Energy consumption in the life cycle of plumbing fixtures

Water Science & Technology: Water Supply Pub Date : 2019-02-01 DOI:10.2166/WS.2018.053

A. Kalbusch, E. Ghisi

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引用次数: 1

Abstract

The main objective of this paper is to propose a method for quantifying the energy consumption in the life cycle of different plumbing fixtures. The method can be used to estimate the energy consumption in the production, use and disposal phases of plumbing fixtures. This allows for the comparison between the performances of different plumbing fixtures and the identification of the share of each phase on the energy consumption over the life cycle. The method was applied in a case study in Southern Brazil to quantify the energy consumption in the life cycle of two types of taps installed on a university campus. The total energy consumption in the life cycle of ordinary and self-closing taps used in the study was respectively, 177.71 MJ and 164.11 MJ over four years. Production accounted for 33% of the energy consumption share of the ordinary tap, while the use phase accounted for 65% and the disposal phase for 2%. For the self-closing tap, the production phase accounted for 46% of the energy consumption share, the use phase for 52% and the disposal phase for 2%. Therefore, considering the energy consumption in the life cycle, self-closing taps should be preferred over ordinary taps.

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管道装置生命周期内的能源消耗

本文的主要目的是提出一种量化不同管道装置生命周期能耗的方法。该方法可用于估算管道装置在生产、使用和处置阶段的能耗。这样就可以比较不同管道装置的性能，并确定整个生命周期中每个阶段的能源消耗份额。该方法在巴西南部的一个案例研究中得到应用，量化了安装在一所大学校园内的两种类型水龙头在生命周期中的能耗。研究中使用的普通水龙头和自闭水龙头4年生命周期总能耗分别为177.71 MJ和164.11 MJ。生产占普通水龙头能耗份额的33%，而使用阶段占65%，处置阶段占2%。对于自闭水龙头，生产阶段占能耗份额的46%，使用阶段占52%，处置阶段占2%。因此，考虑到生命周期内的能耗，自闭水龙头应优于普通水龙头。

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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Water Science & Technology: Water Supply

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