Discussion on low-carbon economy and low-carbon building technology

Discussion on low-carbon economy and low-carbon building technology

下载PDF

导出

摘要 The paper introduced low-carbon economy and low-carbon technology, and proposed the de-tailed technical measures of low-carbon build-ing technology. Moreover, it has quantitatively calculated the “implicit” CO2 emission of C40 and C50 concrete columns, aluminium curtain wall, wall paintings and common floor decora-tion materials. The calculation results show that it is preferable to use high strength concrete, reduce the usage of aluminium materials and use wooden floor according to location. The paper can be a reference for quantitative meas-urement to the low-carbon technology and en-ergy efficiency. The paper introduced low-carbon economy and low-carbon technology, and proposed the de-tailed technical measures of low-carbon build-ing technology. Moreover, it has quantitatively calculated the “implicit” CO2 emission of C40 and C50 concrete columns, aluminium curtain wall, wall paintings and common floor decora-tion materials. The calculation results show that it is preferable to use high strength concrete, reduce the usage of aluminium materials and use wooden floor according to location. The paper can be a reference for quantitative meas-urement to the low-carbon technology and en-ergy efficiency.

作者 Xiao-Gen Shuai Hui-Qiang Li

机构地区 CNNC Hunan Taohuajiang Nuclear Power CO. School of Civil Engineering and Mechanics School of Civil Engineering and Mechanics

出处《Natural Science》 2009年第1期37-40,共4页 自然科学期刊（英文）

关键词 Low-Carbon ECONOMY Low-Carbon TECHNOLOGY BUILDING TECHNOLOGY QUANTITATIVE CALCULATION Low-Carbon Economy Low-Carbon Technology Building Technology Quantitative Calculation

分类号 F4 [经济管理—产业经济]

引文网络
相关文献

参考文献2

1杨建新,刘炳江.中国钢材生命周期清单分析[J].环境科学学报,2002,22(4):519-519. 被引量：40
2龚志起,张智慧.水泥生命周期中物化环境状况的研究[J].土木工程学报,2004,37(5):86-91. 被引量：29

二级参考文献10

1D J Harris. A quantitative approach to the assessment of the environmental impact of building materials [ J]. Building and Environment, 34 (1999), 751 - 758.
2ISO/CD 14042, 2. Environmental management - Life cycle assessment- Life cycle impact assessment [S]. 1997.
3Hauschild M, and Wenzel H. Environmental assessment of products. Volume 2: scientific background [ M]. Chapman and Hall. London, United Kingdom, 1998.
4David Shipworth. A stochastic framework for embodied greenhouse gas emissions modeling of construction materials [ J ]. Building Research and Information (2002) 30 (1), 16-24.
5Roger Fay, Graham Treloar and Usha Iyer - Raniga. Life - cycle energy analysis of buildings: a case study [J]. Building Research and Information, (2000) 28 (1), 31-41.
6B V Venkatarama Reddy, K S Jagadish. Embodied energy of common and alternative build- ing materiala and technologies [J]. Energy and Buildings, 35 (2003) 129-137.
7(澳)比尔·劳森 (澳)大卫·鲁德协著张明顺译.建筑材料、能源与环境:朝向生态可持续发展[M].北京:中国环境科学出版社,2000..
8刘顺妮,林宗寿,张小伟.硅酸盐水泥的生命周期评价方法初探[J].中国环境科学,1998,18(4):328-332. 被引量：52
9杨建新.面向产品的环境管理工具:产品生命周期评价[J].环境科学,1999,20(1):100-103. 被引量：45
10李涛平.水泥工业结构调整的瓶颈问题[J].水泥工程,2003(1):5-11. 被引量：6

共引文献67

1贾兆琪,杨璐,及炜煜,徐克龙,范俊伟.基于生命周期评价的钢结构碳排放计算模型研究[J].工业建筑,2023,53(S01):301-308. 被引量：2
2林琳,赵黛青,魏国平,刘尚余.生物质直燃发电系统的生命周期评价[J].华电技术,2006,29(12):18-23. 被引量：16
3王腊芳,张莉沙.钢铁生产过程环境影响的全生命周期评价[J].中国人口·资源与环境,2012,22(S2):239-244. 被引量：19
4李飞,崔胜辉,高莉洁,林剑艺,于洋.砖混和剪力墙结构住宅建筑碳足迹对比研究[J].环境科学与技术,2012,35(S1):18-22. 被引量：9
5刘彦宾,王晓涛,林波荣,彭渤.建筑部品及设备生命周期能耗数据研究进展[J].建筑科学,2011,27(S2):255-262. 被引量：5
6孙军强,龚志起.平板玻璃物化环境状况的评价[J].青海大学学报（自然科学版）,2004,22(6):50-52. 被引量：2
7陶建宏,王京芳,张蓉.基于LCIA的产品“绿色度”评价方法及应用[J].软科学,2005,19(3):10-13. 被引量：7
8吴星,张智慧,肖厚忠.北京市多层住宅建筑的物化环境影响研究[J].清华大学学报（自然科学版）,2005,45(6):721-725. 被引量：6
9韦保仁,八木田浩史.中国钢铁生产量及其能源需求和CO_2排放量情景分析[J].冶金能源,2005,24(6):3-6. 被引量：11
10郎芳,马晓茜,赵增立,李海滨.基于LCA的月饼包装评价[J].包装工程,2006,27(1):109-111. 被引量：11

1Yang YU.Low-carbon technology calls for comprehensive electricitymarket redesign[J].Frontiers of Engineering Management,2019,6(1):128-130.
2Mohsen Karami,Masoumeh Shafieian.The Effect of Television Decors on the Change of Reverberation Time of the Studio[J].Open Journal of Acoustics,2013,3(2):31-35.
3Zhang Pingli,Fang Yonghao,Fang Fei.Analysis of Quality Control and Safety Management in Electrical Engineering[J].Journal of Electronic Research and Application,2018,2(1):17-21.
4YIN Wenchao,LIU Yongwang,YI Wenting,LU Xingchao,ZHAO Xin,ZHAO Li.Ecological and Low-carbon Technology in Urban Decentralized Treatment and Reclamation of Wastewater[J].Journal of Landscape Research,2018,10(3):76-80.
5Roy Kozlovsky.The “Glocal” Dynamics of Construction Labor and Digital Architecture: Preston Scott Cohen’s Addition to the Tel Aviv Museum as Case Study[J].Journal of Building Construction and Planning Research,2015,3(2):82-94.
6Xianglong MA,Jingxu WU,Yixin LIANG,Shaohua LIU,Yongmei WANG.Outdoor Domestication Cultivation and Survival Mechanism for Tissue Culture Seedlings of Paeonia suffruticosa[J].Asian Agricultural Research,2019,11(8):60-63.
7DENG Mao-Zhi,ZHANG Wen-Xiu.Recognition and analysis of potential risks in China's carbon emission trading markets[J].Advances in Climate Change Research,2019,10(1):30-46. 被引量：7
8杨力.沿海地区隧道二次衬砌泵送混凝土改善矿粉掺入量对混凝土收缩影响的试验浅究[J].中华建设,2019,0(15):0292-0294.
9Hannah Nyambara Ngugi,Raphael Ndisya Mutuku,Zachary Abiero Gariy.Effects of Sand Quality on Compressive Strength of Concrete: A Case of Nairobi County and Its Environs, Kenya[J].Open Journal of Civil Engineering,2014,4(3):255-273. 被引量：1
10Liuli Lu,Zhibin Liu,Haohan Liu,Yongqin Yan.Study on Technical Measures of Romashkino Oil Field after Entering Ultra-High Water Cut Stage[J].Engineering（科研）,2013,5(7):622-628. 被引量：2

Natural Science

2009年第1期

浏览历史

内容加载中请稍等...

Discussion on low-carbon economy and low-carbon building technology

参考文献2

二级参考文献10

共引文献67

相关作者

相关机构

相关主题

浏览历史