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李晓丹,杨灏,陈智婷,王振,郭璐杰,宋咏洁,刘露.基于DSR模型的煤矿废弃工业广场再开发时序评价体系[J].农业工程学报,2018,34(1):224-231.DOI:10.11975/j.issn.1002-6819.2018.01.031
基于DSR模型的煤矿废弃工业广场再开发时序评价体系
投稿时间:2017-08-04  修订日期:2017-10-25
中文关键词:  土地利用  煤矿  DSR模型  再开发  评价  时序  煤矿废弃工业广场  城市双修  京西
基金项目:国家自然科学基金资助项目(51778614)
作者单位
李晓丹 中国矿业大学(北京)力学与建筑工程学院北京 100083 
杨灏 中国矿业大学(北京)力学与建筑工程学院北京 100083 
陈智婷 中国矿业大学(北京)力学与建筑工程学院北京 100083 
王振 中国矿业大学(北京)力学与建筑工程学院北京 100083 
郭璐杰 中国矿业大学(北京)力学与建筑工程学院北京 100083 
宋咏洁 中国矿业大学(北京)力学与建筑工程学院北京 100083 
刘露 中国矿业大学(北京)力学与建筑工程学院北京 100083 
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中文摘要:为提高煤矿废弃工业广场再开发效率,从"城市双修"视角出发,基于驱动力-状态-响应(driving force-state-response,DSR)模型框架,建立由3个一级指标、7个二级指标、16个三级指标组成的煤矿废弃工业广场再开发时序评价体系。以北京京西煤矿为例,采用赋值法进行指标量化分级,利用四象限法对驱动力D、状态S和响应R结果进行耦合处理。结果表明:长沟峪(D=3.818,S=3.848)、大台(D=3.732,S=4.603)和木城涧(D=2.646,S=4.522)划属近期开发;王平(D=4.240,S=3.187)、千军台(D=2.248,S=3.887)和大安山(D=1.792,S=4.39)划属中期开发;安家滩(D=2.118,S=1.464)和花坡根(D=2.798,S=1.907)划属远期开发。该时序评价体系将煤矿废弃工业广场再开发与城市发展紧密结合,以更全面的视角进行时序评价,准确性更高、适宜性更强,为同类型废弃工业广场再开发时序评价提供借鉴参考。
Li Xiaodan,Yang Hao,Chen Zhiting,Wang Zhen,Guo Lujie,Song Yongjie,Liu Lu.Evaluation system for prioritization tool to redevelop abandoned coal mine industry square based on DSR model[J].Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE),2018,34(1):224-231.DOI:10.11975/j.issn.1002-6819.2018.01.031
Evaluation system for prioritization tool to redevelop abandoned coal mine industry square based on DSR model
Author NameAffiliation
Li Xiaodan School of Mechanics and Civi Engineering, China University of Mining and Technology (Beijing), Beijing 100083,China 
Yang Hao School of Mechanics and Civi Engineering, China University of Mining and Technology (Beijing), Beijing 100083,China 
Chen Zhiting School of Mechanics and Civi Engineering, China University of Mining and Technology (Beijing), Beijing 100083,China 
Wang Zhen School of Mechanics and Civi Engineering, China University of Mining and Technology (Beijing), Beijing 100083,China 
Guo Lujie School of Mechanics and Civi Engineering, China University of Mining and Technology (Beijing), Beijing 100083,China 
Song Yongjie School of Mechanics and Civi Engineering, China University of Mining and Technology (Beijing), Beijing 100083,China 
Liu Lu School of Mechanics and Civi Engineering, China University of Mining and Technology (Beijing), Beijing 100083,China 
Key words:land use  coal mines  DSR model  redevelopment  assessment  prioritization  abandoned coal mine industry square  Urban Renovation and Restoration Strategy
Abstract: The redevelopment of abandoned coal mine industry square (ACMIS) has become an important issue, as the number of abandoned sites has been increasing. Meanwhile, redeveloping the ACMIS is the basic requirement of the Chinese urban renovation and restoration strategy. Since reusing ACMIS is time-consuming and cost-consuming, developing an assessment tool to prioritize the renewal processes is necessary. Many existing assessment tools are not appropriate because they mainly focus on ecological aspects, while neglecting urban planning issues. Thus, this paper proposes a driving force-state-response (DSR) model of ACMIS which integrates planning, land rehabilitation and ecology, and analyzes the factors influencing the DSR framework. Then, the paper creates a comprehensive assessment system for prioritizing the redevelopment of ACMIS, which includes stakeholders' requalification objectives and perspectives related to the ACMIS regeneration process. The assessment system takes into account 3 pillars, which are 6 driving force factors (agglomeration degree of ecological agriculture, agglomeration degree of culture-oriented travel, high-way status, public transportation status, distance from downtown, accessibility of public service facilities), 9 state factors (soil conditions, soil pH value, damage degree, degree of heavy metal pollution, risk degree of geologic hazard, architectural integrity, historic and cultural value of modern architectures, status of underground space, municipal infrastructure status), and response (planning and policy). The point scoring framework is used to quantify and classify indicators, while four-quadrant method is used to couple evaluation results. Based on the evaluation results, ACMIS has been divided into 4 classes, high driving force - high state (HDFHS), high driving force - low state (HDFLS), low driving force - high state (LDFHS) and low driving force - low state (LDFLS). According to the land use planning, the development sequence is divided into 3 stages: The first development sequence is composed of HDFHS, the second development sequence is composed of HDFLS and LDFHS, and the third one is composed of LDFLS. The method has been applied to the Jingxi coal mine case study (Beijing, China), and the result showed that 3 sites named Changgouyu (D=3.818, S=3.848; D is driving force and S is state), Datai (D=3.732, S=3.732) and Muchengjian (D=2.646, S=4.522) in the city inventory were included in the first redevelopment sequence, and Wangping (D=4.240, S=3.187), Qianjuntai (D=2.248, S=3.887) and Daanshan (D=1.792, S=4.39) in the second redevelopment sequence, while Anjiatan (D=2.118, S=1.464) and Huapogen (D=2.798, S=1.907) in the third redevelopment sequence. It reveals that an adapted and structured assessment approach truly contributes to integrating urban planning into ACMIS regeneration. The resulting assessment should be a valuable aid to cities and governments as they plan their ACMIS regeneration projects.
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