欢迎访问沈阳真空杂志社 Email Alert    RSS服务

VACUUM ›› 2026, Vol. 63 ›› Issue (1): 97-102.doi: 10.13385/j.cnki.vacuum.2026.01.15

• Vacuum Technology Application • Previous Articles     Next Articles

Application of Vacuum Insulation Board and Vacuum Glass in Passive Ultra-Low Energy Consumption Building Design Under Climate Zoning

YIN Cuicui   

  1. China Aerospace Planning and Design Group Co., Ltd., Beijing 102627 China
  • Received:2025-03-07 Online:2026-01-25 Published:2026-02-02

Abstract: The influence of human perceived comfort and climate zoning on passive ultra-low energy building design was explored, and the application of vacuum technology was deeply analyzed. GIS technology was used to analyze the adaptability of Chinese residents to comfortable temperature in different regions and seasons, and the human climate adaptation model of four major climate zones was constructed. The technical parameters of vacuum insulation materials were initialized and their performance was described. Based on the results of climate zoning, the application strategy of vacuum glass and insulation board was planned, and the combination of them and other energy-saving technologies was discussed. The results show that vacuum technology can significantly reduce building energy consumption and improve living comfort, especially in extreme weather conditions. The performance is stable and durable, which provides strong support for green buildings and low-carbon life.

Key words: ultra-low energy consumption buildings, vacuum insulation board, vacuum glass, climatic conditions

CLC Number:  TU201.5

[1] 宋军凯,唐天国,朱长城,等.被动房人体热舒适度影响因素的灰色聚类分析研究[J]. 建筑技术,2023,54(4):496-502.
[2] 关阳. 被动房的实际应用与发展[J]. 建筑结构,2022,52(增刊1):1916-1919.
[3] 武廷超. 超低能耗被动式建筑施工关键技术[J]. 施工技术(中英文),2022,51(15):118-121.
[4] BAETENS R, JELLE B P, THUE J V, et al.Vacuum insulation panels for building applications: a review and beyond[J]. 2010, 42(2):147-172.
[5] 周涵宇,刘刚,王立雄,等.寒冷地区被动房冬季室内热舒适评价模型[J]. 重庆大学学报,2022,45(7):61-69.
[6] 张勇,梁晓珂,陈志鹏,等.基于多代理辅助多目标进化优化的建筑节能智能设计方法[J]. 控制与决策,2023,38(11):3057-3065.
[7] 陈英. 数据挖掘技术在建筑节能设计中的应用[J]. 建筑科学,2023,39(5):212.
[8] 陈雪冰. 基于BIM技术的绿色建筑节能设计方法研究[J]. 住宅与房地产,2024(2):115-117.
[9] CHEN X, GEYER P.Machine assistance in energy-efficient building design: a predictive framework toward dynamic interaction with human decision-making under uncertainty[J]. Applied Energy, 2022, 307(1):118240.
[10] 刘大龙,李俐瑶,马茹婷.居住建筑节能行为的热舒适基础及应用[J]. 建筑科学,2023,39(10):36-42.
[11] 王敬哲,周飞鸽,冯慧华.玻璃钢及多层绝热材料真空放气速率试验研究[J]. 真空,2023,60(4):65-68.
[12] ZHENG Z, XIAO J, LIU Z H .Optimization of exterior wall insulation in office buildings based on wall orientation: economic, energy and carbon saving potential in China[J]. Energy, 2024, 290(1):130300.
[13] AYOOBI A W, INCEOLU G, INCEOLU M.Prioritizing sustainable building design indicators through global SLR and comparative analysis of AHP and SWARA for holistic assessment: a case study of Kabul, Afghanistan[J]. Journal of Building Pathology and Rehabilitation, 2024, 9(2):139.
[14] 刘衍,张存德,杨柳,等.被动式太阳能采暖建筑设计室外计算参数的确定方法研究[J]. 建筑科学,2022,38(6):44-51.
[15] TOMRUKU G, ASHRAFIAN T.Energy-efficient building design under climate change adaptation process: a case study of a single-family house[J]. International Journal of Building Pathology and Adaptation, 2024, 42(4):553-575.
[16] 张赟,陈莉莉,祝侃. 夏热冬冷地区零能耗农村建筑运维分析[J]. 建筑科学,2024,40(4):165-172.
[17] 黄祖坚,詹峤圣. 湿热地区建筑能耗模拟气象年开发及参数影响[J]. 南方建筑,2024(6):96-106.
[18] 阚安康,孟闯,郭志鹏,等.真空绝热板导热系数预测模型及实验研究[J]. 真空科学与技术学报, 2016,36(8):935-940.
[19] 李婧. 上海装配式超低能耗住宅建筑外墙系统方案比较研究[J]. 建筑科学,2024,40(6):123-129.
[20] 王庆辉,马语辰,黄凯良,等. 严寒地区近零能耗办公建筑负荷特性分析[J]. 沈阳建筑大学学报(自然科学版),2024,40(1):141-147.
[21] 王元麒,胡杨刚,王磊.基于随机森林模型的真空玻璃保温性能预测[J]. 真空,2023,60(5):55-59.
[22] 朱国庆,刘显成,田从祥. 基于长短期记忆网络的公共建筑短期能耗预测模型[J]. 吉林大学学报(工学版),2024,54(7):2009-2014.
[23] 冯红旗,李森,杨润泽,等.适用于极端环境的环控生保热试验设备研制[J]. 真空,2023,60(5):86-91.
[24] ALYAMI M.The impact of the composition and location of thermal insulation in the building envelope on energy consumption in low-rise residential buildings in hot climate regions[J]. Arabian Journal for Science and Engineering, 2024, 49(4):5305-5351.
[25] HOSSEINALIPOUR S M, AL-TAEE A, ASIAEI S.Improving energy consumption for dynamic intake and exhaust FAADES: a new setup design:part B[J]. Building Services Engineering Research & Technology, 2024, 45(5):613-639.
[26] 徐春雯,王春利,程征,等.基于EnergyPlus的被动式建筑能耗仿真实验[J]. 实验技术与管理, 2024, 41(7):192-200.
[27] MA C Q, XUE C H, FAN W, et al.Synchronous radiative cooling and thermal insulation in SiO2/Poly(vinyl alcohol) composite aerogel for energy savings in building thermal management[J]. ACS Sustainable Chemistry & Engineering, 2024, 12(14):5695-5704.
[1] WANG Yuan-qi, HU Yang-gang, WANG Lei. Prediction of Vacuum Glass Insulation Performance Based on Random Forest [J]. VACUUM, 2023, 60(5): 55-59.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] XIE Yuan-hua, HAN Jin, ZHANG Zhi-jun, XU Cheng-hai. Discussion on present situation and development trend of vacuum conveying[J]. VACUUM, 2018, 55(5): 34 -37 .
[2] SUN Li-zhi, YAN Rong-xin, LI Tian-ye, JIA Rui-jin, LI Zheng, SUN Li-chen, WANG Yong, WANG Jian, . Research on distributing law of Xenon in big accumulation chamber[J]. VACUUM, 2018, 55(5): 38 -41 .
[3] LI Zhi-sheng. Development of ultra large shielded door for infrared calibration in simulated space environment[J]. VACUUM, 2018, 55(5): 66 -70 .
[4] MA Jia-jie, LI Jian-chang, CHEN Bo. Latest studies on memristor's integration and application[J]. VACUUM, 2018, 55(5): 71 -85 .
[5] LIU Shun-ming, SONG Hong, DONG Hai-yi, GUAN Yu-hui, LIU Sheng-hua. Applications of quadrupole mass spectrometer in drift tube linear accelerator[J]. VACUUM, 2018, 55(6): 5 -9 .
[6] SHEN Fu-bo, WANG Jie, ZHAI Yue, ZHOU Zhi-peng. Light shell design of low temperature adsorption bed and its optimization[J]. VACUUM, 2018, 55(6): 42 -44 .
[7] Alessandro Abatecola. A new high-conductance ion pump for particle accelerator[J]. VACUUM, 2019, 56(1): 16 -19 .
[8] ZHONG Zhao-jin, CAO Xin, GAO Qiang, HAN Na, CUI Jie-dong, SHI Li-fen, YAO Ting-ting, MA Li-yun, PENG Shou. Effect of RF sputtering power on properties of AZO thin films deposited at room temperature[J]. VACUUM, 2019, 56(1): 45 -48 .
[9] CHEN Wen-bo, CHEN Lun-jiang, Liu Chuan-dong, CHENG Chang-ming, TONG Hong-hui, ZHU Hai-long. Numerical simulation of a DC arc thermal plasma torch[J]. VACUUM, 2019, 56(1): 56 -58 .
[10] HAN Feng, ZHANG Shi-wei, WANG De-xi, LIU Bo, WANG Meng. Dangerous industrial wastewater treatment based on vacuum evaporation technology[J]. VACUUM, 2019, 56(1): 67 -71 .
辽ICP备06004570号-4
Copyright © VACUUM, All Rights Reserved.
Tel: (024)24134406 24110136 24121929 Fax: (024) 24121929 E-mail: zkzk1964@126.com
Powered by Beijing Magtech Co. Ltd