中国环境科学
中國環境科學
중국배경과학
CHINA ENVIRONMENTAL SCIENCE
2014年
3期
681-687
,共7页
李薇%汤烨%徐毅%解玉磊%贾杰林
李薇%湯燁%徐毅%解玉磊%賈傑林
리미%탕엽%서의%해옥뢰%가걸림
污水处理%COD排放%CO2排放%协同控制%优化
汙水處理%COD排放%CO2排放%協同控製%優化
오수처리%COD배방%CO2배방%협동공제%우화
sewage treatment%COD emission%CO2 emission%synergistic control%optimization
明确污水处理中COD去除量与CO2排放的关系,有助于提高污水处理厂COD去除率的同时减少CO2排放量.从系统优化的角度对污水处理节能减排开展研究,以城市污水系统费用最小化为目标,各个污水厂的日处理量和回用水量为系统变量,构建城市典型污水处理系统规划模型,根据参数COD排放标准和二氧化碳排放限值的变化进行优化,调整污水运营,实现经济效益和环境效益的“双赢”.COD排放标准分别为二级、一级B、一级A时,总CO2排放量分别为13408.74,15304.47,15900.81t/a.结果表明,COD排放标准越高,COD去除率增大,CO2排放量也随之增大.
明確汙水處理中COD去除量與CO2排放的關繫,有助于提高汙水處理廠COD去除率的同時減少CO2排放量.從繫統優化的角度對汙水處理節能減排開展研究,以城市汙水繫統費用最小化為目標,各箇汙水廠的日處理量和迴用水量為繫統變量,構建城市典型汙水處理繫統規劃模型,根據參數COD排放標準和二氧化碳排放限值的變化進行優化,調整汙水運營,實現經濟效益和環境效益的“雙贏”.COD排放標準分彆為二級、一級B、一級A時,總CO2排放量分彆為13408.74,15304.47,15900.81t/a.結果錶明,COD排放標準越高,COD去除率增大,CO2排放量也隨之增大.
명학오수처리중COD거제량여CO2배방적관계,유조우제고오수처리엄COD거제솔적동시감소CO2배방량.종계통우화적각도대오수처리절능감배개전연구,이성시오수계통비용최소화위목표,각개오수엄적일처리량화회용수량위계통변량,구건성시전형오수처리계통규화모형,근거삼수COD배방표준화이양화탄배방한치적변화진행우화,조정오수운영,실현경제효익화배경효익적“쌍영”.COD배방표준분별위이급、일급B、일급A시,총CO2배방량분별위13408.74,15304.47,15900.81t/a.결과표명,COD배방표준월고,COD거제솔증대,CO2배방량야수지증대.
Due to the increase wastewater discharge with the rapid economic development, it is desired to achieve the energy conservation and emission reduction of sewage treatment. In addition, realization of the relationship between COD removal and CO2-emission is valuable for improving the COD removal rate and reducing the CO2-emission in the sewage treatment system. In this study, an optimization model for sewage treatment planning is developed for pollutants control and CO2-mitigation emission in sewage treatment system. The optimized sewage-allocation scheme would be generated through the proposed model with the objective of minimized system operation cost. Based on the analysis of COD discharge standard and CO2-emission constraints, the adjustment plans for sewage plant operation would also be obtained, achieving both economic and environmental benefits simultaneously. When COD discharge standard is second, first B, first A, the amount of CO2 emission would be 13408.74, 15304.47, 15900.81t/a, respectively. The results demonstrate that willingness to meet higher COD emission standard would be related to higher COD removal rate and CO2 emission.