Vol. 12 No. 02 (2022): Journal of Materials & Construcstions
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Tạp chí Vật liệu & Xây dựng - Bộ Xây dựng

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Research on porous concrete pavement construction for sustainable drainage

Hong Nguyen Thi , Ha Le Thanh

Keywords:

Pervious Concrete
Sustainable drainage
Porosity
Rainfall intensity
Permeability coefficien
Thickness of pavement structure

Abstract

The replacement of natural surface to artificial surface in urban areas has deprived the  water permeability and retention. It is the main cause of flooding, environmental pollution, reduction of groundwater for urban and increased urban heat island effect. Therefore, the application of sustainable drainage technical solutions including porous concrete pavement with the high permeability and water retention is essential. However, the current research topics on this issue in Vietnam maily focus on high porous density concrete slab when the water permeability and retention of porous concrete pavement also heavily depends on the subbase and the subgrade under that porous concrete slab. According to the issue the authors have mentioned above, this research has presented a design model of the entire porous concrete pavement construction that not only ensures the loadbearing strength but also ensures the high permeability and water retention. In addition, the authors have conducted testing on the field for porous concrete pavement which is light loadbearing (the load of transportation vehicle  ≤ 2,5 tons) to evaluate the drainage efficiency of the porous concrete pavement.

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How to Cite

Nguyen Thi, N. T., & Le Thanh, L. T. . (2022). Research on porous concrete pavement construction for sustainable drainage. Tạp Chí Vật liệu & Xây dựng - Bộ Xây dựng, 12(02), Trang 53 – Trang 63. https://doi.org/10.54772/jomc.02.2022.174

References

  1. . Qui chuẩn 01:2008/BXD, Qui chuẩn Xây dựng Việt Nam. NXB Xây dựng.
  2. . Quyết định 3230/QĐ-BGTVT ngày 14/12/2012 ban hành Quy định tạm thời về thiết kế mặt đường bê tông xi măng thông thường có khe nối trong xây dựng công trình giao thông.
  3. . TCVN 22TCN223-1995, Áo đường cứng đường ô tô - Tiêu chuẩn thiết kế. Bộ giao thông vận tải, 1995.
  4. . Civil Engineering Standard Specification, Korea.
  5. . Bruce k.Ferguson, Porous pavements. Integrative Studies in Water Management and Land Development, 2005.
  6. . Steve Wilson, Design & Construction of Concrete Block Permeable Pavements. Interpave, 2018.
  7. . CIRIA C698 London, Site Handbook for the Construction of SUDS, 2007.
  8. . David Butler and John W.Davies, Urban drainage. Spon Press.
  9. . ACI 522R-10, Report on Pervious Concrete. American Concrete Institute, 2010.
  10. . ASTM C1754/C1754M-12, Standard Test Method for Density and Void Content of Hardened Pervious Concrete.
  11. . TCVN 3118:1993: Tiêu chuẩn Việt Nam về bê tông nặng -Phương pháp xác định cường độ nén.
  12. . TCVN 3119:1993: Tiêu chuẩn Việt Nam về bê tông nặng -Phương pháp xác định cường độ chịu kéo khi uốn.
  13. . TCVN 5726:1993: Tiêu chuẩn Việt Nam về bê tông nặng -Phương pháp xác định cường độ lăng trụ và môđun đàn hồi khi nén tĩnh.
  14. . ASTM C1701/C1701M-17a, Standard Test Method for Infiltration rate of In Place Pervious Concrete.
  15. . TCVN 7957:2008: Tiêu chuẩn Việt Nam về Thoát nước - Mạng lưới và công trình bên ngoài.

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