Research on Spatial Renewal Design for Industrial Heritage Space of Changchun Tractor Plant in the Post-Epidemic Era
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摘要: 围绕2022年全国两会再次提出的双碳策略以及稳步推进城市更新的要求,依据后疫情时代对工业遗产的空间更新设计提出了全新的诉求,结合本领域国内外研究发展趋势,基于"集约用地、节能环保、产业协同、文化传承和经济适用"的五大目标,创新性地提出了"两增两减"的工业遗产更新设计原则。以长春拖拉机厂工业遗产更新设计为例,比较研究了铸造车间(3号厂房)与加工车间(2号厂房)迥异的空间更新设计手法和成效,对工业遗产的复合结构空间设计进行了深入探讨。Abstract: Focusing on the dual-carbon strategy proposed again by NPC and CPPCC in 2022 and the requirements for steadily advancing urban renewal, based on the new demands for the spatial renewal design of industrial heritage in the post-epidemic era, combined with domestic and foreign research and development trends in this field, and based on the five goals of "intensive land use, energy conservation and environmental protection, industrial coordination, culture inheriting and economical applicability", the innovative industrual heritage renewal design principle of "Double Improving and Double Declining" was proposed. Taking Changchun Tractor Plant as an example, the different space renewal design methods and effects of the foundry (Building 3) and the processing workshop (Building 2) were compared and explored.
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[1] 肖伟,宋奕.以快应变:新冠肺炎疫情下的"抗疫设计"思考[J].建筑学报,2020(增刊1):55-59. [2] GUPTA S S, GUPTA S K. Social mobilization for cholera prevention&control in India:Building on the existing framework[J]. Vaccine, 2019, 38(1):181-183. [3] ZAKARIA R,SHAKRI M A,YAHYA K, et al. The sources and factors of tuberculosis transmission at hospital for sustainable indoor air[J]. International Journal of Environmental Protection, 2012,2(3):29-32. [4] 赵晶.瘟疫、城市公共卫生与风景园林:论英国历史上两次重大公共卫生事件对城市公共卫生和风景园林的影响[J].风景林,2020,27(4):101-105. [5] 金德政,邱冠华.后疫情时代的公共图书馆服务[J].图书与情报,2021(3):97-103. [6] KRZYSZTOFIK R, KANTOR-PIETRA G A I, SPÓRNA T. Multidimensional conditions of the first wave of the COVID-19 epidemic in the trans-industrial region an example of the silesian voivodeship in Poland[J].Sustainability, 2021,13(8):9-17. [7] 李倞,杨璐.后疫情时代风景园林聚焦公共健康的热点议题探讨[J].风景园林,2020,27(9):10-16. [8] 孙瑾玉.延续历史记忆的钢铁工业遗址公园设计研究[D].北京:北京林业大学,2020. [9] WANG J. Beijing 2022,a Green Winter Olympics[J].今日中国(英文版), 2021, 70(11):2. [10] 窦光璐,白雪,庞凌波,等.首钢滑雪大跳台:结合工业遗产适应性再利用的冬奥场馆设计[J].建筑学报,2021(增刊1):42-47. [11] GUO P. Sustainable development of the 2022 Beijing Winter Olympics Zhangjiakou Stadium under the concept of Ocean Ecological Environment[J]. Journal of Coastal Research, 2020, 104(S1):151-155. [12] 宋钧.石煤机地块城市更新项目搬迁工作成效显著[N].石家庄日报,2021-12-24(001). [13] 张江林.城市更新背景下工业遗产保护与开发研究:以南昌江纺历史文化街区总体概念方案为例[J].中国名城,2019(7):25-31. [14] 王一然.基于旧工业建筑更新模式研究的再生实践[D].呼和浩特:内蒙古工业大学,2021. [15] 陈悦,陈超美,刘则渊,等.CiteSpace知识图谱的方法论功能[J].科学研究,2015,33(2):242-253. [16] 龙灏,张程远.区域联动战略储备平战双轨:基于历史和现实超大规模疫情的当代传染病医院设计[J].建筑学报,2020(增刊1):41-48. [17] 彭晓沛,王磊.天基钢骨架轻型板在输煤栈桥中的应用浅析[J].安徽建筑,2013,20(3):93,107. [18] 胡姗,张洋,燕达,等.中国建筑领域能耗与碳排放的界定与核算[J].建筑科学,2020,36(增刊2):288-297. [19] 温日琨,沈俊杰,陈亚坤,等.不同结构建筑的能源消耗与碳排放国外研究述评[J].吉首大学学报(自然科学版),2015,36(1):67-74. [20] ALMEIDA M, FERREIRA M. Cost effective energy and carbon emissions optimization in building renovation (Annex 56)[J]. Energy and Buildings, 2017, 152:718-738. [21] WU W W,YANG H J, CHEW D,et al.A real-time recording model of key indicators for energy consumption and carbon emissions of sustainable buildings[J].Sensors (Basel, Switzerland),2014,14(5):8465-84.
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