Diesel engines play an important role in transport, small medium-size stationary generator,
agriculture, as well as generate the biggest CO 2 emission and environmental pollution …

Organic Rankine cycle (ORC) is considered as a rational solution to convert thermal energy
of low and moderate temperature heat sources into mechanical work, which currently …

Abstract Organic Rankine Cycle (ORC)-based systems are being extensively investigated
for heat-to-electric power conversion from various sources, such as biomass, waste heat …

This paper presents performance prediction and optimization of an organic Rankine cycle
(ORC) for diesel engine waste heat recovery based on artificial neural network (ANN). An …

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 …

Studies and applications of organic Rankine cycle (ORC) systems are increasing in recent
years because of the advantages of them on the recovery of low temperature heat sources …

Abstract The Organic Rankine Cycle (ORC) is a technology commonly used for low-grade
thermal energy conversion in electricity. This technology is mature for large power scale and …

With the aim to recover the exhaust heat of internal combustion engine efficiently, a novel
supercritical CO 2 (S–CO 2) power cycle is proposed on the basis of recompression cycle …

The study deals with the utilization of organic Rankine cycle (ORC) to recover waste heat
from compression ignition (CI) engines and produce additional power output. A review on …

Industrial heat pumps up to 200° C are an emerging technology with the potential to reshape
the industrial heating supply. For large heat sink temperature glides, transcritical cycles are …