Road transportation is currently one of the most influencing sectors for global energy consumptions and CO2 emissions. Nevertheless, more than one third of the fuel energy supplied to internal combustion engines is still rejected to the environment as thermal waste at the exhaust. Therefore, a greater fuel economy might be achieved recovering the energy from exhaust gases and converting it into useful power on board. In the current research activity, an ORC-based energy recovery system was developed and coupled with a diesel engine. The innovative feature of the recovery power unit relies upon the usage of sliding vane rotary machines as pump and expander. After a preliminary exhaust gas mapping, which allowed to assess the magnitude of t...
This paper investigates the waste heat recovery potential of internal combustion engines, using orga...
Although state-of-the-art, heavy duty diesel engines of today can reach peak thermal efficiencies of...
Waste heat recovery can be a key solution for improving the efficiency of energy conversion systems...
This paper reports the design and investigation of a small scale Organic Rankine cycle using a targe...
© 2018 The Authors. The purpose of this work is to experimentally evaluate the effect on fuel effici...
Organic Rankine Cycles (ORC) are very efficient and flexible conversion systems with a high degree o...
In motor vehicles, an average of 60-70% of the overall fuel energy is dissipated primarily through t...
Increasing fuel prices and stringent emission regulations are forcing improvements in the performanc...
Organic Rankine cycle (ORC) waste heat recovery (WHR) systems have the potential to improve the effi...
Despite the high thermal efficiency achieved by modern heavy-duty diesel engines, over 40% of the en...
Waste heat recovery is an effective method for improving engine efficiency. While most research on w...
This work assesses the possibility of fitting an organic Rankine cycle (ORC) system in a commercial ...
[EN] Waste Heat Recovery (WHR) in exhaust gas flow of automotive engines has proved to be a path to ...
Converting a portion of the waste heat into usable power by implementing Rankine and Organic Rankine...
AbstractThis paper illustrates a comparison between different solutions for waste heat recovery from...
This paper investigates the waste heat recovery potential of internal combustion engines, using orga...
Although state-of-the-art, heavy duty diesel engines of today can reach peak thermal efficiencies of...
Waste heat recovery can be a key solution for improving the efficiency of energy conversion systems...
This paper reports the design and investigation of a small scale Organic Rankine cycle using a targe...
© 2018 The Authors. The purpose of this work is to experimentally evaluate the effect on fuel effici...
Organic Rankine Cycles (ORC) are very efficient and flexible conversion systems with a high degree o...
In motor vehicles, an average of 60-70% of the overall fuel energy is dissipated primarily through t...
Increasing fuel prices and stringent emission regulations are forcing improvements in the performanc...
Organic Rankine cycle (ORC) waste heat recovery (WHR) systems have the potential to improve the effi...
Despite the high thermal efficiency achieved by modern heavy-duty diesel engines, over 40% of the en...
Waste heat recovery is an effective method for improving engine efficiency. While most research on w...
This work assesses the possibility of fitting an organic Rankine cycle (ORC) system in a commercial ...
[EN] Waste Heat Recovery (WHR) in exhaust gas flow of automotive engines has proved to be a path to ...
Converting a portion of the waste heat into usable power by implementing Rankine and Organic Rankine...
AbstractThis paper illustrates a comparison between different solutions for waste heat recovery from...
This paper investigates the waste heat recovery potential of internal combustion engines, using orga...
Although state-of-the-art, heavy duty diesel engines of today can reach peak thermal efficiencies of...
Waste heat recovery can be a key solution for improving the efficiency of energy conversion systems...