The Green Degrees of Single Construction Technology Assessment System Using AHP-Fuzzy

Cheng Yi; Jun Yi Huang; Fu Yan Sun; Meng Lan Lin; Qiang Liu

doi:10.4028/www.scientific.net/AMR.671-674.2636

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 671-674The Green Degrees of Single Construction...

The Green Degrees of Single Construction Technology Assessment System Using AHP-Fuzzy

Abstract:

According to the idea of the life cycle assessment method (LCA), the consumption of the energy and material, which is involved in the whole life cycle in each phase of single green construction technique, and the impact on the environment, is discussed. Based on the fuzzy comprehensive evaluation theory, a green degree evaluation system is established. The Analytic Hierarchy Process method (AHP) is adopted to establish green assessment system of the hierarchical structure model, and by means of 10/10-18/2 scaling method through pairwise comparison on tectonic judgment matrix of each level, the weight of each affecting factor is ultimately determined. Finally, VB program is used to compile visual programs of green degrees assessment. The quantitative assessment of integrated green degree for green construction technology is obtained, after inputting the score of the corresponding index, with reference to the influence of the factors assessment standards. By verifying rationality of the assessment system, the study proves that the system plays a guidance role in the self-assessment and reasonable construction for the construction of green technology.

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Periodical:

Advanced Materials Research (Volumes 671-674)

Pages:

2636-2643

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.671-674.2636

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Online since:

March 2013

Authors:

Cheng Yi, Jun Yi Huang, Fu Yan Sun, Meng Lan Lin, Qiang Liu

Keywords:

Analysis Hierarchy Process (AHP), Green Degree Evaluation, Life Cycle Assessment, Single Construction Technology, Visual Program

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References

[1] Guiwen Liu, Pengpeng Liu, Research of Green Construction Evaluation System Based on Fuzzy Comprehensive Evaluation [J], Ecological Economy (academic edition), No. 10, 31-37, (2007).

Google Scholar

[2] Xibing Huang, Qing Huang, Xiaofei Wu, Fuzzy Comprehensive Evaluation of Green Construction [J], Journal of Southwest Jiaotong Universit, No. 2, 292-296, (2008).

Google Scholar

[3] Meiyun Li, Canliang Fan, Evaluation Index System of Green Construction [J], Engineering Construction, Volume 12, No 1, 56-60, (2008).

Google Scholar

[4] GB/T50640-2010, Evaluation Standard for Green Construction [S].

Google Scholar

[5] Xisheng Zhu, Hong Ren, Sustainable Development and Green Construction [J], Optimization of Capital Construction, No. 4, 33-35, Aug. (2002).

Google Scholar

[6] Daojin Gu, Yingxin Zhu, Lijing Gu, Life Cycle Assessment for China Building Environmental Impact [J]. Journal of Tsinghua University (Sci & Tech), Volume 46, No. 12, 1953-1956, (2006).

Google Scholar

[7] Suofa ZHUANG, Fuzzy Comprehensive Evaluation Model Based on Analytic Hierarchy Process[J], Journal of Hefei University of Technology, Volume 23, No. 4 , (2000).

Google Scholar

[8] Cheng Yi, Jing Shi, Renyu Zhang, Xiaolong Zhao, Comprehensive Assessment of Green Degree of Building Material Using Fuzzy AHP [C], China Building Materials Industry Press (Beijing), 293-300, (2008).

Google Scholar

[9] Green Olympic Architecture Research Group, Assessment System for Green Olympics Buildings (the first edition). China Architecture & building Press (Beijing), (2003).

Google Scholar

[10] ISO/CD 14042. Environmental Management-life Cycle Assessment Cycle Impact Assessment[S], (1977).

DOI: 10.3403/02947441u

Google Scholar

[11] C. M. Tam, Vivian W. Y. Tam, W. S. Tsui. Green construction assessment for environmental management in the construction industry of Hong Kong[J]. International Journal of Project Management, Volume 22, No. 7, 563-571, (2004).

DOI: 10.1016/j.ijproman.2004.03.001

Google Scholar

[12] Lianfen Wang, Shubai Xu, An Introduction to Analytic Hierarchy Process [M], China Renmin University Press (Beijing), (1990).

Google Scholar

[13] Decai Huang, Lin Xu, Proportion Criteria and Method for Building Comparison Matrices in the Analytic Hierarchy Process [J], Control and Decision, Volume 17, No. 4, 484-486, (2002).

Google Scholar

[14] Zhengqing Luo, Shanlin Yang, comparative study on several scales in [J], Theory and Practice of System Engineering, 51-60, Sep. (2004).

Google Scholar

[15] Juliang Jin, Yiming Wei, Jing Ding, Fuzzy Comprehensive Assessment Model Based on the Analytic Hierarchy Process [J], Journal of Hydraulic Engineering, No. 3, 65-69, (2004).

Google Scholar

[16] Wei Hu, Chuanshu Zong, Yunzhong Jiang, Subordinating Function and Fuzzy Methodology on the Classification of Building Reliability Judgment, [J]. physics and water conservancy, science and technology, Volume 6, No. 2 , 39-41, (2008).

Google Scholar