This paper describes the study of different bottoming Rankine cycles with water-steam and/or ORC configurations in classical and innovative setups such as a waste heat recovery system in a Heavy Duty Diesel (HDD) Engine. This work has been divided in two parts. This first part describes the model of the studied HDD engine and the available waste energy sources in this HDD Engine. The waste energy sources are studied from the standpoint of energy analysis to determine which are the most appropriate for their application in bottoming cycles attending to minimizing external irreversibilities. Finally, two configurations are chosen as the most appropriate, in a balance between external irreversibilities and technological complexity, and they ha...
Converting a portion of the waste heat into usable power by implementing Rankine and Organic Rankine...
Heavy Duty Diesel Engine (HDDE) are between the biggest contributors to CO2 emission and ambient pol...
This paper investigates the potential of a fluid driven waste heat recovery cycle to improve the eff...
This paper describes the study of different bottoming Rankine cycles with water-steam and/or ORC con...
This article describes a methodology for the optimization of a bottoming cycle as a waste heat recov...
A theoretical investigation has been performed on the feasibility of introducing a waste heat recove...
Heavy Duty Diesel Engines (HDDE) are widely used in several applications, such as vehicles and ship ...
This work assesses the possibility of fitting an organic Rankine cycle (ORC) system in a commercial ...
Heavy Duty Diesel Engines (HDDE) are widely used as commercial vehicles and ship propulsion units an...
Over 50% of the energy released by burning fuel in a truck engine is lost as heat rather than being ...
AbstractThis paper illustrates a comparison between different solutions for waste heat recovery from...
In this study, energy assessment is performed for an industrial turbocharged diesel engine integrate...
A bottoming waste-heat-recovery (WHR) model based on the Organic Rankine Cycle (ORC) is proposed to ...
To reduce the environmental impact of heavy-duty vehicles, it is critical to reduce their CO2 emissi...
Few previous publications investigate the possibility of combining multiple waste heat sources in a ...
Converting a portion of the waste heat into usable power by implementing Rankine and Organic Rankine...
Heavy Duty Diesel Engine (HDDE) are between the biggest contributors to CO2 emission and ambient pol...
This paper investigates the potential of a fluid driven waste heat recovery cycle to improve the eff...
This paper describes the study of different bottoming Rankine cycles with water-steam and/or ORC con...
This article describes a methodology for the optimization of a bottoming cycle as a waste heat recov...
A theoretical investigation has been performed on the feasibility of introducing a waste heat recove...
Heavy Duty Diesel Engines (HDDE) are widely used in several applications, such as vehicles and ship ...
This work assesses the possibility of fitting an organic Rankine cycle (ORC) system in a commercial ...
Heavy Duty Diesel Engines (HDDE) are widely used as commercial vehicles and ship propulsion units an...
Over 50% of the energy released by burning fuel in a truck engine is lost as heat rather than being ...
AbstractThis paper illustrates a comparison between different solutions for waste heat recovery from...
In this study, energy assessment is performed for an industrial turbocharged diesel engine integrate...
A bottoming waste-heat-recovery (WHR) model based on the Organic Rankine Cycle (ORC) is proposed to ...
To reduce the environmental impact of heavy-duty vehicles, it is critical to reduce their CO2 emissi...
Few previous publications investigate the possibility of combining multiple waste heat sources in a ...
Converting a portion of the waste heat into usable power by implementing Rankine and Organic Rankine...
Heavy Duty Diesel Engine (HDDE) are between the biggest contributors to CO2 emission and ambient pol...
This paper investigates the potential of a fluid driven waste heat recovery cycle to improve the eff...