Settlement model of waste soil for dumping area in Malaysia

This paper attempted to review previous works on the settlement models of waste soil prediction using constitutive model for open dumping. In Malaysia, open dumping was generally mistaken as landfill. The waste area could be categorized as landfill if the wastes are properly maintained with leachate...

Full description

Saved in:
Bibliographic Details
Main Authors: Pauzi N.I.M., Omar H., Huat B.K., Misran H.
Other Authors: 26536518100
Format: Article
Published: 2023
Subjects:
Tags: Add Tag
No Tags, Be the first to tag this record!
id my.uniten.dspace-30624
record_format dspace
spelling my.uniten.dspace-306242023-12-29T15:50:25Z Settlement model of waste soil for dumping area in Malaysia Pauzi N.I.M. Omar H. Huat B.K. Misran H. 26536518100 7006098814 35361794900 6506899840 Constitutive modeling Dumping area Landfill Malaysia Waste soil settlement model Malaysia Biodegradation Leachate treatment Leaching Refuse disposal Soil mechanics Soils Solid wastes Constitutive modeling Dumping area Empirical model Four-group Future trends Gas circulation Hazardous effects Leachates Malaysia Malaysians Municipal Solid Waste Research development Rheological models Settlement models Waste soil settlement model Waste soils biodegradation constitutive equation ground settlement landfill municipal solid waste reclaimed land rheology soil mechanics Geologic models This paper attempted to review previous works on the settlement models of waste soil prediction using constitutive model for open dumping. In Malaysia, open dumping was generally mistaken as landfill. The waste area could be categorized as landfill if the wastes are properly maintained with leachate and gas circulations. The debate of this issue has become the main reason in studying the settlement model of open dumping. The settlement of soil in open dumping could pose serious hazardous effect to human and environment if the areas are to be reclaimed for other construction purposes. Thus, this study is considered a very important subject to be developed. There are four groups of published settlement models of municipal solid waste namely soil mechanic based model, empirical model, rheological model and settlement models which incorporated biodegradation. These models are reviewed and analyzed so as to decide which model is the best suited to be used for open dumping waste in Malaysian scenario. The future trends of this research development could also be predicted based on this paper. � 2010 ejge. Final 2023-12-29T07:50:25Z 2023-12-29T07:50:25Z 2010 Article 2-s2.0-79251592552 https://www.scopus.com/inward/record.uri?eid=2-s2.0-79251592552&partnerID=40&md5=4dbb4099f28db348bddedb7b0991224e https://irepository.uniten.edu.my/handle/123456789/30624 15 R 1917 1929 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Constitutive modeling
Dumping area
Landfill
Malaysia
Waste soil settlement model
Malaysia
Biodegradation
Leachate treatment
Leaching
Refuse disposal
Soil mechanics
Soils
Solid wastes
Constitutive modeling
Dumping area
Empirical model
Four-group
Future trends
Gas circulation
Hazardous effects
Leachates
Malaysia
Malaysians
Municipal Solid Waste
Research development
Rheological models
Settlement models
Waste soil settlement model
Waste soils
biodegradation
constitutive equation
ground settlement
landfill
municipal solid waste
reclaimed land
rheology
soil mechanics
Geologic models
spellingShingle Constitutive modeling
Dumping area
Landfill
Malaysia
Waste soil settlement model
Malaysia
Biodegradation
Leachate treatment
Leaching
Refuse disposal
Soil mechanics
Soils
Solid wastes
Constitutive modeling
Dumping area
Empirical model
Four-group
Future trends
Gas circulation
Hazardous effects
Leachates
Malaysia
Malaysians
Municipal Solid Waste
Research development
Rheological models
Settlement models
Waste soil settlement model
Waste soils
biodegradation
constitutive equation
ground settlement
landfill
municipal solid waste
reclaimed land
rheology
soil mechanics
Geologic models
Pauzi N.I.M.
Omar H.
Huat B.K.
Misran H.
Settlement model of waste soil for dumping area in Malaysia
description This paper attempted to review previous works on the settlement models of waste soil prediction using constitutive model for open dumping. In Malaysia, open dumping was generally mistaken as landfill. The waste area could be categorized as landfill if the wastes are properly maintained with leachate and gas circulations. The debate of this issue has become the main reason in studying the settlement model of open dumping. The settlement of soil in open dumping could pose serious hazardous effect to human and environment if the areas are to be reclaimed for other construction purposes. Thus, this study is considered a very important subject to be developed. There are four groups of published settlement models of municipal solid waste namely soil mechanic based model, empirical model, rheological model and settlement models which incorporated biodegradation. These models are reviewed and analyzed so as to decide which model is the best suited to be used for open dumping waste in Malaysian scenario. The future trends of this research development could also be predicted based on this paper. � 2010 ejge.
author2 26536518100
author_facet 26536518100
Pauzi N.I.M.
Omar H.
Huat B.K.
Misran H.
format Article
author Pauzi N.I.M.
Omar H.
Huat B.K.
Misran H.
author_sort Pauzi N.I.M.
title Settlement model of waste soil for dumping area in Malaysia
title_short Settlement model of waste soil for dumping area in Malaysia
title_full Settlement model of waste soil for dumping area in Malaysia
title_fullStr Settlement model of waste soil for dumping area in Malaysia
title_full_unstemmed Settlement model of waste soil for dumping area in Malaysia
title_sort settlement model of waste soil for dumping area in malaysia
publishDate 2023
_version_ 1806426518852730880
score 13.222552