广西大学学报(自然科学版)
廣西大學學報(自然科學版)
엄서대학학보(자연과학판)
JOURNAL OF GUANGXI UNIVERSITY (NATURAL SCIENCE EDITION)
2013年
4期
1014-1020
,共7页
李正辉%谈云志%丁品良%王南京%陈升彪%田园
李正輝%談雲誌%丁品良%王南京%陳升彪%田園
리정휘%담운지%정품량%왕남경%진승표%전완
内涝%绿化区%吸附层%消减
內澇%綠化區%吸附層%消減
내로%녹화구%흡부층%소감
waterlogging%green area%soaking layer%reduction
为缓解城市内涝日益频发的困境,减轻由此引起的经济损失,提高城市生活水平,以城市内涝的研究现状为基础,提出一套在城市绿地区域设置多孔吸附层进行消减城市内涝的新方法。推导了该方法消减内涝的潜能模型,并对该方案的关键设计技术参数进行了研究。利用有限元方法模拟了10 m自然水头作用下吸附层对雨水的吸附和解吸能力,并以煤渣为例,研究了其对水分和磷等污染物的吸附能力,从细观孔隙结构角度揭示了煤渣吸附雨水和污染物的机理。结果表明,160 m3的吸附层的稳定吸附量约为28 m3,其吸水过程约为0.8 h,煤渣吸附层可以达到35 m3/h的消减能力,而且对污染物具有较强的吸附能力,不仅能有效的减小城市内涝发生的可能性,而且能避免含磷雨水流入地下水使地下水富营养化,从而论证了通过改造绿地消减城市内涝的方法的可行性和创新性。
為緩解城市內澇日益頻髮的睏境,減輕由此引起的經濟損失,提高城市生活水平,以城市內澇的研究現狀為基礎,提齣一套在城市綠地區域設置多孔吸附層進行消減城市內澇的新方法。推導瞭該方法消減內澇的潛能模型,併對該方案的關鍵設計技術參數進行瞭研究。利用有限元方法模擬瞭10 m自然水頭作用下吸附層對雨水的吸附和解吸能力,併以煤渣為例,研究瞭其對水分和燐等汙染物的吸附能力,從細觀孔隙結構角度揭示瞭煤渣吸附雨水和汙染物的機理。結果錶明,160 m3的吸附層的穩定吸附量約為28 m3,其吸水過程約為0.8 h,煤渣吸附層可以達到35 m3/h的消減能力,而且對汙染物具有較彊的吸附能力,不僅能有效的減小城市內澇髮生的可能性,而且能避免含燐雨水流入地下水使地下水富營養化,從而論證瞭通過改造綠地消減城市內澇的方法的可行性和創新性。
위완해성시내로일익빈발적곤경,감경유차인기적경제손실,제고성시생활수평,이성시내로적연구현상위기출,제출일투재성시록지구역설치다공흡부층진행소감성시내로적신방법。추도료해방법소감내로적잠능모형,병대해방안적관건설계기술삼수진행료연구。이용유한원방법모의료10 m자연수두작용하흡부층대우수적흡부화해흡능력,병이매사위례,연구료기대수분화린등오염물적흡부능력,종세관공극결구각도게시료매사흡부우수화오염물적궤리。결과표명,160 m3적흡부층적은정흡부량약위28 m3,기흡수과정약위0.8 h,매사흡부층가이체도35 m3/h적소감능력,이차대오염물구유교강적흡부능력,불부능유효적감소성시내로발생적가능성,이차능피면함린우수류입지하수사지하수부영양화,종이론증료통과개조록지소감성시내로적방법적가행성화창신성。
In order to ease the plight of increasingly frequent city waterlogging , reduce the economic losses and improve the living standards of people , based on present waterlogging research , a new waterlogging reduced method which sets one porous adsorption layer in the green area region is put forward .A waterlogging-reducing model is proposed , and the key design parameters are determined . The water adsorption and desorption process in the adsorption layer under 10 m natural water head is simulated using the finite element method .In addition , taking coal residue as an example , its ad-sorption capacity for moisture and phosphorus pollutants is studied , and the absorbing mechanism of water and pollutants is revealed from the microscopic pore structure aspect .The results show that 160 cubic meters coal residue layer can absorb 28 cubic meters of water steadily in 0.8 hours at the speed of 35 m3/h to reduce the possibility of city waterlogging , and it has the long-term adsorption capacity for pollutants to keep out rainwater that could carry phosphorus into the water table , which proves that it is feasible and innovative to reduce waterlogging by green area .