References
- Adane, Z.A., 2010 Jan 1. Estimated area of impervious parking surfaces and the potential groundwater recharge increase through permeable pavement retrofit in the Chino Basin.
- Alzamly, S.A., et al., 2022. Design and manufacturing of rainfall simulator machine for the soil erosion investigation. In: Karkush M.O. and Choudhury D., eds. Geotechnical engineering and sustainable construction (pp. 177–190) Singapore: Springer.
- ASTM C563-96, 1996 Jan 1. Standard Test Method for Optimum SO3 in Hydraulic Cement Using 24-h Compressive Strength.
- Brown, R.A., and Borst, M., 2014 Mar 1. Evaluation of surface infiltration testing procedures in permeable pavement systems. Journal of Environmental Engineering, 140 (3), 04014001.
- Chen, D.H., Wang, J.N., and Bilyeu, J., 2001. Application of dynamic cone penetrometer in evaluation of base and subgrade layers. Transportation Research Record: Journal of the Transportation Research Board, 1764 (1), 1–0.
- Ghisi, E., Belotto, T., and Thives, L.P., 2020 Jul 18. The use of permeable interlocking concrete pavement to filter stormwater for non-potable uses in buildings. Water, 12 (7), 2045.
- Hashim, TM., et al., 2022 Jun 9. An experimental comparison between different types of surface patterns of permeable interlocking concrete pavement for roadway subsurface drainage. Case Studies in Construction Materials, 9, e01227.
- Holmes, N., et al., 2016 Jul 1. Performance of masonry blocks containing different proportions of incinator bottom ash. Sustainable Materials and Technologies, 8, 14–19.
- Jiang, W., et al., 2015 Dec 15. Experimental study on filtration effect and mechanism of pavement runoff in permeable asphalt pavement. Construction and Building Materials, 100, 102–110.
- Kim, J., et al., 2014 Jan. Evaluation of recementation reactivity of recycled concrete aggregate fines. Transportation Research Record, 2401 (1), 44–51.
- Kumar, G.R., and Sharma, UK., 2014. Standard test methods for determination of abrasion resistance of concrete. International Journal of Civil Engineering Research, 5 (2), 155–162.
- Leipard, AR., Kevern, JT., and Richardson, JR., 2015. Hydraulic characterization and design of permeable interlocking concrete pavement. In: World environmental and water resources congress 2015: Floods, Droughts, and Ecosystems. American Society of Civil Engineers, 292–301. Austin, TX.
- Mendes, T.A., et al., 2021 Mar 11. Development of a rainfall and runoff simulator for performing hydrological and geotechnical tests. Sustainability, 13 (6), 3060.
- Mhaske, S.N., Pathak, K., and Basak, A., 2019 Jan 1. A comprehensive design of rainfall simulator for the assessment of soil erosion in the laboratory. Catena, 172, 408–420.
- Mo, L.T., et al., 2007 Feb 1. Investigation into stress states in porous asphalt concrete on the basis of FE-modelling. Finite Elements in Analysis and Design, 43 (4), 333–343.
- Park, D.G., et al., 2014 Mar. A case study: evaluation of water storage capacity in permeable block pavement. KSCE Journal of Civil Engineering, 18 (2), 514–520.
- Putman, B.J., and Neptune, AI., 2011 Aug 1. Comparison of test specimen preparation techniques for pervious concrete pavements. Construction and Building Materials, 25 (8), 3480–3485.
- Qin, Y., et al., 2018 Oct 20. A new water-retaining paver block for reducing runoff and cooling pavement. Journal of Cleaner Production, 199, 948–956.
- Rt, A.S.R., and Sunitha, V., 2021 Jul 19. Mechanical and structural performance evaluation of pervious interlocking paver blocks. Construction and Building Materials, 292, 123438.
- Sawant, V., et al. PERMEABLE INTERLOCKING CONCRETE PAVEMENT: A REVIEW.
- Scholz, M., and Grabowiecki, P., 2007 Nov 1. Review of permeable pavement systems. Building and Environment, 42 (11), 3830–3836.
- Shafique, M., Kim, R., and Kyung-Ho, K., 2018 Apr 18. Rainfall runoff mitigation by retrofitted permeable pavement in an urban area. Sustainability, 10 (4), 1231.
- Smith, D.R., 2019 Apr 1. Permeable interlocking concrete pavement [techbrief]. United States: Federal Highway Administration.Washington, DC 20590.
- Smith, D., Earley, K., and Lia, J., 2012. Potential application of ASTM C1701 for evaluating surface infiltration of permeable interlocking concrete pavements Pervious concrete.01 November 2012. Tampa, Florida. ASTM International. 97–105.
- Smith, DR., and Hein, D.K., 2013. Development of a national ASCE standard for permeable interlocking concrete pavement. In: Green streets, highways, and development 2013: advancing the practice. American Society of Civil Engineers, 89–105. Austin, Texas, United States.
- Yusuf, K.O., et al., 2015 Feb 2. Design and construction of a simple rainfall simulator from locally available materials. LAUTECH Journal of Engineering and Technology, 9 (1), 13–19.