透水铺装系统控制城市雨水径流研究进展
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摘要
综述了国内外对透水铺装系统控制雨水径流的研究,总结了透水铺装系统削减暴雨径流量和净化雨水水质的研究进展,分析了透水铺装系统对各种污染物的去除机理,并对该技术今后的研究与实践提出了展望,对中国科研人员深入了解透水铺装前景具有较大价值。
This paper introduced the research of stormwater runoff control by permeable pavement system at home and abroad.Also,it summarized the research progress of stormwater runoff reduction and rainwater purification by permeable pavement technology. This paper analyzed the removal mechanisms of various pollutants by permeable pavement technology and put forward some prospects for the future research and practice of permeable pavement technology. It was of great value for Chinese researchers to deeply understand the prospect of permeable pavement technology.
This paper introduced the research of stormwater runoff control by permeable pavement system at home and abroad.Also,it summarized the research progress of stormwater runoff reduction and rainwater purification by permeable pavement technology. This paper analyzed the removal mechanisms of various pollutants by permeable pavement technology and put forward some prospects for the future research and practice of permeable pavement technology. It was of great value for Chinese researchers to deeply understand the prospect of permeable pavement technology.
引文
[1]孔丹凤,吕伟娅.江苏省绿色建筑节水与水资源利用技术及发展趋势[J].中国给水排水,2013,29(24):27-31.
[2]张志彬,孟庆宇,马征,等.城市面源污染的污染特征研究[J].给水排水,2016(S1):163-167.
[3]LIU J,SAMPLE DJ,BELL C,et al. Review and researchneeds of bioretention used for the treatment of urban storm-water[J]. Water,2014,6(4):1066-1099.
[4]宋中南,石云兴.透水混凝土及其应用技术[M].北京:中国建筑工业出版社,2011.
[5]王俊岭,王雪明,张安,等.基于“海绵城市”理念的透水铺装系统的研究进展[J].环境工程,2015(12):1-4.
[6]王哲,谢杰,谢强,等.透水铺装地面滞蓄净化城镇雨水径流研究进展[J].环境科学与技术,2013,36(12):138-143.
[7]住房城乡建设部.海绵城市建设技术指南-低影响开发雨水系统构建(试行)[S]. 2014.
[8]BEAN E Z,HUNT W F,BIDELSPACH D A. Field survey of permeable pavement surface infiltration ratesr[J]. Journal of Irrigation&Drainage Engineering,2007,133(3):249-255.
[9] FASSMAN E A,BLACKBOURNS. Urban runoff mitigation by apermeable pavement system over impermeable soils[J]. Journal of Hydrologic Engineering,2010,15(6):475-485.
[10]COLLINS K A,HUNT W F,HATHAWAY J M. Hydrologic andwater quality evaluation of four permeable pavements inNorth Carolina,USA[C]//. Low Impact Development forUrban Ecosystem and Habitat Protection,ASCE,2008(333):1-10.
[11]赵飞,张书函,陈建刚,等.透水铺装雨水入渗收集与径流削减技术研究[J].给水排水,2011,27(S1):254-258.
[12]KUMAR K,KOZAK J,HUNDAL L,et al. In-situ infiltration performance of different permeable pavements in a employee used parking lot e A four-year study[J]. Journal of Environmental Management,2016(167):8-14.
[13]COLLINS K A,HUNT W F,HATHAWAY J M. Hydrologic comparison offour types of permeable pavement and standard asphalt in EasternNorth Carolina[J]. Journal of Hydrologic Engineering,2008,13(12):1146-1157.
[14]朱春阳,李树华,李晓艳,等.透水性铺装结构对雨水入渗过程的影响[J].北京园林,2009,25(4):19-26.
[15]DING Y Y,HOU L Z,ZHANG S H. Urban rain-water utilization based on porous pavement[J]. Beijing Water,2006(6):1-4.
[16]马昱斐,谢昊文,高成.新型透水铺装导水结构渗透系数的研究[J].人民珠江,2017,38(6):24-28.
[17]秦余朝.城市典型透水铺装地面径流减控与污染物削减效果研究[D].西安:西安理工大学,2017.
[18]KAMALI M,DELKASH M,TAJRISHY M. Evaluation of permeable pavement responses to urban surface runoff[J]. Journal of Environmental Management,2017(187):43-53.
[19]KAZEMI H,ROCKAWAYT D,RIVARDJ,et al. Assessment of Surface Infiltration Performance and Maintenance of Two Permeable Pavement Systems in Louisville,Kentucky[J]. Sustainable Water Built Environ,2017,3(4):1-11.
[20]金建荣,李田,时珍宝.高地下水位地区透水铺装控制径流污染的现场实验[J].环境科学,2017,38(6):2379-2384.
[21]DRAKE J,BRADFORD A,SETERS T V. Winter effluent quality from partial-infiltration permeable pavement systems[J]. Journal of Environmental Engineering,2014,140(11):1-13.
[22]DRAKE J,BRADFORD A,SETERS T V. Stormwater quality of spring-summer-fall effluent from three partial-infiltra-tion permeable pavement systems and conventional asphalt pavement[J]. Journal of Environmental Management,2014,139(139C):69-79.
[23]赵现勇,程方,张杏娟,等.不同结构透水路面对雨水径流污染物的削减作用[J].天津城建大学学报,2012,18(4):280-285.
[24]BROWN R A,BORST M. Nutrient infiltrate concentrations from three permeable pavementtypes[J]. Environmental Management,2015(164):74-85.
[25]张政科,虢清伟,颜智勇,等.具氮、磷吸附特性的多孔混凝土材料优选[J].混凝土,2012(10):89-92.
[26]王俊岭,魏江涛,王雪明,等.透水混凝土铺装基层3种骨料对典型径流污染物吸附效果比较[J].科学技术与工程,2017,17(3):303-309.
[27]王俊岭,聂练桃,王雪明,等.透水铺装改性基层对典型径流污染物动态除污实验研究[J].科学技术与工程,2017,17(34):347-352.
[28]王俊岭,王雪明,冯萃敏,等.改性透水混凝土铺装对雨水径流净化研究进展[J].混凝土,2016(2):145-152.
[29]吴梦柯,赵金辉,林晨彤,等.透水混凝土路面净化雨水径流研究进展[J].现代化工,2017,37(10):25-28.
[30]Giridhar Prabhukumar. Development of permeable reactive filter sys-tems(PRFS)for treatment of urban stormwater runoff[D]. Chicago:Graduate College of the Illinois Institute of Technology,2013.
[31]王俊岭,宋健,张玉玉,等.具有导渗导排管的透水混凝土铺装对径流污染物控制实验[J].水处理技术,2016,42(3):111-115.
[32]WEI J,SHA A M,XIAO J J,et al. Experimental study on filtration effect and mechanism of pavement run-off in permeable asphalt pavement[J]. Construction&Building Materials,2015(100):102-110.
[33]MYERS B,SAGI I,LEEUWEN J V,et al. Water quality improvement by base course aggregate in a permeable pavement with underlying reservoir structure[J]. Rainwater&Urban Design,2007:838-844.
[34]周利睿,耿飞,许迎春,等.透水铺装技术的发展现状[J].低温建筑技术,2016(7):37-39.
[2]张志彬,孟庆宇,马征,等.城市面源污染的污染特征研究[J].给水排水,2016(S1):163-167.
[3]LIU J,SAMPLE DJ,BELL C,et al. Review and researchneeds of bioretention used for the treatment of urban storm-water[J]. Water,2014,6(4):1066-1099.
[4]宋中南,石云兴.透水混凝土及其应用技术[M].北京:中国建筑工业出版社,2011.
[5]王俊岭,王雪明,张安,等.基于“海绵城市”理念的透水铺装系统的研究进展[J].环境工程,2015(12):1-4.
[6]王哲,谢杰,谢强,等.透水铺装地面滞蓄净化城镇雨水径流研究进展[J].环境科学与技术,2013,36(12):138-143.
[7]住房城乡建设部.海绵城市建设技术指南-低影响开发雨水系统构建(试行)[S]. 2014.
[8]BEAN E Z,HUNT W F,BIDELSPACH D A. Field survey of permeable pavement surface infiltration ratesr[J]. Journal of Irrigation&Drainage Engineering,2007,133(3):249-255.
[9] FASSMAN E A,BLACKBOURNS. Urban runoff mitigation by apermeable pavement system over impermeable soils[J]. Journal of Hydrologic Engineering,2010,15(6):475-485.
[10]COLLINS K A,HUNT W F,HATHAWAY J M. Hydrologic andwater quality evaluation of four permeable pavements inNorth Carolina,USA[C]//. Low Impact Development forUrban Ecosystem and Habitat Protection,ASCE,2008(333):1-10.
[11]赵飞,张书函,陈建刚,等.透水铺装雨水入渗收集与径流削减技术研究[J].给水排水,2011,27(S1):254-258.
[12]KUMAR K,KOZAK J,HUNDAL L,et al. In-situ infiltration performance of different permeable pavements in a employee used parking lot e A four-year study[J]. Journal of Environmental Management,2016(167):8-14.
[13]COLLINS K A,HUNT W F,HATHAWAY J M. Hydrologic comparison offour types of permeable pavement and standard asphalt in EasternNorth Carolina[J]. Journal of Hydrologic Engineering,2008,13(12):1146-1157.
[14]朱春阳,李树华,李晓艳,等.透水性铺装结构对雨水入渗过程的影响[J].北京园林,2009,25(4):19-26.
[15]DING Y Y,HOU L Z,ZHANG S H. Urban rain-water utilization based on porous pavement[J]. Beijing Water,2006(6):1-4.
[16]马昱斐,谢昊文,高成.新型透水铺装导水结构渗透系数的研究[J].人民珠江,2017,38(6):24-28.
[17]秦余朝.城市典型透水铺装地面径流减控与污染物削减效果研究[D].西安:西安理工大学,2017.
[18]KAMALI M,DELKASH M,TAJRISHY M. Evaluation of permeable pavement responses to urban surface runoff[J]. Journal of Environmental Management,2017(187):43-53.
[19]KAZEMI H,ROCKAWAYT D,RIVARDJ,et al. Assessment of Surface Infiltration Performance and Maintenance of Two Permeable Pavement Systems in Louisville,Kentucky[J]. Sustainable Water Built Environ,2017,3(4):1-11.
[20]金建荣,李田,时珍宝.高地下水位地区透水铺装控制径流污染的现场实验[J].环境科学,2017,38(6):2379-2384.
[21]DRAKE J,BRADFORD A,SETERS T V. Winter effluent quality from partial-infiltration permeable pavement systems[J]. Journal of Environmental Engineering,2014,140(11):1-13.
[22]DRAKE J,BRADFORD A,SETERS T V. Stormwater quality of spring-summer-fall effluent from three partial-infiltra-tion permeable pavement systems and conventional asphalt pavement[J]. Journal of Environmental Management,2014,139(139C):69-79.
[23]赵现勇,程方,张杏娟,等.不同结构透水路面对雨水径流污染物的削减作用[J].天津城建大学学报,2012,18(4):280-285.
[24]BROWN R A,BORST M. Nutrient infiltrate concentrations from three permeable pavementtypes[J]. Environmental Management,2015(164):74-85.
[25]张政科,虢清伟,颜智勇,等.具氮、磷吸附特性的多孔混凝土材料优选[J].混凝土,2012(10):89-92.
[26]王俊岭,魏江涛,王雪明,等.透水混凝土铺装基层3种骨料对典型径流污染物吸附效果比较[J].科学技术与工程,2017,17(3):303-309.
[27]王俊岭,聂练桃,王雪明,等.透水铺装改性基层对典型径流污染物动态除污实验研究[J].科学技术与工程,2017,17(34):347-352.
[28]王俊岭,王雪明,冯萃敏,等.改性透水混凝土铺装对雨水径流净化研究进展[J].混凝土,2016(2):145-152.
[29]吴梦柯,赵金辉,林晨彤,等.透水混凝土路面净化雨水径流研究进展[J].现代化工,2017,37(10):25-28.
[30]Giridhar Prabhukumar. Development of permeable reactive filter sys-tems(PRFS)for treatment of urban stormwater runoff[D]. Chicago:Graduate College of the Illinois Institute of Technology,2013.
[31]王俊岭,宋健,张玉玉,等.具有导渗导排管的透水混凝土铺装对径流污染物控制实验[J].水处理技术,2016,42(3):111-115.
[32]WEI J,SHA A M,XIAO J J,et al. Experimental study on filtration effect and mechanism of pavement run-off in permeable asphalt pavement[J]. Construction&Building Materials,2015(100):102-110.
[33]MYERS B,SAGI I,LEEUWEN J V,et al. Water quality improvement by base course aggregate in a permeable pavement with underlying reservoir structure[J]. Rainwater&Urban Design,2007:838-844.
[34]周利睿,耿飞,许迎春,等.透水铺装技术的发展现状[J].低温建筑技术,2016(7):37-39.