干旱区生态环境知识资源中心(Arid): Innovate, insulate, integrate: Embracing circular economy in innovative insulations for reduced air conditioning expenses and carbon mitigation in fly ash brick buildings

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DOI	10.1016/j.enbuild.2024.114694
	Innovate, insulate, integrate: Embracing circular economy in innovative insulations for reduced air conditioning expenses and carbon mitigation in fly ash brick buildings
	Shaik, Saboor; Roy, Abin; Shaik, Aabid Hussain; Chandan, Mohammed Rehaan; Arici, Muslum; Saxena, Kuldeep K.; Alam, Tabish
通讯作者	Shaik, S
来源期刊	ENERGY AND BUILDINGS
ISSN	0378-7788
EISSN	1872-6178
出版年	2024
卷号	322
英文摘要	Global demand for energy in the construction sector has increased drastically. A substantial portion of this energy belongs to fulfilling the heating, ventilation, and air-conditioning requirements of buildings, which are essential for maintaining the well-being of people. The development of zero-energy or environmentally friendly structures is required to attain a sustainable future. Strategic design of the building's envelopes in green energy buildings can reduce air conditioning expenses. This article focuses on several insulation-integrated fly ash brick wall envelopes that have been designed to reduce CO2 emissions, reduce air conditioning expenses, and figure out payback times in warm-temperate and hot-arid regions. The degree-hour technique for heating and cooling, as well as unsteady heat transfer characteristics, are taken into consideration in this research. This is achieved by incorporating thirteen innovative insulation materials into fly ash bricks in three distinct configurations, (i.e., insulation layer near to the outer end of the fly ash block, on the middle of the fly ash block, and near to the inside end of the fly ash block). Experimental measurements were carried out to determine the thermo-physical characteristics of insulation materials. The analytical findings are confirmed through experimental validation. In hot-arid and composite climatic zones, placing an insulation layer (cloth-40/foam-60) near the outer end of the fly ash block resulted in the highest savings on air-conditioning costs of 0.89 $/m2 and 0.90 $/m2, respectively. They also achieved the highest carbon mitigation values at 17.2 and 16.8 kg/kWh. Insulation-integrated wall envelopes represent the pinnacle of energy efficiency in green building design, seamlessly combining advanced insulation materials with cutting-edge construction techniques to minimise energy consumption and maximise sustainability.
英文关键词	Energy efficient building Polyurethane foam Composite materials Energy-economic analysis Energy cost reductions Carbon dioxide reduction
类型	Article
语种	英语
收录类别	SCI-E
WOS记录号	WOS:001301226700001
WOS关键词	THERMAL PERFORMANCE ; POLYURETHANE ; RUBBER ; WALLS ; COST
WOS类目	Construction & Building Technology ; Energy & Fuels ; Engineering, Civil
WOS研究方向	Construction & Building Technology ; Energy & Fuels ; Engineering
资源类型	期刊论文
条目标识符	http://119.78.100.177/qdio/handle/2XILL650/403491
推荐引用方式 GB/T 7714	Shaik, Saboor,Roy, Abin,Shaik, Aabid Hussain,et al. Innovate, insulate, integrate: Embracing circular economy in innovative insulations for reduced air conditioning expenses and carbon mitigation in fly ash brick buildings[J],2024,322.
APA	Shaik, Saboor.,Roy, Abin.,Shaik, Aabid Hussain.,Chandan, Mohammed Rehaan.,Arici, Muslum.,...&Alam, Tabish.(2024).Innovate, insulate, integrate: Embracing circular economy in innovative insulations for reduced air conditioning expenses and carbon mitigation in fly ash brick buildings.ENERGY AND BUILDINGS,322.
MLA	Shaik, Saboor,et al."Innovate, insulate, integrate: Embracing circular economy in innovative insulations for reduced air conditioning expenses and carbon mitigation in fly ash brick buildings".ENERGY AND BUILDINGS 322(2024).