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International Journal of Engineering Technology and Construction, 2022, 3(3); doi: 10.38007/IJETC.2022.030303.

Green Building Design Based on Computer Aided Analysis

Author(s)

Shan Wu

Corresponding Author:
Shan Wu
Affiliation(s)

Faculty of Art Design, Guangdong Baiyun University, Guangzhou 510450, Guangdong, China

Abstract

Green building is getting the attention of the construction industry and all walks of life. However, green building is still in its infancy, its theory is gradually mature, but the backward technology causes many difficulties in the practice of green building. The purpose of this paper is to analyze green building design by computer-aided simulation. Firstly, the application of computer simulation analysis in building is studied, and the task of computer simulation analysis of green building is defined. Then from two aspects of light environment and wind environment, this paper studies the computer simulation analysis method of green building, and summarizes the computer simulation method of BIM performance analysis of green building. Finally, taking green building engineering as an experiment, the simulation method summarized in this paper is applied to analyze the design of green building engineering. The experimental results show that in the indoor environment analysis, given the pressure boundary conditions for the four windows of the building, the pressure of the south window is + 2.5pa, the pressure of the west window is + 1.5pa, the pressure of the east window is - 1.5pa, the pressure of the North window is - 2.5pa. The ventilation situation of the three rooms in North, South and East directions changed greatly before and after optimization, among which the rooms in North and south directions changed greatly, and the indoor wind speed increased by 0.1m/s.

Keywords

Simulation Analysis Software, Ecological Analysis, Auxiliary Means, Sustainable Development, Green building

Cite This Paper

Shan Wu. Green Building Design Based on Computer Aided Analysis. International Journal of Engineering Technology and Construction (2022), Vol. 3, Issue 3: 37-51. https://doi.org/10.38007/IJETC.2022.030303.

References

[1]Azmi N A , Kandar M Z , Toe D H C . Daylight Optimization for Green Office Building: A Study of West Facing Window Design and Configuration. Journal of Computational & Theoretical Nanoscience, 2017, 23(9):9177-9182.

[2]Yue MIAO, Xiaogang CHEN. Special Space and Plant Landscape Design of Urban Ecological Buildings. Asian Agricultural Research, 2016, 08(7):53-55.

[3]Burrascano P , Fiori S , Mongiardo M . A review of artificial neural networks applications in microwave computer-aided design. International Journal of RF and Microwave Computer-Aided Engineering, 2015, 9(3):158-174.

[4]ZHOU Tuan-feng, ZHANG Xiang-hao, WANG Xin-zhi. Three-dimensional finite element analysis of one-piece computer aided design and computer aided manufacture involved zirconia post and core. Beijing Da Xue Xue Bao, 2015, 47(1):78-84.

[5]Behnam Neyestani. A Review on Sustainable Building (Green Building). Mpra Paper, 2017, 6(1):451-459.

[6]Zhang Q , Wang Y , Liang R . Comparison and optimization suggestion for campus system of U.S. and China green building evaluation standards. Journal of Xian University of Architecture & Technology, 2017, 49(3):416-421.

[7]Yong Zhong, Guofang Wu, Haiqing Ren. A determination method of compressive design value of dimensional lumber. Journal of Wood Science, 2018, 64(5):526-537.

[8]Rozilah Kasim, Muhammad Akilu Umar, Mohd Hafizal Ishak. Framework Development to Identify the Impact of Green Building Attributes on Rental Value of Commercial Properties in Malaysia. Journal of Computational & Theoretical Nanoscience, 2018, 24(5):3229-3233.

[9]Zhao J , Huang Z . A Comparative study on LEED V4 and assessment standard for green building. Journal of Xian University of Architecture & Technology, 2017, 49(3):408-415.

[10]Xiang Yu, Qide Zhang, Jian Kang. Predicting integrated thermal and acoustic performance in naturally ventilated high-rise buildings using CFD and FEM simulation. Building Simulation, 2017, 11(1):1-12.

[11]Yousef Alhorr, Esam Elsarrag. Climate Change Mitigation through Energy Benchmarking in the GCC Green Buildings Codes. Buildings, 2015, 5(1):700.

[12]Liang Shuang, Han Yibin. The Exploration of Green Architecture Design Integration Teaching Mode. International Education Studies, 2016, 9(9):224.

[13]Pan J , Jain R , Paul S , et al. An Internet of Things Framework for Smart Energy in Buildings: Designs, Prototype, and Experiments. IEEE Internet of Things Journal, 2015, 2(6):527-537.

[14]Michael Y. L. Chew, Sheila Conejos, Ashan Senel Asmone. Developing a research framework for the green maintainability of buildings. Facilities, 2017, 35(1/2):39-63.

[15]Rambalak Yadav, Abhishek Kumar Dokania, Govind Swaroop Pathak. The influence of green marketing functions in building corporate image: Evidences from hospitality industry in a developing nation. International Journal of Contemporary Hospitality Management, 2016, 28(10):2178-2196.

[16]Jill Breysse, Sherry L Dixon, David E Jacobs. Self-Reported Health Outcomes Associated With Green-Renovated Public Housing Among Primarily Elderly Residents. Journal of Public Health Management & Practice, 2015, 21(4):355.

[17]Vimpari J , Junnila S . Valuing green building certificates as real options. Journal of European Real Estate Research, 2016, 7(2):181 - 198.

[18]Mehmet Selim Bilgin, Ebrunur Baytaroglu, Ali Erdem. A review of computer-aided design/computer-aided manufacture techniques for removable denture fabrication. European Journal of Dentistry, 2016, 10(2):286.

[19]Ralph T. Muehleisen. Synergies between high performance buildings and good acoustics. Journal of the Acoustical Society of America, 2015, 138(3):1738-1738.

[20]PooGyeon Park, Seok Young Lee, Won Il Lee. New Stability Analysis for Discrete Time-delay Systems via Auxiliary-function-based Summation Inequalities. Journal of the Franklin Institute, 2016, 353(18):5068-5080.

[21]Z.-W. Xia, Q.-L. Yuan, K.-J. Mao. Vibration characteristics analysis of auxiliary mono-layer semi-active isolation system. Chuan Bo LI Xue/journal of Ship Mechanics, 2017, 21(1):69-75.

[22]Da Qu, JiaDai Xue, Peng Zhang. Applications of integrated auxiliary methods based on deformation analysis for micro-milling thin-walled slot on micro-neck. International Journal of Advanced Manufacturing Technology, 2017, 91(5):1-11.

[23]Sung-Won Seo, Gang-Hyeon Jang, Min-Mo Koo. Characteristic Analysis of the Influence of Auxiliary Teeth and Notching on the Reduction of the Detent Force of a Permanent Magnet Linear Synchronous Machine. IEEE Transactions on Applied Superconductivity, 2018, PP(99):1-1.

[24]Dong Han, Hlaing Minn. Performance Analysis of Distributed Auxiliary Radio Telescopes under Shared Spectrum Access Paradigm and Cooling Power Constraint. IEEE Access, 2017, PP(99):1-1.

[25]X.-M. Zhou, Y.-K. Xie, D.-C. Li. Field monitoring & analysis on the stressing deformation of single layer lining of auxiliary shaft over 1 000 m deep in Cixi Colliery. Journal of China Coal Society, 2015, 40(5):1015-1020.