This work assesses the possibility of fitting an organic Rankine cycle (ORC) system in a commercial agricultural tractor, recovering waste heat from a 300-kW brake power heavy-duty diesel engine. Two different cycle architectures are considered: a single evaporator layout to recover tail-pipe exhaust heat, and a parallel evaporator configuration to recover both exhaust and exhaust gas recirculation (EGR) heat. A second lower-temperature cooling circuit is also considered as possible different heat sink for the ORC system. Ten different working fluids have been assessed, and the optimum system configuration, in terms of fuel consumption, has been obtained applying an optimization algorithm to a process simulation model. A preliminary study h...
AbstractHigh-efficiency vehicle engines play an important role in the context of low-carbon cities. ...
Heavy Duty Diesel Engines (HDDE) are widely used as commercial vehicles and ship propulsion units an...
Waste heat recovery can be a key solution for improving the efficiency of energy conversion systems...
This work assesses the possibility of fitting an Organic Rankine Cycle (ORC) system in a commercial ...
ORC has gained attraction in diesel engines due to its outstanding capability in improving thermal e...
AbstractThis paper illustrates a comparison between different solutions for waste heat recovery from...
Despite the high thermal efficiency achieved by modern heavy-duty diesel engines, over 40% of the en...
Converting a portion of the waste heat into usable power by implementing Rankine and Organic Rankine...
Although modern ultra-efficient heavy duty diesel engines exhibit thermal efficiencies of well over ...
A novel transcritical cascade-Organic Rankine Cycle (C-ORC) system was proposed to recover multi-gra...
Although state-of-the-art, heavy duty diesel engines of today can reach peak thermal efficiencies of...
© 2018 The Authors. The purpose of this work is to experimentally evaluate the effect on fuel effici...
The internal combustion engine is used daily for transportation and energy production beside their l...
Waste heat recovery is an effective method for improving engine efficiency. While most research on w...
In this study the influence of utilization of two Waste Heat Recovery (WHR) strategies, namely orga...
AbstractHigh-efficiency vehicle engines play an important role in the context of low-carbon cities. ...
Heavy Duty Diesel Engines (HDDE) are widely used as commercial vehicles and ship propulsion units an...
Waste heat recovery can be a key solution for improving the efficiency of energy conversion systems...
This work assesses the possibility of fitting an Organic Rankine Cycle (ORC) system in a commercial ...
ORC has gained attraction in diesel engines due to its outstanding capability in improving thermal e...
AbstractThis paper illustrates a comparison between different solutions for waste heat recovery from...
Despite the high thermal efficiency achieved by modern heavy-duty diesel engines, over 40% of the en...
Converting a portion of the waste heat into usable power by implementing Rankine and Organic Rankine...
Although modern ultra-efficient heavy duty diesel engines exhibit thermal efficiencies of well over ...
A novel transcritical cascade-Organic Rankine Cycle (C-ORC) system was proposed to recover multi-gra...
Although state-of-the-art, heavy duty diesel engines of today can reach peak thermal efficiencies of...
© 2018 The Authors. The purpose of this work is to experimentally evaluate the effect on fuel effici...
The internal combustion engine is used daily for transportation and energy production beside their l...
Waste heat recovery is an effective method for improving engine efficiency. While most research on w...
In this study the influence of utilization of two Waste Heat Recovery (WHR) strategies, namely orga...
AbstractHigh-efficiency vehicle engines play an important role in the context of low-carbon cities. ...
Heavy Duty Diesel Engines (HDDE) are widely used as commercial vehicles and ship propulsion units an...
Waste heat recovery can be a key solution for improving the efficiency of energy conversion systems...