extend the goal of 50% brake thermal efficiency by utilizi...
One way to increase the thermal efficiency of vehicle diesel engines is to recover waste heat by usi...
The Organic Rankine Cycle (ORC) is regarded as a suitable way to recover waste heat from gaseous fue...
ORC has gained attraction in diesel engines due to its outstanding capability in improving thermal e...
In this study the influence of utilization of two Waste Heat Recovery (WHR) strategies, namely organ...
Recovering waste heat is one of the solutions found to lessen the emission and fuel consumption. Was...
Thermodynamic power cycles have been shown to provide an excellent method for waste heat recovery (W...
The internal combustion engine is used daily for transportation and energy production beside their l...
Waste heat recovery can be a key solution for improving the efficiency of energy conversion systems....
Increasing fuel prices and stringent emission regulations are forcing improvements in the performanc...
The Organic Rankine Cycle (ORC) is regarded as one of the most promising waste heat recovery technol...
This work assesses the possibility of fitting an Organic Rankine Cycle (ORC) system in a commercial ...
In the present study, the effects of Organic Rankine Cycle (ORC) and Turbocompound (T/C) system inte...
The Organic Rankine Cycle (ORC) has been proved a promising technique to exploit waste heat from Int...
A novel transcritical cascade-Organic Rankine Cycle (C-ORC) system was proposed to recover multi-gra...
Modern heavy duty diesel engines can well extend the goal of 50% brake thermal efficiency by utilizi...
One way to increase the thermal efficiency of vehicle diesel engines is to recover waste heat by usi...
The Organic Rankine Cycle (ORC) is regarded as a suitable way to recover waste heat from gaseous fue...
ORC has gained attraction in diesel engines due to its outstanding capability in improving thermal e...
In this study the influence of utilization of two Waste Heat Recovery (WHR) strategies, namely organ...
Recovering waste heat is one of the solutions found to lessen the emission and fuel consumption. Was...
Thermodynamic power cycles have been shown to provide an excellent method for waste heat recovery (W...
The internal combustion engine is used daily for transportation and energy production beside their l...
Waste heat recovery can be a key solution for improving the efficiency of energy conversion systems....
Increasing fuel prices and stringent emission regulations are forcing improvements in the performanc...
The Organic Rankine Cycle (ORC) is regarded as one of the most promising waste heat recovery technol...
This work assesses the possibility of fitting an Organic Rankine Cycle (ORC) system in a commercial ...
In the present study, the effects of Organic Rankine Cycle (ORC) and Turbocompound (T/C) system inte...
The Organic Rankine Cycle (ORC) has been proved a promising technique to exploit waste heat from Int...
A novel transcritical cascade-Organic Rankine Cycle (C-ORC) system was proposed to recover multi-gra...
Modern heavy duty diesel engines can well extend the goal of 50% brake thermal efficiency by utilizi...