污染土壤風(fēng)險(xiǎn)管控中碳效應(yīng)核算方法及案例研究

打開(kāi)文本圖片集

中圖分類號(hào)： Q938.1+3 文獻(xiàn)標(biāo)志碼：A 文章編號(hào)：2095-2945(2025)20-0030-

Abstract:Basedonacomprehensivelifecycleasessment(LCA)forcontaminatedsoilriskmanagementandcontrol,the boundariesforcarbonemissionaountingweredelineated，andacorespondingcarbonemissioncalculationmethodologywas proposed.Theprimarysourcesofcarbonemisionsidentifiedincludetheproductionandtransportationofbariermaterials， infrastructuredevelopment,andtheexecutionofengineringworks.Utlizingtheproposedcarbonemissoncalculation methodology，anevaluationofthecarbonemisionsassociatedwiththeriskmanagementandcontrolofcontaminatedsoilata non-ferrousmetalprocessingfacityinLiaoningwasconducted.Theresultsindicatethatthetotalcarbonemissonsforthe projectamountto4402.172metrictons，withthecarbonemisionsforisolatingonecubicmeterofcontaminatedsoilbeing 22.8kg.Thestudy'sfindingsrevealthattheproductionofbarrermaterialsisthepredominantsourceofcarbonemissionsinthe risk management and control process,constituting 87.65 % of the total carbon emissions.Following this,the project implementation phasecontributessignificantly，withcarbonemisionsprimarilystemmingfromtheenergyconsumptionofconstructionmachinery, amounting to 410.428 metric tons and accounting for 9.32% of the total emissions.Conversely，the infrastructure development phase generates the least carbon emissions,totaling 119.O24 metric tons,which accounts for 3.03% of the total emissions.

Keywords: life cycle assessment (LCA); carbon emission; risk management; risk management of contaminated soil; barrier materials

我國(guó)為積極應(yīng)對(duì)全球氣候變化，已確立了一項(xiàng)國(guó)家戰(zhàn)略目標(biāo)，即在2030年前實(shí)現(xiàn)碳達(dá)峰，并在2060年前達(dá)成碳中和。（剩余7235字）