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NETWORK LAYOUT OF DYNAMIC CONSTRUCTION WASTE DISPOSAL FACILITIES BASED ON COMPLEX NETWORK THEORY
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摘要: 建筑垃圾处置存在处置面窄、处置率偏低等问题,同时缺乏高效的处置设施网络。考虑固定式处置设施及移动式处置设施的协同,构建了结合生产及需求的建筑垃圾处置设施网络。首先从复杂网络节点重要性的角度分析2类处置设施选址的主要评价指标,利用灰色关联分析法提出固定式处置设施选址及移动式处置设施可行选址,进而通过建立区域总成本及社会负效应最小的混合整数规划模型得出本期移动处置设施选址,根据后续各期数据测算移动处置设施的动态选址及服务范围,并以南京市江北新区直管区为例建立建筑垃圾处置设施网络,以验证此模型有效性。可实现建筑垃圾高效资源利用,减少邻避冲突,并为政府等相关部门的决策者构建区域建筑垃圾处置网络提供一定的参考。Abstract: Construction waste disposal has problems such as narrow disposal area and low disposal rate, and the lack of efficient disposal facilities network. Considering the coordination of fixed disposal facilities and mobile disposal facilities, this paper firstly analyzed the main evaluation indexes of site selection of two types of disposal facilities from the perspective of the importance of complex network nodes, and proposed the feasible site selection of fixed and mobile disposal facilities by using grey correlation analysis method. Then a mixed integer programming model with minimum regional total cost and social negative effect was established to obtain the site selection of mobile disposal facilities in this period. At last, dynamic site selection and service scope of mobile disposal facilities were calculated according to the data of the following periods. Taking Jiangbei New District of Nanjing as an example, the construction waste disposal facility network was established to verify the validity of this model.
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Key words:
- construction waste disposal /
- complex network theory /
- planning layout /
- network topology
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AK H, BRAIDA W. Sustainable municipal solid waste management decision making:development and implementation of a single score sustainability index[J]. Management of Environmental Quality:an International Journal, 2015, 26(6):909-928. 刘芬良,高云甫.西宁市建筑垃圾处理处置设施的优化方法[J].科技经济导刊,2018,26(21):137. 前瞻产业研究院.2018-2023年中国建筑垃圾处理产业市场调研与投资预测分析报告[R]. 2018. 江苏省住房和城乡建设厅科技发展中心. 江苏省建筑垃圾资源化处置利用研究报告[R]. 2018. TAM, VIVIAN W Y,TAM C M. A review on the viable technology for construction waste recycling[J]. Resources Conservation & Recycling, 2016, 47(3):209-221. PANG Y, XIAO Y, LIU J. A Dynamic Model for Simulation of the Scale of Industrial Chain of Construction Waste Reclamation in China[J]. The Open Construction and Building Technology Journal, 2017, 11(1). BLENGINI G A, GARBARINO E, ŠOLAR S, et al. Life Cycle Assessment guidelines for the sustainable production and recycling of aggregates:the sustainable aggregates resource management project (SARMa)[J]. Journal of Cleaner Production, 2012, 27:177-181. IACOVIDOU E, PURNELL P, LIM M K. The use of smart technologies in enabling construction components reuse:A viable method or a problem creating solution?[J]. Journal of Environmental Management, 2018, 216:214-223. 刘鹤立,徐文友,曾翔,等.城市建筑废料的回收中转站及处理设施选址研究:以南京地区为例[J].中国市场,2012(6):18-21. 丁坤迪,汪传旭.基于复杂网络节点重要性的无水港选址研究[J].华中师范大学学报(自然科学版),2019,53(2):309-317. 任亮,黄敏,王兴伟.考虑客户时间偏好的第四方物流路径优化问题[J].系统工程理论与实践,2018,38(12):3187-3196. 何琼,谢秋,胡鸣明.面向系统服务可靠度的建筑垃圾资源化企业优化选址研究[J].环境工程,2014,32(4):99-104. JIN R, YUAN H, CHEN Q. Science mapping approach to assisting the review of construction and demolition waste management research published between 2009 and 2018[J]. Resources, Conservation and Recycling, 2019, 140:175-188. 郑啸,陈建平,邵佳丽,等.基于复杂网络理论的北京公交网络拓扑性质分析[J].物流学报,2014,61(19):95-105. 期刊类型引用(2)
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