Strength of Chemically Stabilized Sewage Sludge—Some Inferences from Recent Studies
Although there has been a substantial body of research on the chemical stabilization of sewage sludge, most of these results are project-specific and relate mainly to the use of new binders and sewage sludge from specific sources. In this sense, much of the work to date is context-specific. At prese...
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MDPI AG
2021-12-01
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Online Access: | https://www.mdpi.com/2673-7094/1/2/26 |
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author | Sin Mei Lim Linqiao He Siang Huat Goh Fook Hou Lee |
author_facet | Sin Mei Lim Linqiao He Siang Huat Goh Fook Hou Lee |
author_sort | Sin Mei Lim |
collection | DOAJ |
description | Although there has been a substantial body of research on the chemical stabilization of sewage sludge, most of these results are project-specific and relate mainly to the use of new binders and sewage sludge from specific sources. In this sense, much of the work to date is context-specific. At present, there is still no general framework for estimating the strength of the chemically treated sludge. This paper proposes one such general framework, based on data from some recent studies. An in-depth re-interpretation of the data is first conducted, leading to the observation that sludge, which has coarse, hard particulate inclusions, such as sand, premixed into it, gives significantly higher strength. This was attributed to the hard coarse particles that lower the void ratio of treated soil, are much less susceptible to volume collapse under pressure, and contribute to the strength through frictional contacts and interlocking. This motivates the postulation of a general framework, based on the premise that coarse, hard particulate inclusions in the sludge which do not react with the binders can nonetheless contribute to the strength of the treated soil. The overall void ratio, defined as the volume of voids in the cementitious matrix normalised by the overall volume, is proposed as a parameter for quantifying the combined effect of the coarse particulate inclusions and the cementitious matrix. The binder-sludge ratio is another parameter which quantifies the strength of the cementitious matrix, excluding the hard particulate inclusions. Back-analysis of the data suggests that the significance of the binder-sludge ratio may diminish as the content of hard particulate inclusions increases. |
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issn | 2673-7094 |
language | English |
last_indexed | 2024-03-09T21:51:12Z |
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spelling | doaj.art-bdcf579d77dd4f27ac15cca1a1438af72023-11-23T20:07:17ZengMDPI AGGeotechnics2673-70942021-12-011257358710.3390/geotechnics1020026Strength of Chemically Stabilized Sewage Sludge—Some Inferences from Recent StudiesSin Mei Lim0Linqiao He1Siang Huat Goh2Fook Hou Lee3Department of Civil and Environmental Engineering, National University of Singapore, Singapore 117576, SingaporeDepartment of Civil and Environmental Engineering, National University of Singapore, Singapore 117576, SingaporeDepartment of Civil and Environmental Engineering, National University of Singapore, Singapore 117576, SingaporeDepartment of Civil and Environmental Engineering, National University of Singapore, Singapore 117576, SingaporeAlthough there has been a substantial body of research on the chemical stabilization of sewage sludge, most of these results are project-specific and relate mainly to the use of new binders and sewage sludge from specific sources. In this sense, much of the work to date is context-specific. At present, there is still no general framework for estimating the strength of the chemically treated sludge. This paper proposes one such general framework, based on data from some recent studies. An in-depth re-interpretation of the data is first conducted, leading to the observation that sludge, which has coarse, hard particulate inclusions, such as sand, premixed into it, gives significantly higher strength. This was attributed to the hard coarse particles that lower the void ratio of treated soil, are much less susceptible to volume collapse under pressure, and contribute to the strength through frictional contacts and interlocking. This motivates the postulation of a general framework, based on the premise that coarse, hard particulate inclusions in the sludge which do not react with the binders can nonetheless contribute to the strength of the treated soil. The overall void ratio, defined as the volume of voids in the cementitious matrix normalised by the overall volume, is proposed as a parameter for quantifying the combined effect of the coarse particulate inclusions and the cementitious matrix. The binder-sludge ratio is another parameter which quantifies the strength of the cementitious matrix, excluding the hard particulate inclusions. Back-analysis of the data suggests that the significance of the binder-sludge ratio may diminish as the content of hard particulate inclusions increases.https://www.mdpi.com/2673-7094/1/2/26sewage sludgestabilizationunconfined compressive strengthvoid ratio |
spellingShingle | Sin Mei Lim Linqiao He Siang Huat Goh Fook Hou Lee Strength of Chemically Stabilized Sewage Sludge—Some Inferences from Recent Studies Geotechnics sewage sludge stabilization unconfined compressive strength void ratio |
title | Strength of Chemically Stabilized Sewage Sludge—Some Inferences from Recent Studies |
title_full | Strength of Chemically Stabilized Sewage Sludge—Some Inferences from Recent Studies |
title_fullStr | Strength of Chemically Stabilized Sewage Sludge—Some Inferences from Recent Studies |
title_full_unstemmed | Strength of Chemically Stabilized Sewage Sludge—Some Inferences from Recent Studies |
title_short | Strength of Chemically Stabilized Sewage Sludge—Some Inferences from Recent Studies |
title_sort | strength of chemically stabilized sewage sludge some inferences from recent studies |
topic | sewage sludge stabilization unconfined compressive strength void ratio |
url | https://www.mdpi.com/2673-7094/1/2/26 |
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