References

  1. R.A. McManamay, S.S. Nair, C.R. DeRolph, B.L. Ruddell, A.M. Morton, R.N. Stewart, M.J. Troia, L. Tran, H. Kim, B.L. Bhaduri, US cities can manage national hydrology and biodiversity using local infrastructure policy, PNAS, 1140 (2017) 9581–9586.
  2. C.B. d’Amour, F. Reitsma, G. Baiocchi, S. Barthel, B. Güneralp, K. Erb, H. Haberl, Felix Creutzig, K.C. Seto, Future urban land expansion and implications for global croplands, PNAS, 1140 (2016) 8939–8944.
  3. Z. Zhang, N.E. Zimmermann, A. Stenke, X. Li, E.L. Hodson, G. Zhu, C. Huang, B. Poulter, Emerging role of wetland methane emissions in driving 21st century climate change, PNAS, 1140 (2017) 9647–9652.
  4. J. Franczy, H. Chang, The effects of climate change and urbanization on the runoff of the Rock Creek basin the Portland metropolitan area, Oregon, USA, Hydrol. Processes, 23 (2009) 805–819.
  5. J.M. Hathaway, W.F. Hunt, R.M. Guest, D.T. McCarthy, Residual indicator bacteria in autosampler tubing: a field and laboratory assessment, Water Sci. Technol., 690 (2014) 1120–1126.
  6. Z. Zahmatkesh, S. Burian, M. Karamouz, H. Tavakol-Davani, E. Goharian, Low-impact development practices to mitigate climate change effects on urban stormwater runoff: case study of New York City, J. Irrig. Drainage Eng., 1410 (2015) 1–13.
  7. J. Xie, H. Chen, Z. Liao, X. Gu, D. Zhu, Environmental Modelling and Software an integrated assessment of urban flooding mitigation strategies for robust decision making, Environ. Model. Software, 95 (2017) 1364–8152.
  8. US EPA, Developing Your Stormwater Pollution Prevention Plan A Guide for Construction Sites, Technical Report, Washington D.C., 2007.
  9. M.A. Benedict, E.T. McMahon, Green Infrastructure: Smart Conservation for the 21st Century, Sprawl Watch Clearinghouse Monograph Series, 2000.
  10. G.D. Geldof, Coping with uncertainties in integrated urban water management, Water Sci. Technol., 360 (1997) 265–269.
  11. V.G. Mitchell, Applying integrated urban water management concepts: a review of Australian experience, Environ. Manage., 370 (2006) 589–605.
  12. D. Barlow, G. Burrill, J.R. Nolfi, A Research Report on Developing a Community Level Natural Resource Inventory System, Center for Studies in Food Self-Sufficiency, Vermont Institute of Community Involvement, Burlington, VT, 1977.
  13. L.S. Coffman, Low-Impact Development design: A New Paradigm for Stormwater Management Mimicking and Restoring the Natural Hydrologic Regime an Alternative Stormwater, Prince George’s County Department of Environmental Resources Maryland County, USA, 2000.
  14. US EPA, Low Impact Development (LID) A Literature Review, Technical Report, United States EPA Office of Water, Washington D.C., 2000.
  15. N. Chang, Hydrological Connections between low-impact development, watershed best management practices, and sustainable development, J. Hydrol. Eng., 150 (2010) 384–385.
  16. M. Ignatieva, C. Meurk, G. Stewart, Low Impact Urban Design and Development (LIUDD): matching urban design and urban ecology, Landscape Rev., 120 (2008) 61–73.
  17. C.J. Pratt, A review of source control of urban stormwater runoff, Water Environ. J., 9 (1995) 132–139.
  18. P. Hamel, E. Daly, T.D. Fletcher, Source-control stormwater management for mitigating the impacts of urbanisation on baseflow: a review, J. Hydrol., 485 (2013) 201–211.
  19. A.R. Cizek, W.F. Hunt, Defining predevelopment hydrology to mimic predevelopment water quality in stormwater control measures (SCMs), Ecol. Eng., 57 (2013) 40–45.
  20. G. Blecken, W.F. Hunt III, A.M. Al-Rubaei, M. Viklander, W.G. Lord, Stormwater Control Measure (SCM) maintenance considerations to ensure designed functionality, Urban Water J., 14 (2017) 278–290.
  21. M.A. Kachchu Mohamed, T. Lucke, F. Boogaard, Preliminary investigation into the pollution reduction performance of swales used in a stormwater treatment train, Water Sci. Technol., 690 (2014) 1014–1020.
  22. S.M. Charlesworth, C.A. Booth, Sustainable Surface Water Management: A Handbook for SuDs, Wiley-Blackwell, Published in West Sussex, United Kingdom, 2017.
  23. D. Butler, J. Parkinson, Towards sustainable urban drainage, Water Sci. Technol., 35 (1997) 53–63.
  24. CIRIA, Sustainable Urban Drainage Systems Design Manual for Scotland and Northern Ireland, Technical Report, Published by “Construction Industry Research and Information Association”, London, United Kingdom, 2000.
  25. Victorian Stormwater Committee, Urban stormwater best practice environmental management guidelines, CSIRO Publishing, Melbourne, Australia, 1999.
  26. S.D. Lloyd, T.H.F. Wong, C. Chesterfield, Water Sensitive Urban Design–A Stormwater Management Perspective, Industry Report, Cooperative Research Centre for Catchment Hydrology, Monash University, Victoria, Australia, 2002.
  27. P.J. Morison, R.R. Brown, C. Cocklin, Transitioning to a waterways city municipal context, capacity and commitment, Water Sci. Technol., 620 (2010) 162–171.
  28. P. Abbott, J. Davies, P. Simkins, P. Morgan, C. Levin, D. Robinson, Creating Water Sensitive Places: Scoping the Potential for Water Sensitive Urban Design in the UK, CIRIA Publishing, London, 2013.
  29. T.D. Fletcher, W. Shuster, W.F. Hunt, R. Ashley, D. Butler, S. Arthur, S. Trowsdale, S. Barraud, A. Semadeni-Davies, J. Bertrand-Krajewski, P.S. Mikkelsen, G. Rivard, M. Uhl, D. Dagenais, M. Viklander, SUDS, LID, BMPs, WSUD and more – the evolution and application of terminology surrounding urban drainage, Urban Water J., 120 (2015) 525–542.
  30. K. Eckart, Z. McPhee, T. Bolisetti, Performance and implementation of low impact development: a review, Sci. Total Environ., 607 (2017) 413–432.
  31. C.A. Zimmer, I.W. Heathcote, H.R. Whiteley, H. Schroeter, Low impact development practices for stormwater: implications for urban hydrology, Can. Water Res. J., 320 (2007) 193–212.
  32. S.D. Lloyd, T.H.F. Wong, B. Porter, The planning and construction of an urban stormwater management scheme, Water Sci. Technol., 450 (2002) 1–10.
  33. N. Bastien, S. Arthur, S. Wallis, M. Scholz, The best management of SuDS treatment trains: a holistic approach, Water Sci. Technol., 610 (2010) 263–272.
  34. N.R.P. Bastien, S. Arthur, S.G. Wallis, M. Scholz, Runoff infiltration, a desktop case study, Water Sci. Technol., 630 (2011) 2300–2308.
  35. X. Zhang, X. Guo, M. Hu, Hydrological effect of typical low impact development approaches in a residential district, Nat. Hazards, 800 (2016) 389–400.
  36. C. Pyke, M.P. Warren, T. Johnson, J. Lagro, J. Scharfenberg, P. Groth, R. Freed, W. Schroeer, E. Main, Landscape and urban planning assessment of low impact development for managing stormwater with changing precipitation due to climate change, Landscape Urban Plan., 1030 (2011) 166–173.
  37. V. Pappalardo, D. La Rosa, A. Campisano, P. La Greca, The potential of green infrastructure application in urban runoff control for land use planning: a preliminary evaluation from a southern Italy case study, Ecosyst. Serv., 260 (2017) 345–354.
  38. H. Jia, Y. Lu, S.L. Yu, Y. Chen, Planning of LID–BMPs for urban runoff control: the case of Beijing Olympic village, Sep. Purif. Technol., 84 (2012) 112–119.
  39. J. Gao, R. Wang, J. Huang, M. Liu, Application of BMP to urban runoff control using SUSTAIN model: case study in an industrial area, Ecol. Model., 318 (2015) 177–183.
  40. L.M. Ahiablame, B.A. Engel, I. Chaubey, Effectiveness of low impact development practices: literature review and suggestions for future research, Water Air Soil Pollut., 2230 (2012) 4253–4273.
  41. H. Rujner, G. Leonhardt, J. Marsalek, M. Viklander, Highresolution modelling of the grass swale response to runoff inflows with Mike SHE, J. Hydrol., 562 (2018) 411–422.
  42. State of Hawaii Office of Planning, Coastal Zone Management Program, Hawaii Low Impact Development, A Practitioner’s Guide, Technical Report, 2006.
  43. Alaska Department of Environmental Conservation, Alaska Storm Water Guide, Division of Water, Anchorage, Alaska, Technical Manual, 2011.
  44. Arizona Department of Transportation, Erosion and Pollution Control Manual for Highway Design and Construction, Technical Manual, 2012.
  45. Las Vegas Valley Stormwater Quality Management Committee and Clark County regional Flood Control District, Las Vegas Valley Construction Site Best Management Practices Guidance Manual, Las Vegas, Nevada, Technical Manual, 2009.
  46. City and County of Honolulu, Department of Planning and Permitting, Storm Water BMP Guide for New and Redevelopment, Technical Report, 2017.
  47. New Mexico State Highway and Transportation Department, Drainage Manual Volume 1, Hydrology, Technical Manual, 1995.
  48. Utah Department of Transportation, UDOT Stormwater Quality Design Manual, Technical Manual, 2018.
  49. Prince George’s County, Design Manual for Use of Bioretention in Storm Water Management, PGC, Maryland, Department of Environmental Services, Technical Manual, 1993.
  50. State of Washington, Stormwater Management Manual for Western Washington, Department of Ecology, Technical Manual, 2012.
  51. State of Oregon, Department of Environmental Quality, Biofilters (Bioswales, Vegetative Buffers, & Constructed Wetlands) For Storm Water Discharge Pollution Removal: Guidance for using Bioswales, Vegetative Buffers, and Constructed Wetlands for Reducing, Minimizing, or Eliminating Pollutant Discharges to Surface Water, Technical Manual, 2003.
  52. California Stormwater Quality Association, Stormwater Best Management Practice Handbook: New Development and Redevelopment, Technical Manual, 2003.
  53. City of Austin, TX, Design Guidelines for Water Quality Control Basins, Public Works Department of Austin, Texas, Technical Manual, 1996.
  54. Idaho Department of Environmental Quality, Catalog of Stormwater Best Management Practices for Idaho Cities and Counties, Technical Manual, 2005.
  55. OpenFoam, Open FOAM The Open Source CFD Toolbox Programmer’s Guide, 2017.
  56. R. Gjesing, J. Hattel, U. Fritsching, Coupled atomization and spray modelling in the spray forming process using OpenFoam, Eng. Appl. Comput. Fluid Mech., 3 (2009) 471–486.
  57. H. Jasak, OpenFOAM: Open source CFD in research and industry, 10 Int. J. Naval Arch. Ocean Eng., 30 (2009) 89–94.
  58. P. Higuera, J.L. Lara, I.J. Losada, Three-dimensional interaction of waves and porous coastal structures using OpenFOAM Part I: Formulation and validation, Coastal Eng., 83 (2014) 243–258.
  59. Hawaii Department of Transportation, Plans for Kaneohe Water Shed Strom Water Best Management Practices on Oahu, Technical Report, Honolulu, Hawaii, 2014.
  60. C.W. Hirt, B.D. Nichols, Volume of fluid (VOF) method for the dynamics of free boundaries, J. Comput. Phys., 390 (1981) 201–225.
  61. J.U. Brackbill, D.B. Kothe, C. Zemach, A continuum method for modelling surface tension, J. Comput. Phys., 1000 (1992) 335–354.
  62. A. Bejan, Convection Heat Transfer, John Wiley & Sons Inc., Hoboken, New Jersey, 4th ed., 2013.
  63. Y. Haroun, D. Legendre, L. Raynal, Volume of fluid method for interfacial reactive mass transfer: application to stable liquid film, Chem. Eng. Sci., 650 (2010) 2896–2909.
  64. J. Schöberl, C++11 Implementation of Finite Elements in NGSolve, ASC Report, 2014.
  65. H.S. Harned, R.M. Hudson, The diffusion coefficient of zinc sulfate in dilute aqueous solution at 25°C, J. Am. Chem. Soc., 730 (1951) 3781–3783.
  66. S.F. Patil, A.V. Borhade, M. Nath, Diffusivity of some zinc and cobalt salts in water, J. Chem. Eng. Data, 380 (1993) 574–576.
  67. E. Smolders, F. Degryse, Fate and effect of zinc from tire debris in soil, Environ. Sci. Technol., 36 (2002) 3706–3710.
  68. R.D. Post, A.N. Beeby, Microbial biomass in suburban roadside soils: estimates based on extracted microbial C and ATP, Soil Biol. Biochem., 25 (1993) 199–204.
  69. R. Garcia, E. Millán, Assessment of Cd, Pb, and Zn contamination in roadside soils and grasses from Gipuzkoa (Spain), Chemosphere, 37 (1998) 1615–1625.
  70. P.K. Lee, J.C. Touray, Characteristics of polluted artificial soil located along a motorway and effects of acidification on the leaching behavior of heavy metals (Pb, Zn, Cd), Water Res., 32 (1998) 3425–3435.
  71. A.C. Norrstrom, G. Jacks, Concentration and fractionation of heavy metals in roadside soils receiving de-icing salts, Sci. Total Environ., 218 (1998) 161–174.
  72. C. Pagotto, N. Remy, M. Legret, P. Le Cloirec, Heavy metal pollution of road dust and roadside soil near a major rural highway, Environ. Technol., 22 (2001) 307–319.
  73. P. Murphy, N.B. Kaye, A.A. Khan, Hydraulic performance of aggregate beds with perforated pipe underdrains flowing full, J. Irrig. Drainage Eng., 140 (2014) 1–7.
  74. A.S. Kim, J.L. Irvine, interPhaseDiffusionFoam. 2018. Available at: https://github.com/enphysoft/interPhaseDiffusionFoam.