The use of ORCs on long-haul Heavy Duty Diesel Engines (HDDE) is a possible way to improve the specific fuel consumption. One of the key considerations in the research and development efforts for ORCs is to investigate and identify technical paths that may improve the practicality of such a heat to power conversion concept. For this, simple solutions are vital for a timely deployment of the technology to meet the anticipated CO2 regulations. To provide a potential solution, this paper presents the simulation results of a novel organic working fluid (using Aspen HYSYS) which has been especially formulated for the HDDE sector. Due to the unique heat transfer and expansion characteristics, the primary advantage of the novel working fluid inclu...
In the large spectrum of organic fluids suitable for Rankine cycles, a fluid that is already wellkno...
Diesel engines offer at least two sources for heat recovery, namely, engine coolant and exhaust gase...
The growing cost for energy production and distribution as well as problems related to environmental...
The current experimental ORC setups for long-haul Heavy Duty Diesel Engines (HDDE) are not reaching ...
Due to increasing CO2 emissions and fuel costs there is a growing interest in heat to power conversi...
This paper proposes a novel Organic Rankine Cycle (ORC) system for long haul truck application. Rath...
Waste heat to power conversion using Organic Rankine Cycles (ORC) is expected to play an important r...
Converting a portion of the waste heat into usable power by implementing Rankine and Organic Rankine...
Organic Rankine Cycles (ORC) using toluene and hexamethyldisiloxane (MM) are put forward as a means ...
Waste heat recovery is a key path in improving the overall thermal efficiency, and hence, reducing C...
Waste heat to power conversion using Organic Rankine Cycles (ORC) is expected to play an important r...
In 2013, about 82% of the total CO2 emissions from transportation systems in the U.S. were caused by...
AbstractThis paper illustrates a comparison between different solutions for waste heat recovery from...
Waste heat to power conversion is expected to play a key role in reducing CO2 emissions in the mid-t...
New technologies to converting heat into usable energy are constantly being developed for renewable ...
In the large spectrum of organic fluids suitable for Rankine cycles, a fluid that is already wellkno...
Diesel engines offer at least two sources for heat recovery, namely, engine coolant and exhaust gase...
The growing cost for energy production and distribution as well as problems related to environmental...
The current experimental ORC setups for long-haul Heavy Duty Diesel Engines (HDDE) are not reaching ...
Due to increasing CO2 emissions and fuel costs there is a growing interest in heat to power conversi...
This paper proposes a novel Organic Rankine Cycle (ORC) system for long haul truck application. Rath...
Waste heat to power conversion using Organic Rankine Cycles (ORC) is expected to play an important r...
Converting a portion of the waste heat into usable power by implementing Rankine and Organic Rankine...
Organic Rankine Cycles (ORC) using toluene and hexamethyldisiloxane (MM) are put forward as a means ...
Waste heat recovery is a key path in improving the overall thermal efficiency, and hence, reducing C...
Waste heat to power conversion using Organic Rankine Cycles (ORC) is expected to play an important r...
In 2013, about 82% of the total CO2 emissions from transportation systems in the U.S. were caused by...
AbstractThis paper illustrates a comparison between different solutions for waste heat recovery from...
Waste heat to power conversion is expected to play a key role in reducing CO2 emissions in the mid-t...
New technologies to converting heat into usable energy are constantly being developed for renewable ...
In the large spectrum of organic fluids suitable for Rankine cycles, a fluid that is already wellkno...
Diesel engines offer at least two sources for heat recovery, namely, engine coolant and exhaust gase...
The growing cost for energy production and distribution as well as problems related to environmental...