MODIFIED CALCULATION OF ENERGY-EFFICIENCY PERFORMANCE INDICES ON SMALL SOLAR HEATING BUILDINGS

Meng Xiangxin; Liu Yan; Wang Shangyu; Cao Qimeng; Lu Junchen; Yang Liu

doi:10.19912/j.0254-0096.tynxb.2021-0785

PDF(3761 KB)

Acta Energiae Solaris Sinica ›› 2022, Vol. 43 ›› Issue (6) : 115-123. DOI: 10.19912/j.0254-0096.tynxb.2021-0785

MODIFIED CALCULATION OF ENERGY-EFFICIENCY PERFORMANCE INDICES ON SMALL SOLAR HEATING BUILDINGS

Meng Xiangxin^1,2, Liu Yan^1,2, Wang Shangyu^1,2, Cao Qimeng^1,2, Lu Junchen^1,2, Yang Liu^1,2

Author information +

History +

Abstract

The Solar Energy Utilization Performance indices for small-scale solar heating buildings are the research object. Based on 1042 meteorological data measurements of solar irradiance and outdoor air temperature from 1988 to 2017 to establish the relationships between the solar heating fraction（SHF） and solar heat load ratio（SLR）, which meet energy-efficiency design standards for residential buildings. In addition, the calculated monthly total heat gain through the glass of a typical city in China was obtained, which provided a simplified calculation for the SLR. This study simplifies determining the level of solar heating available in buildings at the beginning of the design plan. It provides essential support for implementing of the carbon-neutral strategy by integrated building design.

Key words

solar buildings / solar heat load ratio / solar heating fraction / performance indices

Cite this article

EndNote

Ris (Procite)

Bibtex

Download Citations

Meng Xiangxin, Liu Yan, Wang Shangyu, Cao Qimeng, Lu Junchen, Yang Liu. MODIFIED CALCULATION OF ENERGY-EFFICIENCY PERFORMANCE INDICES ON SMALL SOLAR HEATING BUILDINGS[J]. Acta Energiae Solaris Sinica. 2022, 43(6): 115-123 https://doi.org/10.19912/j.0254-0096.tynxb.2021-0785

References

[1] 江亿. 我国建筑耗能状况及有效的节能途径[J]. 暖通空调, 2005, 35(5): 64-64.
JIANG Y.Current building energy consumption in China and effective energy efficiency measures[J]. Journal of HV&AC, 2005, 35(5): 64-64.
[2] 李元哲. 被动式太阳房热工设计手册[M]. 北京: 清华大学出版社, 1993.
LI Y Z.Passive solar house thermal design manual[M]. Beijing: Tsinghua University Press, 1993.
[3] 杨柳, 杨晶晶, 宋冰, 等. 被动式超低能耗建筑设计基础与应用[J]. 科学通报, 2015, 60(18): 1698-1710.
YANF L, YANG J J, SONG B, et al.Fundamental research and practice of passive and ultra-low energy consumption buildings[J]. Chinese science bulletin, 2015, 60(18): 1698-1710.
[4] 杨柳, 朱新荣, 刘艳峰, 等. 西藏自治区《居住建筑节能设计标准》编制说明[J]. 暖通空调, 2010, 40(9): 51-54.
YANG L, ZHU X R, LIU Y F, et al.Review of design standard for energy efficiency of residential buildings in Tibet Autonomous Region[J]. Journal of HV&AC, 2010, 40(9): 51-54.
[5] 西藏自治区住房与城乡建设厅. DB54/0016—2007 西藏自治区地方标准居住建筑节能设计标准[S]. 拉萨: 西藏人民出版社.
Housing and Urban-Rural Development Department of Tibet Autonomous Region. DB54/0016—2007 Design Standard for Energy Efficiency of Residential Buildings[S]. Lasa: Tibetan People’s Publishing House.
[6] 齐锋, 杨柳, 谢琳娜. 被动式太阳房冬季节能设计气候分区研究[J]. 建筑技术, 2015, 46(11): 5.
QI F, YANG L, XIE L N.Climatic zoning research on winter energy conservation design of passive solar house[J]. Architecture technology, 2015, 46(11): 5.
[7] BALCOMB J D.Passive solar buildings(Solar heat technologies)[M]. The Massachusetts Institute of Technology Press, 2008: 552.
[8] BALCOMB J D, JONES R W.Passive solar design handbook[M]. New York: American Solar Energy Society Inc, 1983.
[9] 杨柳, 刘加平. 利用被动式太阳能改善窑居建筑室内热环境[J]. 太阳能学报, 2003, 24(5): 605-610.
YANG L, LIU J P.Improvements of thermal environment of traditional yaodong dwellings with solar energy[J]. Acta energiae solaris sinica, 2003, 24(5): 605-610.
[10] 清华大学建筑节能研究中心. 中国建筑节能年度发展研究报告2020[M]. 北京: 中国建筑工业出版社, 2020.
Building Energy Efficiency Research Center of Tsinghua University. Research report on annual development of building energy efficiency in China 2020[M]. Beijing: China Architecture and Building Press, 2020.
[11] 商冉, 曲衍波, 姜怀龙. 人地关系视角下农村居民点转型的时空特征与形成机理[J]. 资源科学, 2020, 42(4): 13.
SHANG R, QU Y B, JIANG H L.Spatiotemporal characteristics and formation mechanism of rural residential land transition from the perspective of human-land relationship[J]. Resources Science, 2020, 42(4): 672-684.
[12] 中国建筑节能设计基础数据共享平台[2021-03-01]. http: // leb.xauat. edu. cn/.
Data sharing platform for building energy efficiency design in China[2021-03-01]. http: // leb.xauat. edu. cn/.
[13] JGJ 26—2018, 严寒和寒冷地区居住建筑节能设计标准[S].
JGJ 26—2018, Design Standard for energy efficiency of residential buildings in severe cold and cold zones[S].
[14] JGJ 134—2010, 夏热冬冷地区居住建筑节能设计标准[S].
JGJ 134—2010, Design Standard for energy efficiency of residential buildings in hot summer and cold winter zone[S].
[15] JGJ 75—2012, 夏热冬暖地区居住建筑节能设计标准[S].
JGJ 75—2012, Design Standard for energy efficiency of residential buildings in hot summer and warm winter zone[S].
[16] JGJ 475—2019, 温和地区居住建筑节能设计标准[S].
JGJ 475—2019, Design Standard for energy efficiency of residential buildings in moderate climate zone[S].
[17] 中国建筑标准设计研究院. 国家建筑标准设计图集11SJ937—2不同地域特色村镇住宅通用图集农村住宅规划与建筑设计丛书[M]. 北京: 中国建筑工业出版社, 2012.
China Institute of Building Standard Design & Research. Atlas of national building standard design 11SJ937—2 General Atlas of village and town houses with different regional characteristics A series of books on rural housing planning and architectural design[M]. Beijing China Architecture & Building Press, 2012.
[18] ASHRAE/IES Standard 90.1-2001. user’s manual[S]. American Society of Heating, Refrigerating and Air Conditioning Engineers.
[19] 李林波, 李杨. 面向精细化管理的停车需求短时预测[J]. 同济大学学报(自然科版), 2021, 49(9): 1301-1306.
LI L B, LI Y.Short-term prediction of parking demand for parking delicacy management[J]. Journal of Tongji University (natural science), 2021, 49(9): 1301-1306.