This study suggests a novel zero-emission combined cooling and power (CCP) system
using a high-temperature solar field, ie, heliostat reflectors and a central receiver as the heat …

Solar energy-driven generation units can assist in moderating energy-linked environmental
issues. For this target, a new solar heliostat-based generation unit is suggested for electricity …

Solar assisted absorption chiller is one of efficient cooling production systems for large
cooling capacities. The main drawback of this system is that in addition to the electricity …

A novel solar-based combined system which is consisting of a concentrated PV, a double
effect LiBr-H2O absorption chiller, and a Proton Exchange Membrane (PEM) is proposed for …

Concerning the global challenges arising from fossil fuel-dependent power cycles, including
environmental concerns and fuel transportation issues, solar-based technologies have …

In this paper, the energy, exergy, and economic analysis of a novel integrated power plant is
investigated. The novel power plant is integrated by using the heliostat solar receiver, the …

Although some studies have been conducted on various types of compressor-based
absorption chillers (ACH), a comprehensive comparison of the performances of these …

In this study, a solar cooling system of 100 kW is analyzed parametrically in dynamic basis
for the city of Athens, Greece. The objective of this study is the design of a sustainable …

This study aims to develop, evaluate, and improve a polygeneration system that combines
solar and Brayton cycle technologies and focuses on the sequential integration of heat. In …

This article presents simulation results of a solar cooling system that consists of a parallel-
flow double-effect water-lithium bromide absorption chiller and parabolic trough solar …