Organic Rankine Cycle (ORC) power plants are characterized by high efficiency and flexibility, as a result of a high degree of maturity. These systems are particularly suited for recovering energy from low temperature heat sources, such as exhaust heat from other plants. Despite ORCs having been assumed to be appropriate for stationary power plants, since their layout, size and weight constraints are less stringent, they represent a possible solution for improving the efficiency of propulsion systems for road transportation. The present paper investigates an ORC system recovering heat from the exhaust gases of an internal combustion engine. A passenger car with a Diesel engine was tested over a Real Driving Emission (RDE) cycle. During the ...
The internal combustion engine is used daily for transportation and energy production beside their l...
This paper investigates the waste heat recovery potential of internal combustion engines, using orga...
DOI: 10.1007/978-3-319-27276-4\₁4International audienceIn this article the effect of waste heat reco...
Organic Rankine Cycles (ORC) are very efficient and flexible conversion systems with a high degree o...
Waste heat recovery can be a key solution for improving the efficiency of energy conversion systems....
In the last years, the research effort of the automotive industry has been mainly focused on the red...
One way to increase the thermal efficiency of vehicle diesel engines is to recover waste heat by usi...
ORC has gained attraction in diesel engines due to its outstanding capability in improving thermal e...
The exhaust heat of energy conversion systems can be usefully recovered by Organic Rankine Cycles (O...
In internal combustion engines, only a part of the fuel energy flow is transformed into power availab...
Waste heat to power conversion using Organic Rankine Cycles (ORC) is expected to play an important r...
This work assesses the possibility of fitting an Organic Rankine Cycle (ORC) system in a commercial ...
Increasing fuel prices and stringent emission regulations are forcing improvements in the performanc...
Heavy Duty Diesel Engines (HDDE) are widely used as commercial vehicles and ship propulsion units an...
This work is part of a study aiming to achieve high efficiency and low emissions in a marine propuls...
The internal combustion engine is used daily for transportation and energy production beside their l...
This paper investigates the waste heat recovery potential of internal combustion engines, using orga...
DOI: 10.1007/978-3-319-27276-4\₁4International audienceIn this article the effect of waste heat reco...
Organic Rankine Cycles (ORC) are very efficient and flexible conversion systems with a high degree o...
Waste heat recovery can be a key solution for improving the efficiency of energy conversion systems....
In the last years, the research effort of the automotive industry has been mainly focused on the red...
One way to increase the thermal efficiency of vehicle diesel engines is to recover waste heat by usi...
ORC has gained attraction in diesel engines due to its outstanding capability in improving thermal e...
The exhaust heat of energy conversion systems can be usefully recovered by Organic Rankine Cycles (O...
In internal combustion engines, only a part of the fuel energy flow is transformed into power availab...
Waste heat to power conversion using Organic Rankine Cycles (ORC) is expected to play an important r...
This work assesses the possibility of fitting an Organic Rankine Cycle (ORC) system in a commercial ...
Increasing fuel prices and stringent emission regulations are forcing improvements in the performanc...
Heavy Duty Diesel Engines (HDDE) are widely used as commercial vehicles and ship propulsion units an...
This work is part of a study aiming to achieve high efficiency and low emissions in a marine propuls...
The internal combustion engine is used daily for transportation and energy production beside their l...
This paper investigates the waste heat recovery potential of internal combustion engines, using orga...
DOI: 10.1007/978-3-319-27276-4\₁4International audienceIn this article the effect of waste heat reco...