This paper presents state-of-the-art review on organic Rankine cycle (ORC) by assessing
the working fluids, thermal resources, cooling utilities, and commercial status with future …

This paper aims at presenting an extensive review of waste heat recovery (WHR) from the
marine engine with highly efficient bottoming power cycles which include the steam Rankine …

A novel integrated energy system based on a geothermal heat source and a liquefied
natural gas heat sink is proposed in this study for providing heating, cooling, electricity …

The development of alternative working fluids has become a difficult and never-ending task,
and thus driven a tremendous progress of the organic Rankine cycle (ORC) technology. In …

Supercritical carbon dioxide Brayton cycle is considered one of the most promising systems
for waste heat recovery of engines because of its compactness and high energy efficiency …

In this research, a waste heat recovery system based on a Dual-loop organic Rankine cycle
(DORC) was optimized for a 2 MW natural gas engine. A thermo-economic and …

This paper proposes cogeneration of power and freshwater using an organic Rankine cycle
and freshwater using a multi-stage flash desalination through the waste heat recovery of …

In this work, four new architectures of two-stage expander organic flash cycles (EOFCs)
based on ejector namely, ejector based EOFC (E-EOFC), ejector based high-pressure …

Abstract Liquefied Natural Gas (LNG) contains significant amounts of cold exergy, which is
normally wasted during regasification at receiving terminals. This paper addresses working …

This paper focuses on an advanced energy system, able to increase the overall efficiency of
ships by recovering the heat wasted by the propulsion system. A small-scale prototype has …