An Experimental Study on Thermal Properties of Sustainable Bricks Made from Local Industrial Waste

Journal of Sustainable Materials Processing and Management Pub Date : 2021-12-08 DOI:10.30880/jsmpm.2021.01.01.006

A. Saleh, M. Rahmat, Rafizah Mohamed Nordin

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Abstract

Rapid development around the globe, increase of population and construction with the latest and megastructures have escalated the demand for energy. The increasing of ambient outdoor temperature requires mechanical air conditioners to maintain a comfortable environment within the building, this contributes to high energy consumption. Building with good thermal conductivity properties passively reduces energy consumption. This experimental work focuses on four (4) brick systems which are Laterite Clay (LC), Solid Waste Fly Ash (SWFA) Bricks, Laterite SWFA (LS) Brick, and Laterite SWFA Paint Sludge (LSP) Bricks. Ordinary Portland Cement (OPC), Hydrate Lime (HL), and Ground Granulated Blast Furnace Slag (GGBS) were used as stabiliser. Higher thermal conductivity was recorded for all bricks systems that stabilised with HL. Thermal conductivity was significantly reduced when GGBS was incorporated as a blended stabiliser. SWFA bricks system recorded the lowest thermal conductivity of all bricks systems investigated. A lower thermal conductivity value indicates better thermal properties. In all brick-wall systems, the thermal conductivity was found to increase linearly with density.

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利用地方工业废料制备可持续砖的热性能试验研究

全球经济的快速发展、人口的增加以及新建大型建筑对能源的需求不断增加。随着室外环境温度的不断升高，需要机械空调来维持建筑内舒适的环境，这就造成了较高的能耗。具有良好导热性能的建筑被动地降低了能耗。本实验主要研究了红土粘土(LC)、固体废物粉煤灰(SWFA)砖、红土SWFA (LS)砖和红土SWFA油漆污泥(LSP)砖四种砖体系。采用普通硅酸盐水泥(OPC)、水合石灰(HL)和矿渣粉(GGBS)作为稳定剂。所有用HL稳定的砖系统都记录了更高的导热率。当GGBS作为混合稳定剂加入时，导热系数显著降低。SWFA砖体系记录了所有砖体系中最低的导热率。导热系数越低，热性能越好。在所有砖墙体系中，导热系数随密度线性增加。

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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Journal of Sustainable Materials Processing and Management

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