Literature Review on The Whole Life Cycle Assessment of Passive Buildings in The Context of Dual Carbon Emissions

Yuqi Liu; Xinsheng He

doi:10.54097/y3t1qd92

Authors

Yuqi Liu
Xinsheng He

DOI:

https://doi.org/10.54097/y3t1qd92

Keywords:

Passive building; carbon emissions; evaluation index.

Abstract

With the increasing global demand for sustainable buildings, passive building design has become an area of concern. The design concept of passive buildings is known for its efficient energy use and excellent indoor environmental quality. However, there is a need to delve deeper in order to fully assess the economics and sustainability of passive buildings. The whole life cycle management of passive buildings is a relatively new management concept, and the evaluation research of the whole life cycle of passive buildings under the dual-carbon target is still limited. This paper reviews the evaluation methods and criteria based on the whole life cycle of passive buildings. The literature review includes research conducted over the past two decades and will focus on evaluation indicators for passive buildings. Many reviews present evaluation indicators for low energy design in the full life cycle evaluation of passive buildings and discuss future design directions. This literature review serves as a preliminary step to guide the evaluation criteria of passive buildings in light of China's two-carbon target, which will help to enrich the evaluation indicators of passive buildings and promote the transition to high-quality development of passive buildings.

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References

Givoni B. Man, Climate and Architecture [J]. Elsevier: 1969.

Brown G Z. Sun, Wind, and Light: Architectural Design Strategies [J]. 1985.

Bannsal N K. Passive Building Design: A Handbook of Natural Climatic Control, Elsevier Science BV, 1994.

Daniel D. Hira. Solar Buildings ---- Passive Heating and Cooling [M]. Translated by Xue Yibing. Beijing: China Architecture and Construction Press, 2008.

James Marley O 'Connor. Passive Energy Saving Building [M]. Translated by Li Chan. Shenyang: Liaoning Science and Technology Press, 2015.

Wolfgang Pfister, Guo Ling, Sheng Si Chen, et al. Passive Housing Development in China: Health, Comfort, Economy and Sustainability [J]. Dynamic (Eco-City and Green Building), 2016(03):32-37.

Dumitra Ja 'cu A I,Corduban C G,Hapurne T M,Bliuc I.Passive House Design in Temperate Continental Climate for Increasing Indoor Comfort Conditions[J].IOP Conference Series: Earth and Environmental Science ,2022 ,1123(1).

Kang Ye, Ma Nan, Bunster Victor,et al. Optimizing the Passive House Planning Package Simulation Tool:A Bottom-Up Dynamic Approach to Reduce Building Performance Gap[J]. Energy & Buildings ,2022 ,276.

Rose Jørgen, Kragh Jesper, Nielsen Kasper Furu. Passive House Renovation of a Block of Flats Measured Performance and Energy Signature Analysis[J] Energy & Buildings, 2022, 256.

Diaz de Garayo S., Martinez A., Astrain D..Optimal Combination of an Air-to-Air Thermoelectric Heat Pump with a Heat Recovery System to HVAC a Passive House Dwelling[J]. Applied Energy ,2022, 309.

Yin Chaojie.Research on Passive Building Design Strategy Application in Hot Summer and Cold Winter Area[D]. Wuhan :Huazhong University of Science and Technology, 2007 .

Liu Jiaping, Tan Liangbin He Quan. Energy Saving Design in Architectural Creation[M]. Beijing: China Building Industry Press, 2009

Wan Li, Wu Enrong. Passive Low-Energy Building Design Evaluation in Sustainable Building Evaluation System [J]. Architectural Journal, 2012, (10).

Zhang Xiaoling. Basic Design Principles of Passive House [J]. Construction Science and Technology, 2013(09): 30-31.

Song Angyang, Wu Jianlin, Gao Caifeng. The Role of PHPP Software in the Design Optimization of Passive Ultra-Low Energy Green Buildings: A Case Study of the Passive House Project in Sino-Singapore Eco-City in Tianjin [J]. Building Science, 2016, 32(4): 38-43.

Zhou Wenjing. Life Cycle Evaluation of Sustainable Buildings [D]. Qingdao: Ocean University of China, 2014.

Yin Baogang. Efficiency Evaluation and Policy Support for Passive Energy-Saving Buildings [D]. Xi 'an: Xi 'an University of Architecture and Technology, 2014.

Xu Chao, Song Wenbo. Passive Building Development Status and Countermeasures in China [J]. Journal of Jilin Jianzhu University, 2018, 35(03):82-84+88.

CAI Wei. Research on Comprehensive Evaluation of Passive Building Engineering based on the Perspective of Whole Life Cycle [D]. Baoding: North China Electric Power University,

Song Xiaogang,Liu Yao-Hua,Zhang Pei-Xing et al.Research on the Promotion and Development StrategyofPassive Ultra-Low Energy Buildings[J].Building Economics，2020，43（02）：5-10

Shi Yuanyuan,Fu Sujuan, Hao Yuhang et al. Research on the Development of Passive Ultra-Low Energy Buildings in Hebei Province based on Incentive Strategy Control[J]Building Techniques，2023，54（02）：167-170

Zhang Zhenyuan. Related Technologies of passive ultra-low energy Buildings and their development trend [C]// Organizing Committee of Building Technology and Management. Proceedings of Academic Exchange Conference on Building Technology and Management in July 2021.[Publisher unknown], 202:49-50.

Zhang Hetian, Zhang Yuexi, Zhang Xinyu. Discussion on the effective Reduction of carbon Emission in the development of high-quality passive ultra-low Energy consumption buildings [C]// Hebei Provincial Society of Environmental Sciences. Proceedings of the 22nd Annual Conference of Environmental Science Society of Five provinces (districts) in North China.[Publisher unknown], 202:86-89.

Zhou Hengfang, Song Liwei, Wang Weiling. Development analysis of passive ultra-low energy consumption buildings in China [J]. Henan Science and Technology,2021,40(36):83-86.

A Safaei, F Freire, CH Antunes. A life-cycle cost optimization model with environmental impact assessment for energy management of service buildings [J]. International Symposium on Sustainable Systems & Technology,2012.

Chiu R L. Environmental sustainability of Hong Kong's housing system and the housing process model [J]. International Planning Studies, 2000, 5(1): 45-64

Tsai W H, Yang C H, Chang J C, et al. An Activity-Based Costing decision model for life cycle assessment in green building projects [J]. European Journal of Operational Research, 2014, 238(2):607-619.

Building T R O. The rise of the green building [J]. Economist, 2004(8404):18.

Tulacz GJ. Insurers worry about green-building risks[N].ENR: Engineering News-Record, 2008. 7, 261(1):10-11.

Robichaud L B, Anantatmula V S. Greening Project Management Practices for Sustainable Construction [J]. Journal of Management in Engineering, 2010, 27(1):48-57.

Edwin, H. W. Chan. The market for green building in developed Asian cities-the perspectives of building designers [J]. Energy Policy,2009(9):3061-3070.

Zinah Yasa, Kamal Jaaferb. Factors influencing the spread of green building projects in the UAE[J]. Journal of Building Engineering,2019(27):312-329.

Yong Han Ahn, Chan Woo Jung, Min jae Suh, Myung Hwa Jeon. Integrated Construction Process for Green Building[J]. Procedia Engineering,2016,145:670-676.

Hansen, H. and Knudstrup, M. The Integrated Design Process IDP-a more holistic approach to sustainable architecture. The 2005 World Sustainable Building Conference: Tokyo,2005.

Pearl, D. An ntergrated Design Process (IDP) The crossover between practice and education breeds a new form of architectural representation[J].Canadian Architect, 2004:32-35.

Weimin Wang, Radu Zmeureanu, Hugues Rivard. Applying multi-objective genetical gorithms in green building design optimization[J]. Building and The Environment, 2004, 40 (11).

MohammadiS, Birgonul MT. Preventing claimsin green construction projects through investigating the components of contractual and legal risks [J]. Journal of Cleaner Production, 2016, 139:1078-1084

Hu Yunliang. Research on Greenness Evaluation of Large Public Buildings [D]. Tianjin University,2008.

Cheng Kai. Research on Evaluation index System of building greenness [J]. Cooperative Economy and Science and Technology, 2010,(13):10-11.

Wang Lijuan, Zhu Wen. Research on Greenness evaluation System of Construction Projects [J]. Project Management Technology,2014,12(08):35-

Hou Ling. Research on Evaluation of Green Building Based on cost-benefit Analysis [D]. Xi 'an University of Architecture and Technology,2006.

Zhi Jiaqiang, Zhao Jing, Li Nan. Green building evaluation based on artificial neural network method [J]. Urban Environment and Urban Ecology,2010,23(04):44-47.]

Zhao Jingxin, Zhang Xiyu, Liu Conghong. Research on comprehensive evaluation method of Ecological building based on TOPSIS [D]. Shanghai Jiao Tong University,2007. Research on Evaluation system of affordable housing Green Building design suitable for Southwest Henan [J]. Journal of Architecture,2015(10):92-95.

Zhao Jingxin, Zhang Xiyu, Liu Conghong. Research on Evaluation system of green building Design for affordable housing in Southwest Henan [J]. Architectural Journal, 2015 (10):92-95.

Sui Lijun, Wu Chunyou, Lu Xiaoli. A study on the construction of evaluation index system of greenness degree of elderly care community [J]. Value Engineering,2019,38(05):1-4.]

Bao Xueying, Zhang Jian, Wang Qicai. Study on Green Construction Grade Evaluation of Railway in Cold and Drought Area of Northwest China [J]. Journal of Railway Science,2019,41(03):33-39.

Sun Mingchun. Economic Benefit analysis of Green Building under the concept of whole life cycle cost [J]. Urban Development Research,2015,22(09):25-28.

Ma Rui. Environmental Benefit Evaluation of Green Residential District based on incremental cost Benefit [D]. Tianjin University, 2018.

Ding Guli. Economic and Social Evaluation of Green Housing [D]. East China Jiaotong University,2011.

Xu Pei. Evaluation of energy efficiency and economy of Green Building and its sensitivity analysis [D]. Shanghai Jiaotong University,2017.