Simultaneous water and energy saving of wet cooling towers, modeling for a sample building

A. Ataei, Jun-Ki Choi, Zeinab Hamidzadeh, Navid Bagheri
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引用次数: 1

Abstract

This article outlines a case study of water and energy savings in a typical building through a modelling process and analysis of simultaneous water-energy saving measures. Wet cooling towers are one of the most important equipments in buildings with a considerable amount of water and energy consumption. A variety of methods are provided to reduce water and energy consumption in these facilities. In this paper, thorough the modeling of a typical building, water and energy consumption are measured. Then, After application of modern methods known to be effective in saving water and energy, including the ozone treatment for cooling towers and shade installation for windows, i.e. fins and overhangs, the amount of water and energy saving are compared with the base case using the Simergy model. The annual water consumption of the building, by more than 50% reduction, has been reached to 500 cubic meters from 1024 cubic meters. The annual electric energy consumption has been decreased from 405,178 kWh to 340,944 kWh, which is about 16%. After modeling, monthly peak of electrical energy consumption of 49,428 has dropped to 40,562 kWh. The reduction of 18% in the monthly peak can largely reduce the expenses of electricity consumption at peak.
同时节水节能的湿式冷却塔,为样板建筑建模
本文通过建模过程和同时节水节能措施的分析,概述了一个典型建筑节水节能的案例研究。湿式冷却塔是建筑中最重要的设备之一,耗水量和能耗相当大。提供了各种方法来减少这些设施的水和能源消耗。本文通过对某典型建筑的建模,对其水能耗进行了测量。然后,在应用了已知的有效节水和节能的现代方法后,包括冷却塔的臭氧处理和窗户的遮阳装置,即鳍片和悬垂,使用Simergy模型将节水和节能量与基本情况进行比较。建筑的年用水量减少了50%以上,从1024立方米减少到500立方米。年用电量由405,178千瓦时下降至340,944千瓦时,降幅约16%。建模后,每月用电峰值49,428降至40,562千瓦时。每月高峰减少18%,可以大大减少高峰用电费用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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