Waste heat accounts nearly 50% of the total energy used in the industries. This low grade
thermal energy is mostly available in the temperature range of 120–650° C, which can be …

More than half of the input fuel energy to marine engines, tractive diesel engine, and
electricity generators is wasted as exhaust and cooling water heat, at temperatures sufficient …

In this work, organic Rankine cycle (ORC) integrated with Latent Thermal Energy Storage
(LTES) system for engine waste heat recovery has been proposed and investigated to …

Emission free compressed air powered energy system can be used as the main power
source or as an auxiliary power unit in vehicular transportation with advantages of zero …

To realize the adjustable allocation of refrigeration and power in a combined refrigeration
and power cycle, this study proposes a multi-mode cycle using CO 2 as the working fluid. A …

Cooling and refrigeration systems consume around 17% of the world‐wide electricity.
Enhancing the performance of these systems, using renewable energy resources and waste …

Waste heat recovery (WHR) from exhaust gases in natural gas engines improves the overall
conversion efficiency. The organic Rankine cycle (ORC) has emerged as a promising …

In the contemporary context, significant importance is attributed to micro and small-scale
Organic Rankine Cycle (ORC) units that are specifically designed for decentralized …

In this paper, a domestic thermoelectric cogeneration system (DCS) is suggested. This
system permits to use the lost heat of exhaust gases to simultaneously heat water and …

Abstract Organic Rankine Cycle (ORC) has been widely used for the recovery of low-grade
heat into power such as solar energy and industrial waste heat. The overall thermal …