|Table of Contents|

Technology and Green Development of Demolition for Concrete Structures(PDF)

《建筑科学与工程学报》[ISSN:1673-2049/CN:61-1442/TU]

Issue:
2019年05期
Page:
1-10
Research Field:
Publishing date:

Info

Title:
Technology and Green Development of Demolition for Concrete Structures
Author(s):
XIAO Jian-zhuang1 CHEN Li-hao1 YE Jian-jun2 LAN Wu-ji3 ZENG Liang1
(1. College of Civil Engineering, Tongji University, Shanghai 200092, China; 2. School of Civil Engineering Architecture and Environment, Hubei University of Technology, Wuhan 430068, Hubei, China; 3. Shanghai Tianyan Building Shift Engineering Co., Ltd., Shanghai 200336, China)
Keywords:
concrete structure life cycle forward demolition backward demolition green demolition resource utilization
PACS:
TU746.5
DOI:
-
Abstract:
The current situation and shortcomings of traditional manual, mechanical, blasting and other demolition methods for concrete structures construction were described, as well as the impacts of the green development of related technologies on the construction and surrounding environments were analyzed, and the future development trend of intelligent demolition technology was prospected. By changing the order of construction process, the forward or reverse green demolition of construction method was studied further. The concrete structure demolition problems associated with resource between different levels were found, and the prospects for combining with the green dismantling and recycling technology were forecasted. And the fact that the green demolition with important characteristics of selectivity and classification could increase the utilization degree of building solid waste significantly was revealed. Combined with typical examples of bridge ramp that was green demolition constructed,related works were done on both sides of the bridge ramp to ensure the synchronous declining and the overall shifting. While satisfying the purpose of construction to the greatest extent, the integrity of the original bridge structure components was guaranteed, and this effectively achieved the objective of resource conservation. Finally, the significance of the development of green demolition for improving the utilization of solid waste in buildings and the development of theory of building life cycle were discussed. The results show that the theory of building life cycle can be improved through two stages of building demolition and solid waste recycling to develop into one closed cycle of life cycle.

References:

[1] 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.
[2]林 叶.基于生态视角的建筑废弃物资源化产业发展研究[D].重庆:重庆大学,2014.
LIN Ye.Study on C&D Waste Recycling Industry Development Based on the Ecological Perspective[D].Chongqing:Chongqing University,2014.
[3]程晓辉.建筑物拆除施工噪声评价及控制[D].武汉:武汉理工大学,2007.
CHENG Xiao-hui.The Assessment of Construction Demolition Noise and It’s Control[D].Wuhan:Wuhan University of Technology,2007.
[4]蒋洪涛.混凝土箱梁桥拆除施工技术研究[D].重庆:重庆交通大学,2011.
JIANG Hong-tao.Demolished Construction Technology Research of Concrete Box Girder Bridge[D].Chongqing:Chongqing Jiaotong University,2011.
[5]张 帆.连续刚构钢筋混凝土箱梁拆除技术研究[D].郑州:郑州大学,2013.
ZHANG Fan.The Study of Continuous Rigid-frame Structure of Reinforced Concrete Box Girder Demolition Technology[D].Zhengzhou:Zhengzhou University,2013.
[6]王泽锋.基坑钢筋混凝土支撑梁的机械拆除施工技术[J].建筑施工,2016,38(10):1354-1356.
WANG Ze-feng.Construction Technology for Mechanical Demolition of Foundation Pit Concrete Support Beams[J].Building Constrution,2016,38(10):1354-1356.
[7]张国辉.混凝土框架结构的预应力拆除技术研究[D].南京:东南大学,2006.
ZHANG Guo-hui.Study on the Technique for Dismantling RC Frame with Prestressing Method[D].Nanjing:Southeast University,2006.
[8]张静涛,杨凯明.“降层拆除法”在高层建筑楼体拆除中的应用[J].建筑施工,2016,38(10):1444-1446.
ZHANG Jing-tao,YANG Kai-ming.“Demolition Method for Lowering Building Floor ”Applied to High-rise Building Demolition[J].Building Construction,2016,38(10):1444-1446.
[9]ELIAS-OZKAN S.Selective Demolition of Redundant and Earthquake Damaged Buildings in Turkey[J].METU Journal of the Faculty of Architecture,2012,29(1):139-152.
[10]李 然.基于Simotion C240的数控液压千斤顶同步控制系统研究[J].自动化应用,2016(8):111-113.
LI Ran.Research on Synchronous Control System of Hydraulic Jack Based on Simotion C240[J].Automation Application,2016(8):111-113.
[11]刘培林.钢筋混凝土结构爆破拆除研究[D].兰州:兰州大学,2012.
LIU Pei-lin.Research on Blasting Demolition of Reinforced Concrete Structure[D].Lanzhou:Lanzhou University,2012.
[12]刘昌邦.城市高架桥爆破拆除力学机理与模型试验研究[D].武汉:武汉科技大学,2015.
LIU Chang-bang.Study on Mechanical Mechanism and Model Test of Urban Viaduct Demolition Blasting[D].Wuhan:Wuhan University of Science and Technology,2015.
[13]程大春,叶建军,汪腊香,等.钢筋混凝土梁柱轴向预埋孔长袋水耦合精确装药爆破拆除技术[J].爆破,2018,35(2):107-113.
CHENG Da-chun,YE Jian-jun,WANG La-xiang,et al.Explosive Demolition of Reinforced Concrete Beam and Column by Water Coupling Accurate Charging with Pre-buried Axial Holes and Long Bag[J].Blasting,2018,35(2):107-113.
[14]叶建军,程大春,舒大强,等.钢筋混凝土杆件轴向预埋孔绿色拆除爆破技术[J].科学技术与工程,2017,17(10):151-157.
YE Jian-jun,CHENG Da-chun,SHU Da-qiang,et al.Green Blasting Technology for Demolition of Reinforced Concrete Bars by Using Pre-buried Axial Pipes as Blast Holes[J].Science Technology and Engineering,2017,17(10):151-157.
[15]叶建军,程大春,明 军.基坑钢筋混凝土临时支撑梁绿色拆除爆破技术[J].爆破,2017,34(1):101-107.
YE Jian-jun,CHENG Da-chun,MING Jun.Green Explosive Demolition of Temporary Reinforced Concrete Pit-supporting Beams[J].Blasting,2017,34(1):101-107.
[16]蒋 君.遥操作拆除机器人工作装置的设计与研究[D].绵阳:西南科技大学,2016.
JIANG Jun.The Design and Research of Teleoperation Demolition Robot Working Device[D].Mianyang:Southwest University of Science and Technology,2016.
[17]SOBOTKA A,RADZIEJOWSKA A,CZAJA J.Tasks and Problems in the Buildings Demolition Works:A Case Study[J].Archives of Civil Engineering,2015,61(4):3-18.
[18]李君婷,崔建文,魏昶帆,等.22层楼房爆破拆除震动监测分析[J].爆破,2013,30(1):126-130.
LI Jun-ting,CUI Jian-wen,WEI Chang-fan,et al.Blasting Vibration Monitoring of Explosive Demolition of 22-storey Structure[J].Blasting,2013,30(1):126-130.
[19]吴永刚,吴春平,谢 源.基于爆破振动有害效应的室内居住环境影响评价[J].有色金属:矿山部分,2013,65(4):67-70,74.
WU Yong-gang,WU Chun-ping,XIE Yuan.Impact Assessment of Indoor Living Environment Based on the Harmful Effect of Blasting Vibration[J].Nonferrous Metals:Mining Section,2013,65(4):67-70,74.
[20]李彦宏.智能革命——迎接人工智能时代的社会、经济和文化变革[M].北京:中信出版集团,2017.
LI Yan-hong.Intelligent Revolution — Social,Economic and Cultural Revolution in the Era of Artificial Intelligence[M].Beijing:China Citic Press,2017.
[21]游 炜.城市桥梁改造中的既有连续梁桥顶升技术改造[J].福建建筑,2015(5):78-81.
YOU Wei.City Bridge Reconstruction in Both Continuous Beam Bridge Jacking Technology Transformation[J].Fujian Architecture & Construction,2015(5):78-81.
[22]闫文斌,王宏林,章传学.高层建筑板墙切割拆除工艺[J].建筑结构,2010,40(增2):654-656.
YAN Wen-bin,WANG Hong-lin,ZHANG Chuan-xue.The Construction Technology of Cutting Floor and Wall in High-rise Building[J].Building Structure,2010,40(S2):654-656.
[23]朱田明.逆向拆除原地下室结构施工工艺[J].施工技术,2015,44(增):135-137.
ZHU Tian-ming.Construction Technology of Reverse Demolition of the Original Basement[J].Construction Technology,2015,44(S):135-137.
[24]韦伟鸿,于银宝.深基坑支撑拆除工法的灵活运用[J].工业建筑,2008,38(增):971-974.
WEI Wei-hong,YU Yin-bao.Demolish Method Flexible Applied in Deep Foundation Pit Supporting[J].Industrial Construction,2008,38(S):971-974.
[25]欧阳磊.基于碳排放视角的拆除建筑废弃物管理过程研究[D].深圳:深圳大学,2016.
OUYANG Lei.Research on the Process of Demolition Waste Management from the Perspective of Carbon Emission[D].Shenzhen:Shenzhen University,2016.
[26]PEREIRA S S R,MAGALHAES M D C,GAZZINELLI H.An Alternative Technique to the Demolition of a Prestressed Concrete Box-girder Bridge:A Case Study[J].Case Studies in Construction Materials,2017,6:192-197.
[27]KAYASHIMA M,SHINOZAKI Y,KOGA T.A New Demolition System for High-rise Building[C]//CTBUH.CTBUH 9th World Congress Shanghai 2012 Proceedings.Shanghai:CTBUH,2012:631-636.
[28]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):114-116.
HAO Chi-biao,SU Nan.On Sustainable Strategies in the Process of Building Demolition[J].Chinese & Overseas Architecture,2015(2):114-116.
[29]郭 彪.日本鹿岛住宅建筑工业化技术与工程实践[J].住宅产业,2012(6):76-80.
GUO Biao.Industrial Technology and Engineering Practice of Residential Building in Kashima,Japan[J].Housing Industry,2012(6):76-80.
[30]MIZUTANI R.Jack Down Building Demolition Method:KC & D C(The Kajima Cut and Take Down Method)[J].Journal of the Society of Mechanical Engineerings,2011,114:424-425.
[31]朱进军,邵 勇,杨晓红.在建高层建筑局部拆除技术及安全控制[J].建筑技术,2016,47(11):1030-1033.
ZHU Jin-jun,SHAO Yong,YANG Xiao-hong.Local Dismantlement Technique and Safety Control of High-rise Building Under Construction[J].Architecture Technology,2016,47(11):1030-1033.
[32]贡小雷.建筑拆解及材料再利用技术研究[D].天津:天津大学,2010.
GONG Xiao-lei.The Technology Research of Building Deconstruction & Building Materials Reuse[D].Tianjin:Tianjin University,2010.
[33]徐洪澎,康 健,吴健梅.“3R”原则下现代木建筑创作的实证方案分析[J].建筑学报,2015(12):82-88.
XU Hong-peng,KANG Jian,WU Jian-mei.An Empirical Analysis on the Schemes of Modern Timber Architecture Based on the 3R Principle of Material Efficiency[J].Architectural Journal,2015(12):82-88.
[34]陈德平,杨 彦.可持续理念在钢结构设计中的应用——厦门某可拆装钢结构停车楼设计[J].福建建筑,2015(7):35-37.
CHEN De-ping,YANG Yan.The Application of Sustainable Idea in Steel Structure Design — Designing of a Removable Steel Parking Garage in Xiamen[J].Fujian Architecture & Construction,2015(7):35-37.
[35]吕西林,陈 聪.带有可更换构件的结构体系研究进展[J].地震工程与工程振动,2014,34(1):27-36.
LU Xi-lin,CHEN Cong.Research Progress in Structural Systems with Replaceable Members[J].Earthquake Engineering and Engineering Dynamics,2014,34(1):27-36.

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Last Update: 2019-09-29