2,324
Views
68
CrossRef citations to date
0
Altmetric
Original Articles

Permeable pavement in northern North American urban areas: research review and knowledge gaps

, , &
Pages 143-162 | Received 28 Oct 2015, Accepted 16 Dec 2016, Published online: 31 Jan 2017

References

  • AASHTO (American Association of State Highway and Transportation Officials) , 1993. Guide for Design of Pavement Structures . Washington, DC: American Association of State Highway and Transportation Officials.
  • ACI (American Concrete Institute) , 2010. Report on pervious concrete . Farmington Hills, MI: American Concrete Institute. ACI Report: 522R-10.
  • ACPA (American Concrete Paving Association) , 2009. Stormwater management with pervious concrete pavement . Skokie, IL : American Concrete Paving Association.
  • ACPA (American Concrete Paving Association) , 2016. Pervious Pave. Available from: http://www.acpa.org/perviouspave/ [Accessed on 13 June 2016].
  • Al-Rubaei, A.M. , et al. , 2013. Long-term hydraulic performance of porous asphalt pavements in Northern Sweden. Journal of Irrigation and Drainage Engineering , 139 (6), 499–505.10.1061/(ASCE)IR.1943-4774.0000569
  • Amde, A.M . and Rogge, S ., 2013. Development of high quality pervious concrete specifications for Maryland conditions . Baltimore, MD : State Highway Administration Maryland Department of Transportation, Report number (MD-13-SP009B4F)
  • Bean, E.Z. , et al. , 2004. Study on the surface infiltration rate of permeable pavements. Proceedings of the 1st Water and Environment Specialty Conference of the Canadian Society for Civil Engineering , 2–5 June. Saskatoon, Canada: Canadian Society for Civil Engineering, 1–10.
  • Beecham, S. , et al., 2009. Experience in the application of permeable interlocking concrete pavements in Australia. In Proceedings of the 9th International Conference on Concrete Block Paving , October, Buenos Aires, Argentina, Argentinean Concrete Block Association, Cordoba, Argentina, 1–8.
  • Borgwardt, S. , 1994. Tests performed on the Uni Eco-stone pavements of various ages – Expert opinion . Hanover, Germany: Institute for Planning Green Spaces and for Landscape Architecture, University of Hanover.
  • Borgwardt, S. , 1995. Suitable beddings for paving blocks permeable to water . Munich, Germany: Betonwerk Fertigteil-Technik, Concrete Precasting Plant and Technology.
  • Borgwardt, S ., 1997. Performance and fields of application for permeable paving systems . Germany: Betonwerk + Fertigteil-Technik, Concrete Precasting Plant and Technology, 100–105.
  • Borgwardt, S ., 2006. Long-term in situ infiltration performance of permeable concrete block pavement. In Proceedings of the 8th International Conference of Concrete Block Paving , San Francisco, CA, November. Herndon, VA: Interlocking Concrete Pavement Institute Foundation for Education and Research.
  • Boving, T. , et al. , 2008. Potential for localized groundwater contamination in a porous pavement parking lot setting in Rhode Island. Environmental Geology , 55 (3), 571–582.10.1007/s00254-007-1008-z
  • Brattebo, B.O. and Booth, D.B. , 2003. Long-term stormwater quantity and quality performance of permeable pavement systems. Water Research , 37 (18), 4369–4376.10.1016/S0043-1354(03)00410-X
  • Briggs, J.F. , 2006. Performance assessment of porous asphalt for stormwater treatment . Thesis (MS). University of New Hampshire.
  • Brown, C. , et al. , 2009. Characteristics of sediment removal in two types of permeable pavement. Water Quality Research Journal of Canada , 44 (1), 59–70.
  • Burak, R.J. , 2004. Permeable Interlocking Concrete Pavements - Selection, Design, Construction and Maintenance. In Proceedings of the 2004 Annual Conference and Exhibition of the Transportation Association of Canada , 19–22 September. Quebec City, Quebec, Canada, 17.
  • Chai, L. , et al. , 2012. Hydraulic performance of fully permeable highway shoulder retrofit for stormwater runoff management. Journal of Environmental Engineering , 138 (7), 711–722.10.1061/(ASCE)EE.1943-7870.0000523
  • Chopra, M. , et al. , 2010. Effect of Rejuvenation Methods on the Infiltration Rates of Pervious Concrete Pavements. Journal of Hydrologic Engineering , 15 (6), 426–433.10.1061/(ASCE)HE.1943-5584.0000117
  • Coleri, E. , et al. , 2013. Clogging evaluation of open graded friction course pavements tested under rainfall simulation and heavy vehicle simulator. Journal Environmental Management , 129 (8), 164–172.10.1016/j.jenvman.2013.07.005
  • Collins, K.A. , Hunt, W.F. , and Hathaway, J.M. , 2010. Side-by-side comparison of nitrogen species removal for four types of permeable pavement and standard asphalt in Eastern North Carolina. Journal of Hydrologic Engineering , 15 (6), 512–521.10.1061/(ASCE)HE.1943-5584.0000139
  • CRMCA (Colorado Ready Mixed Concrete Association) , 2009. Specifier’s guide for pervious concrete pavement design . Centenial, CO : CRMCA.
  • Drake, J . 2013. Performance and operation of partial infiltration permeable pavement systems in the Ontario climate . Thesis (PhD). University of Guelph.
  • Drake, J. , et al. , 2012. Evaluation of permeable pavements in cold climates . Toronto: Toronto and Region Conservation Authority.
  • Drake, J. , Bradford, A. , and Marsalek, J. , 2013. Review of environmental performance of permeable pavement systems: state of the knowledge. Water Quality Research Journal of Canada , 48 (3), 203–222.10.2166/wqrjc.2013.055
  • Fan, L.F. , et al. , 2013. Microbial community structure and activity under various pervious pavements. Journal of Environmental Engineering , 140 (3), 04013012.
  • Fennessey, L.A.J . and Hawkins, R.H ., 2001. The NRCS curve number, a new look at an old tool. Proceedings of 2001 Pennsylvania Stormwater Management Symposium, Rethinking Comprehensive Stormwater Management-Integrating Quality, Volume and Peak Controls , 17–18 October. Villanova, PA: Villanova University.
  • Ferguson, B. , 2005. Porous pavements . New York, NY : Taylor & Francis.10.1201/CRCISWMLDEVE
  • Gilbert, J.K. and Clausen, J.C. , 2006. Stormwater runoff quality and quantity from asphalt, paver, and crushed stone driveways in Connecticut. Water Research , 40 (4), 826–832.10.1016/j.watres.2005.12.006
  • Golroo, A. and Tighe, S.L. , 2012. Pervious concrete pavement performance modeling: an empirical approach in cold climates. Canadian Journal of Civil Engineering , 39 (10), 1100–1112.10.1139/l2012-088
  • González-Angullo, N. , et al. , 2008. Runoff infiltration to permeable paving in clogged conditions. Urban Water Journal , 5 (2), 117–124.10.1080/15730620701723538
  • Gunderson, J. , 2008. Pervious pavements: New findings about their functionality and performance in cold climates. Stormwater Magazine . September Issue. Santa Barbara, CA, USA: Forester Media, Inc.
  • Haselbach, L.M. and Freeman, R.M. , 2006. Vertical porosity distributions in pervious concrete pavement. ACI Materials Journal , 103 (6), 452.
  • Haselbach, L.M. , Valavala, S. , and Montes, F. , 2006. Permeability predictions for sand-clogged Portland cement pervious concrete pavement systems. Journal of Environmental Management , 81 (1), 42–49.
  • Hein, D. , et al. , 2013a. Permeable Shoulders with Stone Reservoirs . Washington, DC: American Association of State Highway and Transportation Officials.
  • Hein, M.F. , Dougherty, M. , and Hobbs, T. , 2013b. Cleaning methods for pervious concrete pavements. International Journal of Construction Education and Research , 9 (2), 102–116.10.1080/15578771.2011.649886
  • Henderson, V. and Tighe, S. , 2012. Evaluation of pervious concrete pavement performance in cold weather climates. International Journal of Pavement Engineering , 13 (3), 197–208.10.1080/10298436.2011.572970
  • Houle, K. , 2008. Winter performance assessment of permeable pavements - A comparative study of porous asphalt, pervious concrete, and conventional asphalt in a northern climate . Thesis (MS): University of New Hampshire.
  • Huang, J. , et al. , 2012. Winter performance of inter-locking pavers—stormwater quantity and quality. Water , 4 (4), 995–1008.10.3390/w4040995
  • Imran, H.M. , Akib, S. , and Karim, M.R. , 2013. Permeable pavement and stormwater management systems: a review. Environmental Technology , 34 (18), 2649–2656.10.1080/09593330.2013.782573
  • InterPave , 2010. Permeable pavements: Guide to the design, construction and maintenance of concrete block permeable pavements . Leicester: InterPave.
  • Izevbekhai, B.I. and Akkari, A. , 2011. Pervious concrete cells on MnROAD low-volume road . St. Paul, MN: Minnesota Department of Transportation.
  • Jones, D ., et al., 2010. Laboratory Testing and Modeling for Structural Performance of Fully Permeable Pavements under Heavy Traffic: Final Report . Sacramento, CA: California Department of Transportation Division of Environmental Analysis-storm Water Program. Sacramento.
  • Kang, J.-H. , et al. , 2009. Characteristics of highway stormwater runoff in Los Angeles: Metals and PAHs. Water Environment Research , 81 (3), 308–318.
  • Kayhanian, M. , et al. , 2009a. Water quality evaluation of leachate produced from pavement specimens under controlled laboratory conditions. Journal of Road Materials and Pavement Design , 11 (1), 9–28.
  • Kayhanian, M. , et al. , 2009b. Leachability of dissolved chromium in asphalt and concrete surfacing materials. Journal of Environmental Management , 90 (11), 3574–3580.10.1016/j.jenvman.2009.06.011
  • Kayhanian, M. , Chai, L. , and Givens, B. , 2010. Laboratory testing and simulation for hydraulic performance of fully permeable pavements . Sacramento, CA: California Department of Transportation.
  • Kayhanian, M. , et al. , 2012a. Permeability measurement and scan imaging to assess clogging of pervious concrete pavements in parking lots. Journal of Environmental Management , 95 (1), 114–123.10.1016/j.jenvman.2011.09.021
  • Kayhanian, M. , et al. , 2012b. Review of highway runoff characteristics: Comparative analysis and universal implications. Water Research , 46 (20), 6609–6624.10.1016/j.watres.2012.07.026
  • Kevern, J.T. , et al. , 2006. Pervious concrete construction: Methods and quality control. Proceedings of NRMCA Concrete Technology Forum: Focus on Pervious Concrete , May 24–25, Nashville, TN. Silver Spring, MD: NRMCA, 1–14.
  • Kevern, J.T. , Schaefer, V.R. , and Wang, K. , 2009. Temperature behavior of pervious concrete systems. Transportation Research Record: Journal of the Transportation Research Board , 2098, 94–101.10.3141/2098-10
  • Kim, J.Y. , Slater, C. , and Gil, C. , 2013. Investigation of hydraulic capacity and water quality modification of stormwater by permeable interlocking concrete pavement (PICP) . Fort Myers, FL: Department of Environmental and Civil Engineering, Florida Gulf Coast University.
  • LADPW (Los Angeles County Department of Public Works) , 2002. Development planning for storm water management . Los Angeles, CA : Los Angeles County.
  • Lau, S.L ., Kayhanian, M ., and Stenstrom, M.K ., 2005. PAHs and organic pollutants in highway runoff. In Proceedings of the IAW-ASPIRE Conference , 10–15 July, paper 7F5. Singapore.
  • Lebens, M.A. and Troyer, B. , 2012. Porous Asphalt Pavement Performance in Cold Regions . St. Paul, MN: Minnesota Department of Transportation.
  • Leming, M.L. , Malcom, H.R. , and Tennis, P.D. , 2007. Hydrologic design of pervious concrete . Skokie, IL: Portland Cement Association.
  • Li, H. , Harvey, J. and Jones, D. , 2012a. Development of mechanistic-empirical design procedure for fully permeable pavement under heavy traffic. Transportation Research Record: Journal of the Transportation Research Board , 2305, 83–94.10.3141/2305-09
  • Li, H. , Harvey, J. , and Kendall, A. , 2012b. Field measurement of albedo for different land cover materials and effects on thermal performance. Journal of Building and Environment , 59, 536–546.
  • Li, H. , Kayhanian, M. , and Harvey, J.T. , 2013a. Comparative field permeability measurement of permeable pavements using ASTM C1701 and NCAT permeameter methods. Journal of Environmental Management , 118 (2), 144–152.10.1016/j.jenvman.2013.01.016
  • Li, H. , et al. , 2013b. The use of reflective and permeable pavements as a potential practice for heat island mitigation and stormwater management. Environmental Research Letters , 8, 1–14.
  • Low, K ., Harz, D ., and Neithalath, N . 2008. Statistical characterization of the pore structure of enhanced porosity concretes. In Proceedings of the NRMCA Concrete Technology Forum , 20–22 May, Denver : NRMCA, 10.
  • Lucke, T. and Beecham, S. , 2011. Field investigation of clogging in a permeable pavement system. Building Research and Information , 39 (6), 603–615.10.1080/09613218.2011.602182
  • Mallela, J ., et al ., 2002. User’s guide for drainage requirements in pavements – Drip 2.0 microcomputer program . Washington, DC: Federal Highway Administration.
  • Mata, L.A. and Leming, M.L. , 2012. Vertical distribution of sediments in pervious concrete pavement systems. ACI Materials Journal , 109 (2), 149–155.
  • Mbanaso, F.U. , et al. , 2013. Laboratory-based experiments to investigate the impact of glyphosate-containing herbicide on pollution attenuation and biodegradation in a model pervious paving system. Chemosphere , 90 (2), 737–746.10.1016/j.chemosphere.2012.09.058
  • Meininger, R.C. , 1988. No-fines pervious concrete for paving. Concrete International , 10 (8), 20–27.
  • Mulligan, A ., 2005. Attainable compressive strength of pervious concrete paving systems . Thesis (MS), University of Central Florida.
  • NAPA (National Asphalt Pavement Association) , 2008. Porous asphalt pavements for stormwater management, design, construction and maintenance guide . Lanham, MD: NAPA.
  • NRCS (National Resource Conservation Service, U.S. Department of Agriculture) , 1986. Urban hydrology for small watersheds, TR 55 . Washington DC: Natural Resources Conservation Service.
  • Offenberg, M. , 2005. Producing Pervious Pavements. Concrete International. , 27 (3), 50–54.
  • Partl, M.N. , Momm, F. and Bariani, B. , 2003. Study of the aggregate for the pervious asphalt concrete performance testing and evaluation of bituminous materials. In Proceedings of the 6th International RILEM Symposium , 14–16 April Zurich. Bagneux, France: RILEM. 237–243.
  • Pratt, C.J. , Newman, A.P. and Bond, P.C. , 1999. Mineral oil bio-degradation within a permeable pavement: Long term observations. Water Science and Technology , 39 (2), 103–109.10.1016/S0273-1223(99)00013-X
  • Ravindrarajah, S. and Yukari, A ., 2010. Environmentally friendly concrete for sustainable construction. In Proceedings from the 35th Conference on Our World in Concrete & Structures , 25–27 August. Singapore: CI-Premier, PTE.
  • Roseen, R.M. , et al. , 2009. Seasonal performance variations for storm-water management systems in cold climate conditions. Journal of Environmental Engineering , 135 (3), 128–137.10.1061/(ASCE)0733-9372(2009)135:3(128)
  • Roseen, R.M. , et al. , 2012. Water quality and hydrologic performance of a porous asphalt pavement as a storm-water treatment strategy in a cold climate. Journal of Environmental Engineering , 138 (1), 81–89.10.1061/(ASCE)EE.1943-7870.0000459
  • Roseen, R.M. , et al. , 2014. Assessment of winter maintenance of porous asphalt and its function for chloride source control. Journal of Transportation Engineering , 140 (2), 1–8.
  • Sata, V. , Wongsa, A. , and Chindaprasirt, P. , 2013. Properties of pervious geopolymer concrete using recycled aggregates. Construction and Building Materials. , 42, 33–39.10.1016/j.conbuildmat.2012.12.046
  • Schaefer, V.R. , et al. , 2006. Mix design development for pervious concrete in cold weather climates . Ames, IA: Iowa Department of Transportation.
  • Scholz, M. , 2013. Water quality improvement performance of geotextiles within permeable pavement systems: A critical review. Water , 5 (2), 462–479.10.3390/w5020462
  • Schwartz, S.S. , 2010. Effective curve number and hydrologic design of pervious concrete storm-water systems. Journal of Hydrologic Engineering , 15 (6), 465–474.10.1061/(ASCE)HE.1943-5584.0000140
  • Shu, X. , et al. , 2011. Performance comparison of laboratory and field produced pervious concrete mixtures. Construction and Building Materials , 25 (8), 3187–3192.10.1016/j.conbuildmat.2011.03.002
  • SI Concrete Systems , 2002. Fiber-reinforced pervious concrete . Chattanooga, TN: SI Concrete Systems.
  • Signore, J. , et al. , 2008. Performance evaluation of permeable pavements for water quality under heavy traffic . Sacramento, CA: Caltrans Division of Environmental Analysis.
  • Smith, D.R. , 2011. Permeable interlocking concrete pavements . 4th ed. Herndon, VA: Interlocking Concrete Pavement Institute.
  • St. John, M.S. and Horner, R.R. , 1997. Effect of road shoulder treatments on highway runoff quality and quantity . Seattle, WA : Washington State Transportation Center, University of Washington.
  • Tennis, P. , Leming, M. , and Akers, D. , 2004. Pervious concrete pavements . Silver Spring, MD: Portland Cement Association and National Ready Mixed Concrete Association.
  • Tyner, J.S. , Wright, W.C. , and Dobbs, P.A. , 2009. Increasing exfiltration from pervious concrete and temperature monitoring. Journal of Environmental Management , 90 (8), 2636–2641.10.1016/j.jenvman.2009.02.007
  • UNHSC (University of New Hampshire Stormwater Center) , 2009. UNHSC design specifications for porous asphalt pavement and infiltration beds . Durham, NH: University of New Hampshire.
  • UDFCD (Urban Drainage and Flood Control District) , 2011a. Stormwater quality monitoring report permeable interlocking concrete pavement (PICP) at denver wastewater management building Denver, Colorado 2008–2010 . Denver, CO : UDFCD.
  • UDFCD (Urban Drainage and Flood Control District) , 2011b. Stormwater quality monitoring report porous asphalt at denver wastewater management building Denver, Colorado 2008–2010 . Denver, CO : UDFCD.
  • USEPA , 2016. Using cool pavements to reduce heat islands . Washington, DC, USEPA. Available from: https://www.epa.gov/heat-islands/using-cool-pavements-reduce-heat-islands [Accessed 14 June 2016].
  • Van Dam, T.J. , et al. , 2015. Towards sustainable pavement systems: A reference document . Washington, DC: Federal Highway Administration.
  • Vancura, M ., Khazanovich, L. , and MacDonald, K. , 2012. Location and depth of pervious concrete clogging material before and after void maintenance with common municipal utility vehicles. Journal of Transportation Engineering , 138 (3), 332–338.
  • Vancura, M. , MacDonald, K. and Khazanovich, L. , 2011a. Microscopic analysis of paste and aggregate distresses in pervious concrete in a wet, hard freeze climate. Cement and Concrete Composites , 33 (10), 1080–1085.10.1016/j.cemconcomp.2011.05.011
  • Vancura, M. , MacDonald, K. and Khazanovich, L. , 2011b. Structural analysis of pervious concrete pavement. Transportation Research Record: Journal of the Transportation Research Board. , 2226, 13–20.10.3141/2226-02
  • Wanielista, M. and Chopra, M. , 2007a. Performance assessment of a pervious concrete pavement, Report 3 of 4: Compressive strength of pervious concrete pavements . Orlando, FL: Stormwater Management Academy, University of Central Florida.
  • Wanielista, M. and Chopra, M. , 2007b. Performance assessment of a pervious concrete pavement used as a shoulder for an interstate rest area parking lot . Orlando, FL: Stormwater Management Academy, University of Central Florida.
  • Wardynski, B.J. , Winston, R.J. , and Hunt, W.F. , 2013. Internal water storage enhances exfiltration and thermal load reduction from permeable pavement in the North Carolina mountains. Journal of Environmental Engineering , 139 (2), 187–195.10.1061/(ASCE)EE.1943-7870.0000626
  • Weiss, P.T. , et al. , 2015. Permeable pavements in cold climates: State of the art and cold climate case studies . St. Paul, MN: Minnesota Department of Transportation.
  • Wenck Associates , 2014. Porous pavement paired intersection study . Robbinsdale, MN: Shingle Creek Watershed Management Commission and the Minnesota Pollution Control Agency.
  • Wu, H. , et al. , 2011. Laboratory evaluation of abrasion resistance of portland cement pervious concrete. Journal of Materials in Civil Engineering , 23 (5), 697–702.10.1061/(ASCE)MT.1943-5533.0000210
  • Yang, Z. , 2011. Freezing and thawing durability of pervious concrete under simulated field conditions. ACI Materials Journal , 108 (2), 187–195.
  • Yang, Z ., Brown, H ., and Cheney, A ., 2006. Influence of moisture conditions on freeze and thaw durability of portland cement pervious concrete. In Proceedings of Concrete Technology Forum: Focus on Pervious Concrete , 24–25 May 2006, Nashville, TN. Silver Spring, MD : NRMCA, 1–15.
  • Yong, C. , et al ., 2008. The clogging behaviour and treatment efficiency of a range of porous pavements. In Proceedings from the 11th International Conference on Urban Drainage . Edinburgh, Scotland, 31 August–5 September. Madrid and London: IAHR and IWA, 1–10.
  • Yong, C.F. , McCarthy, D.T. and Deletic, A. , 2013. Predicting physical clogging of porous and permeable pavements. Journal of Hydrology , 481, 48–55.10.1016/j.jhydrol.2012.12.009

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.