This study aims to investigate a novel hybrid system for combined cooling and power (CCP)
driven by geothermal energy. This study is performed using energy, exergy, and economic …

Combined cooling and power production can improve the overall efficiency of a geothermal
energy conversion system. Most systems have complex structures, characterized by a large …

A novel combined cooling and power cogeneration system driven by geothermal hot water
is proposed. The system, which is a combination of an organic Rankine cycle and an …

The main goal of this study is to propose and investigate a new organic Rankine cycle
based on three considered configurations: basic organic Rankine cycle, regenerative …

This paper presents thermodynamic and economic analyses on a novel-type geothermal
regenerative organic Rankine cycle based on both energy and exergy concepts. An …

Geothermal energy is going to play a key role in future smart energy systems. Geothermal-
driven domestic energy systems, specifically, will largely contribute to the baseload supply of …

In this paper, a combined cooling, heating and power cycle is proposed consisting of three
sections of gas turbine and heat recovery steam generator cycle, Regenerative organic …

In this article, a new geothermal powered multigeneration system is proposed and analyzed
via energy, exergy, economic, and exergoenvironmental points of view as well as parametric …

Recovering waste heat below 100° C, accounting for 60% of the whole waste heat, the
Organic Rankine cycle (ORC), Kalina cycle (KC) and thermoelectric generator (TEG) are the …

To reduce energy-related costs, integrating cogeneration systems is one of the most
apposite avenues. Herein, a combined cooling, heating, and power (CCHP) cogeneration …