A review of industrial waste heat recovery system for power generation with Organic Rankine Cycle: Recent challenges and future outlook
Waste heat recovery is an effective way to reuse waste energy in order to produce useful
energy products. This technique aids in the reduction of CO 2 emissions and to create …
energy products. This technique aids in the reduction of CO 2 emissions and to create …
Challenges and opportunities of Rankine cycle for waste heat recovery from internal combustion engine
H Tian, P Liu, G Shu - Progress in Energy and Combustion Science, 2021 - Elsevier
Internal combustion engines (ICEs) are the major consumers of crude oil, and thus
improvements in the fuel consumption performance of ICEs would be significant for global …
improvements in the fuel consumption performance of ICEs would be significant for global …
Exergy, economic, and life-cycle assessment of ORC system for waste heat recovery in a natural gas internal combustion engine
G Valencia Ochoa, J Cárdenas Gutierrez… - resources, 2020 - mdpi.com
In this article, an organic Rankine cycle (ORC) was integrated into a 2-MW natural gas
engine to evaluate the possibility of generating electricity by recovering the engine's exhaust …
engine to evaluate the possibility of generating electricity by recovering the engine's exhaust …
Expander technologies for automotive engine organic rankine cycle applications
The strive towards ever increasing automotive engine efficiencies for both diesel and
gasoline engines has in recent years been forced by ever-stringent emissions regulations …
gasoline engines has in recent years been forced by ever-stringent emissions regulations …
[HTML][HTML] Multi-objective optimization of organic Rankine cycle systems considering their dynamic performance
Abstract The Organic Rankine cycle system is a well-established technology for converting
the waste heat from internal combustion engines into mechanical or electrical power. For a …
the waste heat from internal combustion engines into mechanical or electrical power. For a …
Machine Learning for the prediction of the dynamic behavior of a small scale ORC system
Dynamic modelling plays a crucial role in the analysis of Organic Rankine Cycle (ORC)
systems for waste heat recovery, which deal with a highly unsteady heat source. The …
systems for waste heat recovery, which deal with a highly unsteady heat source. The …
Electric boosting and energy recovery systems for engine downsizing
M Alshammari, F Alshammari, A Pesyridis - Energies, 2019 - mdpi.com
Due to the increasing demand for better fuel economy and increasingly stringent emissions
regulations, engine manufacturers have paid attention towards engine downsizing as the …
regulations, engine manufacturers have paid attention towards engine downsizing as the …
Off-design performance prediction of radial turbines operating with ideal and real working fluids
F Alshammari, A Karvountzis-Kontakiotis… - Energy Conversion and …, 2018 - Elsevier
This paper outlines a novel meanline off-design model to predict the performance
characteristics of a radial inflow turbine that operates with ideal and real working fluids …
characteristics of a radial inflow turbine that operates with ideal and real working fluids …
Organic rankine cycle waste heat recovery for passenger hybrid electric vehicles
WR Bin Wan Ramli, A Pesyridis, D Gohil, F Alshammari - Energies, 2020 - mdpi.com
Electrification of road transport is a major step to solve the air quality problem and general
environmental impact caused by the still widespread use of fossil fuels. At the same time …
environmental impact caused by the still widespread use of fossil fuels. At the same time …
Potential of capturing transportation wasted heat for better fuel economy and electricity generation: Comprehensive testing
This study is experimentally exploring the feasibility of organic Rankine cycle (ORC) as a
waste heat recovery (WHR) technology in internal combustion engines, aiming at improving …
waste heat recovery (WHR) technology in internal combustion engines, aiming at improving …