Research on Intelligent Demolition Method Based on BIM and 3D Scanning

WANG Libo; LIN Zhongcai; HAN Jinwen

doi:10.13204/j.gyjzG22012601

Volume 53 Issue 2

Feb. 2023

Turn off MathJax

Article Contents

Abstract

References

Article Navigation > INDUSTRIAL CONSTRUCTION > 2023 > 53(2): 12-21

WANG Libo, LIN Zhongcai, HAN Jinwen. Research on Intelligent Demolition Method Based on BIM and 3D Scanning[J]. INDUSTRIAL CONSTRUCTION, 2023, 53(2): 12-21. doi: 10.13204/j.gyjzG22012601

Citation:

WANG Libo, LIN Zhongcai, HAN Jinwen. Research on Intelligent Demolition Method Based on BIM and 3D Scanning[J]. INDUSTRIAL CONSTRUCTION, 2023, 53(2): 12-21. doi: 10.13204/j.gyjzG22012601

WANG Libo, LIN Zhongcai, HAN Jinwen. Research on Intelligent Demolition Method Based on BIM and 3D Scanning[J]. INDUSTRIAL CONSTRUCTION, 2023, 53(2): 12-21. doi: 10.13204/j.gyjzG22012601

Citation:

WANG Libo, LIN Zhongcai, HAN Jinwen. Research on Intelligent Demolition Method Based on BIM and 3D Scanning[J]. INDUSTRIAL CONSTRUCTION, 2023, 53(2): 12-21. doi: 10.13204/j.gyjzG22012601

PDF( 1352 KB)

Research on Intelligent Demolition Method Based on BIM and 3D Scanning

doi: 10.13204/j.gyjzG22012601

School of Civil and Architectural Engineering, Anyang Institute of Technology, Nanyang 455000, China

Received Date: 2022-01-26
Available Online: 2023-05-25
Publish Date: 2023-02-20

Abstract

Abstract

To enhance the informatization of building demolition and improve the utilization of construction waste, the paper proposed a framework of intelligent demolition based on BIM and 3D scanning. Firstly, the point cloud of existing structures is obtained and registered by using a 3D scanner and the triangular target proposed in this paper. Then the geometric parameters of the structures are extracted used for the reconstruction of the BIM model based on the point cloud processing extraction algorithm. Afterwards, the demolition plan, safety simulation and economic evaluation are carried out based on the BIM model. The practical application showed that the point cloud registration method based on the triangular target was applicable to the point cloud registration of large point cloud, and the geometric measurement algorithm could accurately extract the dimensions of the building components; the demolition scheme, numerical simulation and cost measurement model developed based on this BIM model could accurately evaluate the safety and economy of the demolition method in advance. The framework constructed an intelligent building demolition system from four aspects:site investigation, scheme development, safety assessment, and cost analysis, which could provide a new way to realize information-based and sustainable building demolition.
- intelligent demolition,
- building solid waste management,
- Building Information Modelling (BIM),
- point cloud,
- sustainable building

FullText(HTML)

References(43)

References

[1]	DING T, XIAO J Z, TAM V W Y. Characterizing the generation and flows of construction and demolition waste in China[J]. Construction and Building Materials, 2017, 136:405-413.
[2]	CLYDE ZENDAO Li, ZHAO Y, XIAO B, et al. Research trend of the application of information technologies in construction and demolition waste management[J]. Journal of Cleaner Production, 2020, 263:1-17.
[3]	MA M X, TAM V W Y, LE K N, et al. Challenges in current construction and demolition waste recycling:a China study[J]. Waste Management, 2020, 118:610-625.
[4]	European Commission. Guidelines for the waste audits before demolition and renovation works of buildings[S]. Brussels:European Demolition Association, 2018.
[5]	叶海旺,李庆,郑长青,等. 22层框架楼房定向爆破拆除倒塌过程分析[J]. 爆破, 2021, 38(2):111-117.
[6]	刘昌邦,贾永胜,黄小武,等. 砖混结构楼房逐段向内倾倒爆破拆除[J]. 爆破, 2021, 38(6):1-7.
[7]	陈艳丹,文华. 钢筋混凝土框架结构机械拆除施工仿真模拟[J]. 西南科技大学学报, 2017, 32(3):48-54.
[8]	胡可. 中国城市建筑短命现象初探[D]. 武汉:华中科技大学, 2010.
[9]	刘贵文, 徐可西, 张梦俐,等. 被拆除建筑的寿命研究:基于重庆市的实地调查分析[J]. 城市发展研究, 2012(10):109-111.
[10]	毛以卫,金天红,祝自强. 建筑物拆除及建筑垃圾处理分析[C]//第26届华东六省一市土木建筑工程建造技术交流会论文集(下册). 杭州:2020:328-331.
[11]	彭立港,赵羽习,曾维来,等. 再生骨料混凝土界面参数研究[J]. 建筑材料学报, 2021(8):1-15.
[12]	刘锟,陈宣东,黄达. 再生混凝土的研究现状及未来研究趋势分析[J]. 混凝土, 2020, 372(10):47-50.
[13]	田青,屈孟娇,张苗,等. 废弃混凝土再生微粉激活方式研究进展[J]. 硅酸盐通报, 2020, 39(8):2476-2485.
[14]	JACK C P Cheng, LAUREN Y H Ma. A BIM-based system for demolition and renovation waste estimation and planning[J]. Waste Management, 2013, 33(6):1539-1551.
[15]	于向东,王慧慧.基于SPMT的斜交跨线连续梁快速拆除及BIM技术应用研究[J]. 公路交通科技(应用技术版), 2020, 16(11):225-228.
[16]	黄玮征,董宇路,张锡霖. BIM技术在跨内河航道桥梁拆除施工中的应用研究:以上海浦星公路桥工程为例[J]. 土木建筑工程信息技术, 2019, 11(5):36-42.
[17]	罗春燕. 基于BIM的拟拆除建筑垃圾决策管理系统研究[D]. 重庆:重庆大学, 2015.
[18]	俞朝晖.面向馆藏文物的三维数据获取及可视化研究[D].广州:华南理工大学,2016.
[19]	武培轩.适于文物的三维扫描技术研究[D].杨凌:西北农林科技大学,2019.
[20]	李雪.基于古建筑保护修缮需求的三维激光扫描数据应用研究[D].北京:北京工业大学,2018.
[21]	PANTINI S, RIGAMONTI L. Is selective demolition always a sustainable choice?[J]. Waste Management, 2020, 103:169-176.
[22]	ZHOU Y, HAN D, HU K, et al. Accurate virtual trial assembly method of prefabricated steel components using terrestrial laser scanning[J]. Advances in Civil Engineering, 2021,2021:1-15.
[23]	史红霞,王建民. 基于法向量区域聚类分割的点云特征线提取[J]. 中国机械工程, 2021, 32(21):2552-2561.
[24]	王晓辉, 吴禄慎,陈华伟,等. 基于区域聚类分割的点云特征线提取[J]. 光学学报, 2018, 32(21):2552-2561.
[25]	杨明珠. 基于三维激光扫描点云数据特征点提取及建筑物重建[D]. 昆明:昆明理工大学, 2017.
[26]	张柳柳. 基于Dynamo可视化编程的桥梁BIM模型参数化布设方法研究[D]. 杭州:浙江大学, 2021.
[27]	滕飞. 基于点云数据的结构BIM模型研究[D]. 哈尔滨:哈尔滨工程大学, 2016.
[28]	杨金泽. 可视化编程技术Dynamo在工程信息管理中的应用研究[D]. 重庆:重庆大学, 2018.
[29]	肖建庄,陈立浩,叶建军,等. 混凝土结构拆除技术与绿色化发展[J]. 建筑科学与工程学报, 2019, 36(5):1-10.
[30]	王威,贾永胜,韩传伟,等. 框架结构楼房定向爆破拆除后坐控制措施及应用[J]. 爆破, 2021, 38(2):105-110 , 117.
[31]	徐志鹏,张晓阳. 预应力混凝土连续箱梁桥拆除方法及其结构分析研究[J]. 智能城市, 2020, 6(4):175-176.
[32]	宋佳. 既有高速公路上跨桥拆除方案及验算[J]. 安徽建筑, 2020, 27(8):179-180.
[33]	肖建庄,张文泽,刘堡嘉,等. 城市中心区高层建筑绿色拆除方法[J]. 建筑科学与工程学报, 2021, 38(1):23-30.
[34]	郝赤彪, 苏楠. 建筑拆除过程中的可持续措施初探[J]. 中外建筑, 2015(2):3.
[35]	刘照球,张吉. 结构分析BIM模型框架和数据转换应用[J]. 工业建筑, 2015, 45(2):178-183.
[36]	王玄玄,黄玉林,赵金城,等. Revit-Abaqus模型转换接口的开发与应用[J]. 上海交通大学学报, 2020, 54(2):135-143.
[37]	邹新,林焯铭,杨旭杰,等. 基于BIM的精细化有限元模型转换方法[J]. 土木工程与管理学报, 2022, 39(1):137-143.
[38]	陈志为,吴焜,黄颖,等. 基于BIM的复杂结构有限元精细模型生成[J]. 土木工程与管理学报, 2018, 35(5):60-64 , 81.
[39]	LI Y S, LI H, TAM V W Y, et al. A checklist for assessing sustainability performance of construction projects[J]. Journal of Civil Engineering and Management, 2010, 13(4):273-281.
[40]	魏英烁,姬国强,胡力群. 建筑垃圾回收再利用研究综述[J]. 硅酸盐通报, 2019, 38(9):2842-2846.
[41]	WANG T K, WU Z Q, LUO C Y. Multi-participant construction waste demolition and transportation decision-making system[J/OL]. Resources, Conservation and Recycling, 2021, 170(2021-03-26). https://doi.org/10.1016/j.resconrec.2021.105575.
[42]	王文芳,杨刚,姜亚丽. 基于BIM的桥梁有限元模型转换与结构分析方法[J]. 大连海事大学学报, 2021, 47(3):111-119.
[43]	陈艳丹,文华. 钢筋混凝土框架结构机械拆除施工仿真模拟[J]. 西南科技大学学报, 2017, 32(3):48-54.

Relative Articles

[1]	ZHANG Guilin, WANG Jingde, HAN Yang, WEI Dong, XING Rong. Research on Registration Method Based on Point Cloud Data and BIM Model[J]. INDUSTRIAL CONSTRUCTION, 2024, 54(5): 68-74. doi: 10.13204/j.gyjzG22091503
[2]	JIN Qinming, CHENG Guozhong, LI Dongsheng, WANG Cong, CHEN Shasha, WANG Ruirong, BI Jinggang. Intelligent Deformation Monitoring for Lifting Space Frames Based on Point Cloud Data[J]. INDUSTRIAL CONSTRUCTION, 2022, 52(12): 209-215. doi: 10.13204/j.gyjzG21061811
[3]	LI Xinsheng, ZHENG Qizhen, WU Lufang, CHEN Gang. Research on Key Technology of the Intelligent Monitoring System for Construction Information Based on BIM and Unity WebGL[J]. INDUSTRIAL CONSTRUCTION, 2022, 52(2): 186-195. doi: 10.13204/j.gyjzG21033111
[4]	LIU Zhansheng, SHI Guoliang, SUN Jiajia. DIGITAL TWIN AND ITS APPLICATION IN INTELLIGENT CONSTRUCTION[J]. INDUSTRIAL CONSTRUCTION, 2021, 51(3): 184-192. doi: 10.13204/j.gyjzG20081017
[5]	ZOU Yichong, HU Lili, FENG Peng, LI Qingwei, TENG Mingrui. PRECISE MEASUREMENT METHOD OF INITIAL GEOMETRIC IMPERFECTIONS OF STEEL STRUCTURAL MEMBERS USING THREE-DIMENSIONAL LASER SCANNING[J]. INDUSTRIAL CONSTRUCTION, 2021, 51(5): 22-29. doi: 10.13204/j.gyjzG20110602
[6]	BAI Bin, CHEN Yong, DU Changqing, MAO Xintong, HAN Chao, LI Dongxin, HUANG Yuntian, ZHENG Xing, WANG Leilei. RESEARCH ON INTELLIGENT SECURITY MONITORING FOR BIM BASED ONINTERNET OF THINGS TECHNOLOGY[J]. INDUSTRIAL CONSTRUCTION, 2020, 50(4): 175-179. doi: 10.13204/j.gyjz202004030
[12]	Wang Haiyuan Huang Zhisheng Huang Jiajin Zhong Ning, . USING ONTOLOGY TECHNOLOGY IN BIM SYSTEM[J]. INDUSTRIAL CONSTRUCTION, 2015, 45(6): 186-189. doi: 10.13204/j.gyjz201506037
[13]	Dong Xiao, Wang Yifan, Wu Shaopeng, Gong Jinghai. APPLICATION OF BIM IN SIMULATION OF IMPORTANT LOAD LIFTING FOR AP1000 NUCLEAR PLANT[J]. INDUSTRIAL CONSTRUCTION, 2014, 44(07): 178-182. doi: 10.13204/j.gyjz2001407037
[14]	Zhang Xiaofei. DISCUSSION ON OPTIMIZING THE DESIGN PROCESS BASED ON BIM[J]. INDUSTRIAL CONSTRUCTION, 2013, 43(7): 155-158. doi: 10.13204/j.gyjz201307034
[15]	Di Peng, Ji Jiao, Liu Landou. APPLICATION OF STRAW ENERGY-SAVING WALL[J]. INDUSTRIAL CONSTRUCTION, 2011, 41(5): 57-59,92. doi: 10.13204/j.gyjz201105014
[16]	Xu Qing-feng, Zhu Chun-ming, Zhu Lei. SUSTAINABLE RENOVATION AND REUSE OF EXISTING INDUSTRIAL BUILDINGS[J]. INDUSTRIAL CONSTRUCTION, 2007, 37(12): 43-46. doi: 10.13204/j.gyjz200712010
[17]	Wang Fang, Sun Feng-ming, Yan Di-jia. THE TECHNOLOGICAL STRATEGY TO GOOD DEVELOPMENT OF SUSTAINABLE ARCHITECTURES[J]. INDUSTRIAL CONSTRUCTION, 2007, 37(4): 28-31. doi: 10.13204/j.gyjz200704009
[18]	Chen Xiao-hong, Li Hui-qiang, Li Hua. SOME THOUGHTS ON THE ACHIEVEMENT OF SUSTAINABLE ARCHITECTURES[J]. INDUSTRIAL CONSTRUCTION, 2006, 36(4): 30-33. doi: 10.13204/j.gyjz200604009
[19]	Chen Zhe. DEMARCATION OF SUSTAINABLE ARCHITECTURE PRACTICE IN FOREIGN COUNTRIES[J]. INDUSTRIAL CONSTRUCTION, 2004, 34(1): 79-81. doi: 10.13204/j.gyjz200401023

Supplements(0)

Cited By

Cited by

Periodical cited type(2)

1.	李明红，邵志国，王菲，谢雨轩. 基于全站仪和BIM的青岛某高校孔子像测绘建模与保护研究. 科技与创新. 2024(04): 79-81+87 .
2.	孙浩. 基于BIM技术的建筑工程造价控制与管理. 建筑设计管理. 2023(10): 82-88 .