Embodied Carbon and Cost Analysis to Identify the Most Appropriate Wall Materials for Buildings: Whole Life Cycle Approach

2018 Moratuwa Engineering Research Conference (MERCon) Pub Date : 2018-05-01 DOI:10.1109/MERCON.2018.8421911

I. Anuradha, B. Perera, H. Mallawarachchi

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引用次数: 2

Abstract

Construction industry is one of the main exploiters of natural resources. During building construction, a large amount of Embodied Carbon is released to the atmosphere. Thus, this research was aimed to determine the significance of whole life Embodied Carbon (EC) in the selection of wall materials for use in building construction. To achieve this aim, mixed research approach was used. A comprehensive literature review and ten expert interviews were conducted first as a part to find out the significance of EC to the construction industry. Subsequently, a questionnaire survey and a base model building consisting of work studies, a desk study and a documentary review were used to collect the required data. The data collected were analyzed to find out the most suitable material out of the three types of wall materials selected. The results of the analysis indicate that eco interlocking brick is the most suitable wall material (compared to cement block and conventional brick) in terms of EC and initial and maintenance cost. The study also provides a firm base for future researchers engaged in the studies to find out the EC content of building materials.

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确定最合适的建筑墙体材料的隐含碳和成本分析:全生命周期方法

建筑业是自然资源的主要采用者之一。在建筑施工过程中，大量的隐含碳被释放到大气中。因此，本研究旨在确定全寿命隐含碳(EC)在选择用于建筑施工的墙体材料中的意义。为了达到这一目的，采用了混合研究方法。首先进行了全面的文献综述和10位专家访谈，作为找出电子商务对建筑行业的意义的一部分。随后，进行了问卷调查和建立基本模型，其中包括工作研究、案头研究和文件审查，以收集所需的数据。对收集到的数据进行分析，从所选的三种墙体材料中找出最适合的材料。分析结果表明，与水泥块和传统砖相比，生态联锁砖在EC、初始成本和维护成本方面是最合适的墙体材料。本研究也为今后从事建筑材料中EC含量的研究提供了坚实的基础。

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2018 Moratuwa Engineering Research Conference (MERCon)

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