Advances in Constructional Engineering
Advances in Constructional Engineering. 2025; 5: (1) ; 10.12208/j.ace.202500029 .
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中建二局安装工程有限公司 陕西西安
*通讯作者: 郭翔,单位:中建二局安装工程有限公司 陕西西安;
建筑能耗在全球能源消耗中占据重要地位,高效隔热材料的应用为降低建筑能耗提供了有效途径。通过对建筑能耗现状的分析,发现高效隔热材料在减少热量传递、降低能源消耗方面具有显著优势。实证研究显示,其在不同类型建筑中的应用能够提升室内舒适度并减少能源依赖。未来,随着技术进步和成本降低,高效隔热材料将与可再生能源结合,进一步推动建筑节能,助力可持续发展,为全球减排目标的实现提供重要支持。
Building energy consumption occupies an important position in global energy use, and the application of high-efficiency insulation materials provides an effective way to reduce it. Through the analysis of the current situation of building energy consumption, it is found that high-efficiency insulation materials have significant advantages in reducing heat transfer and energy consumption. Empirical studies show that their application in different types of buildings can improve indoor comfort and reduce energy dependence. In the future, with technological progress and cost reduction, high-efficiency insulation materials will be combined with renewable energy to further promote building energy saving, support sustainable development, and provide important support for the realization of global emission reduction goals.
[1] 廖亮.高效隔热保温材料在绿色建筑中的应用研究[J].新城建科技,2024,33(10):21-23.
[2] 赵航,杨丹,彭佳帅.基于高效隔热保温材料的绿色建筑施工研究[J].中国建材,2024,(10):149-151.
[3] 吴跃.隔热材料演绎温情故事——记山东工陶院轻质耐高温高效隔热材料研发团队[J].中国建材,2024,(09):84-86.
[4] 李月香,马军霞,王蒙.SiO2高效节能气凝胶隔热材料的制备及性能研究[J].功能材料,2024,55(07):7224-7230.
[5] 孙一文.水性隔热保温涂料的制备及性能研究[D].青岛科技大学,2024.
[6] 盛灿程.基于隔热钻杆的井下钻井液高效降温技术研究[D].长江大学,2024.
[7] 刘波涛,张海龙,王轲,等.声学黑洞轻质超结构的低频宽带高效隔声机理及实验研究[J].西安交通大学学报,2019, 53(10):128-134.
[8] 王翔.“高效隔温抗紫外服装及面料”通过专家鉴定[J].江苏纺织,2014,(04):21.