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2025 | OriginalPaper | Chapter

Leaching Led Deterioration of Concrete Service Reservoirs and Service Life Prediction

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Abstract

Service reservoirs are an integral part of the potable water distribution network and concrete is the preferred material of choice. Deterioration of concrete in service reservoirs is a lesser-known problem. The symptoms are surface deposition of minerals requiring constant cleaning between operations. Debonding and dislodging of aggregates affecting the operation, gradual reduction of the cross-section of the concrete wall and rebar corrosion in reinforced segments. Calcium compounds that dominate the hydrated cement and thus concrete microstructure will be leached away to the potable water which is low in calcium. Data from over 20 reservoir investigations confirm leaching as the dominant mechanism. The damage was evident in petrographic investigations, from which a depth of leaching was determined. Rate of leaching was defined as depth of leaching/years of service. The rate of leaching and NDT score (a unitless entity) shows no relationship when data from all structures are brought together. The lack of relationship is due to many reasons including differences in initial permeability of concrete, quality of water (pH), rate of flow of water and variable maintenance programmes. For example, half of the structures reported leaching depth > 10 mm, for a life span of 30–90 years. Equally, structures that have been in service for 60–70 years, recorded a leaching depth below 10 mm. The NDT data presented in the form of augmented reality and also the rate of leaching allows asset managers to take informed decisions for managing the assets. Future work should focus on quantifying the water quality among other key parameters.

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Literature
2.
go back to reference Moser, R.D., Gore, E.R.: An Investigation of Concrete Deterioration at South Florida Water Management District Structure S65E, p. 28. US Army Engineer Research and Development Center, Vicksburg, (2014) Moser, R.D., Gore, E.R.: An Investigation of Concrete Deterioration at South Florida Water Management District Structure S65E, p. 28. US Army Engineer Research and Development Center, Vicksburg, (2014)
3.
go back to reference Cheng, A., Chao, S.J., Lin, W.T.: Effects of Leaching Behavior of Calcium Ions on Compression and Durability of Cement-Based Materials with Mineral Admixtures. MDPE Materials (2013) Cheng, A., Chao, S.J., Lin, W.T.: Effects of Leaching Behavior of Calcium Ions on Compression and Durability of Cement-Based Materials with Mineral Admixtures. MDPE Materials (2013)
6.
go back to reference Ekström, T.: Leaching of concrete: experiments and modelling. Licentiate thesis. Division of Building Materials. Division of Building Materials, LTH, Lund University (2001) Ekström, T.: Leaching of concrete: experiments and modelling. Licentiate thesis. Division of Building Materials. Division of Building Materials, LTH, Lund University (2001)
Metadata
Title
Leaching Led Deterioration of Concrete Service Reservoirs and Service Life Prediction
Authors
Sree Nanukuttan
Neil Campbell
Copyright Year
2025
DOI
https://doi.org/10.1007/978-3-031-75507-1_47