In the field of marine engineering, there is a strong motivation to increase the propulsion
system efficiency, mainly due to rising fuel prices and the new environmental and …

The utilization of main engine-based waste heat sources using organic Rankine cycle
(ORC) systems is only available during the navigation phases of marine vessels, which …

Global issues such as energy crisis and environmental pollution have driven the
development of waste heat recovery technology. The organic Rankine cycle (ORC)-vapor …

This paper aims to provide a performance examination of combining power and refrigeration
system, which consists of an Organic Rankine Cycle driven Vapor Compression Cycle from …

The increasing demand for sustainable energy solutions has spurred significant interest in
cogeneration technologies. This study introduces a novel integrated organic Rankine cycle …

From the perspective of environmental protection, the application of new environment-
friendly working fluids provides more feasibility for sustainable development. In addition, the …

A novel solar‐assisted cascade Rankine cycle‐driven reverse osmosis (RO) system is
proposed and evaluated using conventional and advanced exergy analysis. The system …

This paper investigates waste heat (WH) valorisation on maritime vessels from a systemic
perspective. It aims to demonstrate how a set of innovative waste heat recovery (WHR) …

The organic Rankine cycle-vapor compression cycle is an effective way to improve energy
efficiency by converting low-grade heat energy into cold energy. Since the demand for …

The present paper investigates different organic Rankine cycle (ORC) configurations, which
can convert low-grade industrial waste heat streams (80–100° C) into electricity. More …