建筑科技创新与节能减排系统的协同演化研究  被引量:1

Research on the Co-Evolution of Building Technology Innovation and Energy Conservation and Emission Reduction System

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作  者:郎思琦 刘海芳[1] 陈洁[1] 李丽红[2] LANG Siqi;LIU Haifang;CHEN Jie;LI Lihong(City Institute of Dalian University of Technology,Dalian 116000,China;Shenyang Jianzhu University,Shenyang 110000,China)

机构地区:[1]大连理工大学城市学院,辽宁大连116000 [2]沈阳建筑大学,辽宁沈阳110000

出  处:《建筑经济》2023年第S01期491-495,共5页Construction Economy

基  金:大连社科联2022年课题“建筑科技创新—节能减碳协同演化机制”(2022dlskzd409)。

摘  要:基于协同学理论,识别子系统序参量构建建筑科技创新与节能减排复合系统协同度测度模型,对我国建筑业2010-2019年数据进行实证分析。研究结果发现,复合系统协同度呈上升趋势但仍属于轻度失调,主要是建筑业科技创新子系统的协同度不高所致。科技创新子系统中R&D人员、技术装备率投入与节能减排子系统能源效率、能源消费结构序参量有序度变化影响复合系统协同度。Based on the concordance theory,the subsystem order covariates were identified to construct a composite system synergy measurement model of construction science and technology innovation and energy saving and emission reduction,and the data of China's construction i ndustry from 2010-2019 were empirically analyzed.The results of the study found that the synergy of the composite system was on the rise but still belonged to a mild disorder,mainly due to the low synergy of the science and technology innovation subsystem in the construction industry.Changes in the orderliness of R&D personnel and technical equipment rate inputs in the science and technology innovation subsystem and energy efficiency and energy consumption structure sequence parameters in the energy conservation and emission reduction subsystem affect the degree of composite system synergy.

关 键 词:科技创新 序参量 节能减排 协同演化 

分 类 号:F426.21[经济管理—产业经济] F273.1

 

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