建筑经济CONSTRUCTIONECONOMY第44卷第S1期2023年7月Vol.44No.S1Jul.2023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。关键词:科技创新;序参量;节能减排;协同演化中图分类号:F426.21;F273.1文献标识码:A文章编号:1002-851X(2023)S1-0491-05DOI:10.14181/j.cnki.1002-851x.2023S1491ResearchontheCo-EvolutionofBuildingTechnologyInnovationandEnergyConservationandEmissionReductionSystemLANGSiqi1,LIUHaifang1,CHENJie1,LILihong2(1.CityInstituteofDalianUniversityofTechnology,Dalian116000,China;2.ShenyangJianzhuUniversity,Shenyang110000,China)Abstract:Basedontheconcordancetheory,thesubsystemordercovariateswereidentifiedtoconstructacompositesystemsynergymeasurementmodelofconstructionscienceandtechnologyinnovationandenergysavingandemissionreduction,andthedataofChina'sconstructionindustryfrom2010-2019wereempiricallyanalyzed.Theresultsofthestudyfoundthatthesynergyofthecompositesystemwasontherisebutstillbelongedtoamilddisorder,mainlyduetothelowsynergyofthescienceandtechnologyinnovationsubsystemintheconstructionindustry.ChangesintheorderlinessofR&Dpersonnelandtechnicalequipmentrateinputsinthescienceandtechnologyinnovationsubsystemandenergyefficiencyandenergyconsumptionstructuresequenceparametersintheenergyconservationandemissionreductionsubsystemaffectthedegreeofcompositesystemsynergy.Keywords:scienceandtechnologyinnovation;orderparameter;energy-conservationandemission-reduction;co-evolution随着全球气候变暖,生态环境不断恶化是亟需全人类共同解决的问题。国内外关注气候变化与减排策略的研究已经认识到建筑作为主要耗能产业,其技术变化及产品全生命周期变化对碳排放存在重要影响。《中国建筑能耗与碳排放研究报告(2021)》统计2019年全国建筑全过程能耗中建材生产、建筑运维阶段能耗碳排放均占全国总...
