中国人口资源与环境
中國人口資源與環境
중국인구자원여배경
China Polulation.Resources and Environment
2013年
4期
117~123
,共null页
环保投资 工业COD LMDI
環保投資 工業COD LMDI
배보투자 공업COD LMDI
environmental investment; industrial COD; LMDI
近年来,中国各级政府纷纷加大污水治理力度。并取得了显著成效。2001—2010年间中国工业化学需氧量(COD)排放强度下降了75.91%。分解工业COD排放强度降低的技术效应并进行深入检验.以及检验环保投资在工业COD减排中的作用,对今后的工业COD减排和环保投资都十分必要而迫切。论文使用迪氏对数指标分解法(LMDI),将中国工业COD排放强度降低的技术效应进一步分解为水资源消耗强度效应、水资源重复利用效应和污水处理效应。然后利用2001—2010年中国工业COD排放数据计算这三种效应。发现中国工业COD排放强度降低的技术效应主要归于水资源消耗强度效应,其次是污水处理效应,水资源重复利用效应几乎不存在。进一步。利用这些数据并通过联立方程模型检验了环境基础设施投资、工业污染源治理投资、建设项目“三同时”投资对三种效应的影响作用。研究发现,水资源消耗强度效应主要归于以政府为主的环保投资(环境基础建设投资),而以企业为主的环保投资(工业污染源治理投资、建设项目“三同时”投资)对工业COD排放强度降低的作用还不太显著。也就是说。中国工业COD排放强度降低主要归因于以政府为主的环保投资。因此,未来较长一段时期,政府在扩大环保投资的同时应采取措施带动以企业为主的环保投资.推动工业COD减排从末端治理向全过程管理转变。
近年來,中國各級政府紛紛加大汙水治理力度。併取得瞭顯著成效。2001—2010年間中國工業化學需氧量(COD)排放彊度下降瞭75.91%。分解工業COD排放彊度降低的技術效應併進行深入檢驗.以及檢驗環保投資在工業COD減排中的作用,對今後的工業COD減排和環保投資都十分必要而迫切。論文使用迪氏對數指標分解法(LMDI),將中國工業COD排放彊度降低的技術效應進一步分解為水資源消耗彊度效應、水資源重複利用效應和汙水處理效應。然後利用2001—2010年中國工業COD排放數據計算這三種效應。髮現中國工業COD排放彊度降低的技術效應主要歸于水資源消耗彊度效應,其次是汙水處理效應,水資源重複利用效應幾乎不存在。進一步。利用這些數據併通過聯立方程模型檢驗瞭環境基礎設施投資、工業汙染源治理投資、建設項目“三同時”投資對三種效應的影響作用。研究髮現,水資源消耗彊度效應主要歸于以政府為主的環保投資(環境基礎建設投資),而以企業為主的環保投資(工業汙染源治理投資、建設項目“三同時”投資)對工業COD排放彊度降低的作用還不太顯著。也就是說。中國工業COD排放彊度降低主要歸因于以政府為主的環保投資。因此,未來較長一段時期,政府在擴大環保投資的同時應採取措施帶動以企業為主的環保投資.推動工業COD減排從末耑治理嚮全過程管理轉變。
근년래,중국각급정부분분가대오수치리력도。병취득료현저성효。2001—2010년간중국공업화학수양량(COD)배방강도하강료75.91%。분해공업COD배방강도강저적기술효응병진행심입검험.이급검험배보투자재공업COD감배중적작용,대금후적공업COD감배화배보투자도십분필요이박절。논문사용적씨대수지표분해법(LMDI),장중국공업COD배방강도강저적기술효응진일보분해위수자원소모강도효응、수자원중복이용효응화오수처리효응。연후이용2001—2010년중국공업COD배방수거계산저삼충효응。발현중국공업COD배방강도강저적기술효응주요귀우수자원소모강도효응,기차시오수처리효응,수자원중복이용효응궤호불존재。진일보。이용저사수거병통과련립방정모형검험료배경기출설시투자、공업오염원치리투자、건설항목“삼동시”투자대삼충효응적영향작용。연구발현,수자원소모강도효응주요귀우이정부위주적배보투자(배경기출건설투자),이이기업위주적배보투자(공업오염원치리투자、건설항목“삼동시”투자)대공업COD배방강도강저적작용환불태현저。야취시설。중국공업COD배방강도강저주요귀인우이정부위주적배보투자。인차,미래교장일단시기,정부재확대배보투자적동시응채취조시대동이기업위주적배보투자.추동공업COD감배종말단치리향전과정관리전변。
In recent years, Chinese government at all levels have increased sewage treatment and got remarkable success. From 2001 to 2010, China's industrial COD (chemical oxygen demand) emission intensity has decreased by 75.91%. It is necessary and urgent to study the effects of industrial COD emission intensity reduction technology as well as the effect of environmental protection investment in industrial COD reduction in order to improve future industrial COD reduction and environmental protection investment. In this paper, the authors decompose the industrial COD emission density into three effects by LMDI method, including water resource consumption density effect, water resource recycling effect and pollution treatment effect. They also measure the three effects based on data of industrial COD emission in China from 2001 to 2010, and find that the decreasing of industrial COD emission density is mainly caused by the decreasing of water resource consumption per unit, with the upgrade of pollution treatment technology ranked the second. The effect of water resource recycling does almost not exist. Further, the authors test the influences of investment in environmental infrastructure, industrial pollution and construction projects on the "three effects" based on the simultaneous equations model. The study shows that, the decreasing of water resource consumption per unit was largely attributable to the government investment in environmental protection (environmental infrastructure investment), and the reduction stimulated by enterprises is not yet significant Therefore, governments should take measures to promote enterprise-based investment in environmental protection, helping the COD reduction treatment transferred from "end" to "process", while expanding investment in environmental protection in the future.
