Development of a preliminary energy assessment tool for alternative cooling system

Abstract

In recent years, an absorption chiller coupled with solar technologies has been presented as a solution to decrease the amount of electricity consumption. The absorption chiller technology primarily consumes thermal energy instead of electricity to generate the chilled water. In addition, this technology can take advantage of waste energy and renewable resources like solar power. Solar photovoltaic and thermal collectors produce electrical and thermal energy to assist the alternative cooling system as a renewable resource. These solar and absorption technologies are promising solutions to reduce energy consumption and reduce the environmental impact caused by greenhouse gases. This study aims to develop software to assess the energy performance of an alternative cooling system preliminarily. The mathematical model of thermodynamic analysis for a single-effect absorption chiller is employed in the software application for analyzing the characteristic of the alternative cooling system. This energy assessment tool will calculate and provide the preliminary design specification of the chiller and the ancillary equipment, such as the working flow rate of pumps, pump sizes, and the capacity of cooling towers. The tool will present the energy performance such as COP, Energy Efficiency coefficient, and the primary crucial technical specification of the alternative cooling system, such as the size of the chiller, pumps, cooling tower, including estimating the size of the solar photovoltaic and thermal collector fields as the final outputs of the simulation. The computational tool is carefully validated with an installed 30 kW solar cooling project in Reunion Island, France8. The comparison shows good agreement with approximately 0 - 4% different. This tool is principally applicable for elementary evaluating energy performance to aid investment decisions and the installation of an alternative cooling plant. This tool expects to simplify various users to predict the alternative cooling system performance easily.