State-of-the-Art Review on Application of Spray-Applied Pipe Linings in Gravity Stormwater Conveyance Conduits
Publication: Journal of Pipeline Systems Engineering and Practice
Volume 13, Issue 3
Abstract
Gravity stormwater conveyance conduits are in need of special attention in terms of proactive/preventive asset management and rehabilitation/renewal strategies. Failure of these systems is costly for departments of transportation, both directly due to the replacement of the failed system and indirectly due to the time and money, and even in some cases lives lost, for the users of the highway. Different studies show that design and implementation of culvert renewal and rehabilitation methods are complex due to the depth of soil cover, traffic loads, type of embedment, culvert material, age, level of deterioration, access limitations, and so on. Spray-applied pipe linings (SAPLs) are used to renew deteriorated culverts and drainage structures for semistructural and structural applications. SAPLs consist of spraying cementitious or polymer (resin-based) materials inside a host culvert. Geopolymer and cementitious materials are categorized under cementitious SAPL, and polyurea, polyurethane, and epoxy are types of resins that are used in polymeric SAPL. The objective of this work is to present a literature review on progress acquired over the years in understanding the application of SAPLs in gravity stormwater conveyance conduits. This literature review comprises not only design methodologies and equations, but also covers methods and means for performance specifications and installations in rehabilitation and renewal of different types of SAPLs, such as invert paving, hand spraying, machine spraying, and others. Publications are identified that directly or indirectly reported the application of SAPLs in gravity stormwater conveyance conduits over the period from 1982 through 2021. Experimental and numerical literature was categorized into SAPL materials, structural behavior, soil–structure interaction, durability, and surface friction to be identified for flow capacity improvement. This literature review defines and categorizes the SAPL materials for structural and semistructural applications and suggests whether SAPLs can renew deteriorated culvert pipes in each of these conditions. Further research is needed to identify the behavior of different SAPL materials and their soil/host culvert structure interactions. Parts of the important gaps in knowledge are the impact of adhesion to the host culvert and the statistical percentile occurring this adhesion.
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Data Availability Statement
No data, models, or code were generated or used during the study.
References
AASHTO. 2017. AASHTO LRFD bridge design specifications. 8th ed. Washington, DC: AASHTO.
ASCE. 2007. Emerging concepts for the design of pipeline renewal systems. Reston, VA: ASCE.
ASCE. 2010. “Trenchless renewal of culverts and storm sewers.” In The pipeline infrastructure committee. Reston, VA: ASCE.
ASTM. 2016. Standard practice for rehabilitation of existing pipelines and conduits by the inversion and curing of a resin-impregnated tube. West Conshohocken, PA: ASTM.
Bian, X., X. Tang, W. Shen, D. Ling, and Y. Chen. 2012. “An experimental study on a culvert buried in granular soil subjected to vehicle loads.” J. Adv. Struct. Eng. 15 (6): 1031–1040. https://doi.org/10.1260/1369-4332.15.6.1031.
Davidson, S. J., J. Kang, K. V. Uday, P. Brian, and T. Balaji. 2008. “PVA fiber reinforced shotcrete for rehabilitation and preventative maintenance of aging culverts.” Accessed April 24, 2018. https://rosap.ntl.bts.gov/view/dot/17333.
FHWA (Federal Highway Administration). 2012. Hydraulic design of highway culverts. Washington, DC: FHWA.
FHWA (Federal Highway Administration) for FLH (Federal Land Highway). 2010. Culvert assessment and decision-making procedures manual. Washington, DC: FHWA.
Jenkins, D., and L. Drake. 2017. “Corrugated steel culvert lining systems—Innovative analysis and design methods.” In Proc., 10th Austroads Bridge Conf. Reston, VA: ASCE.
Kampbell, E. 2016. Lining large pipes with the new generation of cementitious lining materials. Reston, VA: ASCE.
Masada, T., J. Hurd, and A. Q. Fekrat. 2017. Structural benefits of concrete paving of steel culvert inverts. FHWA/OH-2017-21. Washington, DC: Federal Highway Administration.
Matthews, J. C., W. Condit, S. Vaidya, and R. Stowe. 2014. Performance evaluation of an innovative fiber reinforced geopolymer spray-applied mortar for large diameter wastewater main rehabilitation in Houston, Texas. Cincinnati: Environmental Protection Agency.
Moore, I. D., and B. D. García. 2013. “Measured response of two deteriorated metal culverts repaired with sprayed cementitious liners.” In Report on performance of the GeoSpray liner system for the 407 ETR. Reston, VA: ASCE.
Moore, I. D., and B. D. García. 2015. “Ultimate strength testing of two deteriorated metal culverts repaired with spray-on cementitious liners.” Transp. Res. Rec. 2522 (1): 139–147. https://doi.org/10.3141/2522-14.
Moore, R. G., P. R. Bedell, and I. D. Moore. 1995. “Design and implementation of repairs to corrugated steel plate culverts.” J. Perform. Constr. Facil. 9 (2): 103–116. https://doi.org/10.1061/(ASCE)0887-3828(1995)9:2(103).
Najafi, M. 2013. Trenchless technology: Planning, equipment, and methods. New York: McGraw-Hill.
Najafi, M. 2016. Pipeline infrastructure renewal and asset management. New York: McGraw-Hill.
Najafi, M., and L. Osborn. 2008. “Trenchless renewal of culverts and storm sewers.” In Proc., ASCE Int. Pipelines Conf. 2008. Reston, VA: ASCE.
Najafi, M., S. Salem, D. Bhattachar, B. Salman, and R. Patil. 2008. An asset management approach for drainage infrastructure and culverts. Madison, WI: Midwest Regional University Transportation Center.
NCHRP (National Cooperative Highway Research Program). 2002. “Assessment and rehabilitation of existing culverts.” In A synthesis of highway practice. Washington, DC: NCHRP.
NCHRP (National Cooperative Highway Research Program). 2018. The renewal of stormwater systems using trenchless technologies. Washington, DC: NCHRP.
ODOT (Ohio Department of Transportation). 2017. “Culvert management manual.” Accessed April 24, 2018. http://www.dot.state.oh.us/Divisions/Engineering/Hydraulics/Culvert%20Management/Culvert%20Management%20Manual/Culvert%20Management%20Manual%20October%202017%2011-9-17.pdf.
ODOT (Ohio Department of Transportation). 2021. Structural design methodology for spray applied pipe liners in gravity storm water conveyance conduits. Columbus, OH: ODOT.
Royer, J. R., and E. Allouche. 2016. Laboratory testing and analysis of geopolymer pipe-lining technology for rehabilitation of sewer & stormwater conduits. Dallas: North American Society for Trenchless Technology.
Royer, J. R., and T. Iseley. 2017. Laboratory testing and analysis of geopolymer pipe-lining technology for rehabilitation of sewer & storm water conduits, part II—CMP culvert analysis. Washington, DC: North American Society for Trenchless Technology.
Sargand, S., I. Khoury, B. Jordan, and H. Hussein. 2015. Ultimate load capacity of corrugated steel pipe with extreme corrosion. Columbus, OH: Ohio Dept. of Transportation.
Selvakumar, A., J. C. Matthews, and W. Condit. 2014. Demonstration of an innovative large diameter sewer rehabilitation technology in Houston, Texas. Washington, DC: North American Society for Trenchless Technology.
Serajiantehrani, R., M. Najafi, V. Kaushal, and M. M. Mohammadi. 2020. “Environmental impact assessment of trenchless spray-applied pipe linings (SAPLs) renewal method in culverts and drainage structures.” In Proc., World Environmental and Water Resources Congress 2020: Water, Wastewater, and Stormwater and Water Desalination and Reuse, 237–249. Reston, VA: ASCE.
Szafran, J., and A. Matusiak. 2017. “Structural behavior and compressive strength of concrete rings strengthened with a polyuria coating system.” Accessed April 24, 2018. https://www.researchgate.net/publication/321484765_Structural_behaviour_and_compressive_strength_of_concrete_rings_strengthened_with_a_polyurea_coating_system.
Tetreault, J., N. A. Hoult, and I. D. Moore. 2018. “Pre- and post-rehabilitation behavior of a deteriorated horizontal ellipse culvert.” Can. Geotech. J. 55 (3): 329. https://doi.org/10.1139/cgj-2017-0084.
Wagener, B. D., and E. E. Leagjeld. 2014. Culvert repair best practices, specifications and special provisions—Best practices guidelines. St. Paul, MN: Minnesota Dept. of Transportation.
Watkins, R. K., R. C. Reeve, and J. B. Goddard. 1982. Effect of heavy loads on buried corrugated polyethylene pipe. Columbus, OH: Advanced Drainage Systems.
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Journal of Pipeline Systems Engineering and Practice
Volume 13 • Issue 3 • August 2022
Copyright
© 2022 American Society of Civil Engineers.
History
Published online: Mar 26, 2022
Published in print: Aug 1, 2022
Discussion open until: Aug 26, 2022
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