Energy storage is one of the core concepts demonstrated incredibly remarkable
effectiveness in various energy systems. Energy storage systems are vital for maximizing the …

Industrial and high temperature pumps are a well-established, sustainable, and low-
emission technology for processing temperatures below 100° C, especially when driven by …

This study investigates the 4E performance of small-scale (< 100 kW), low-temperature (<
179° C) Organic Rankine Cycle (ORC) technology, comparing two distinct configurations …

One of the essential phases in delivering a precise simulation of the fuel cell system
behavior is estimating the model parameters. A novel identification approach based on the …

In the cement industry, energy efficiency and CO 2 reduction are crucial Waste Heat
Recovery (WHR) systems play a vital role. This study examines WHR systems' optimisation …

This paper investigates a ground-cooled organic Rankine cycle (ORC) for waste heat
recovery from a diesel generator. The ambient and ground temperatures used in the current …

The recovery of waste heat from Proton Exchange Membrane (PEM) Fuel cell is sin qua non
to the development of organic Rankin cycle units. Despite the appreciable increase in the …

The critical temperature (T cr) is one of the important thermophysical properties of the
working fluid, and it has a crucial effect on the output parameters of thermodynamic cycles …

The use of exergy analysis in thermodynamic systems, as well as energy analysis, is quickly
increasing. Exergy analysis is useful for identifying processes that cause exergy destruction …

Organic Rankine cycle (ORC) synergistic multi-objective optimization is the key to obtain the
actual waste heat recovery potential under dynamic driving cycle. The ORC operation shows …