MASTER'S THESIS

Slope Stability Analysis of Industrial Solid Waste Landfills

Andrews Omari Ravi kumar Boddula

Master of Science Civil Engineering

Luleå University of Technology Department of Civil, Environmental and Natural Resources Engineering

Slope stability analysis of industrial solid waste landfills

Andrews Omari Ravi Kumar Boddula

Master of Science Program Luleå University of Technology Department of Civil, Environmental and Natural Resources Engineering Division of Mining and

PREFACE We would like to express our sincerest gratitude and immeasurable appreciation to our supervisors Hans Mattsson and Lale Andreas for the unique opportunity to research in Geotechnical and Environmental fields. Special thanks to Lale Andreas for her time, patience and provision of samples for laboratory work. Without her continuous support and valuable guidance our thesis would not have been accomplished successfully.

Many thanks to Hans Mattsson for his technical support and for his relentless assistance in many ways. We cannot adequately express in words in these acknowledgements all the help he offered us. We would also like to convey special thanks to Thomas Forsberg for his pieces of advice and instructions given in the laboratory and how he helped us to get good results. Finally, we are grateful to our families and friends whose continuous encouragement and support was an unremitting source of inspiration for this work.

Luleå, may 2012 Andrews Omari, Ravi kumar Boddula

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ABSTRACT With increasing industrialization, the waste generated has also increased. Sweden generate great amount of industrial waste every year. In 2008, there were 97.9 million tons of waste generated, out of which 93 million tons were industrial waste. Mining waste made up the majority of the total waste amounting to more than 58 million tons of the waste generated in Sweden (Avfall Sverige, 2011). 64.1% of industrial wastes were deposited in the landfill sites (Jia, 2011).

According to Avfall Sverige (2011), 85 landfills were open as at 2009 in Sweden. A large number of these landfill sites take non-hazardous waste, while 21 of them accept hazardous waste. 5 of the sites are limited to inert waste. Landfills that are in the closure stage must be covered with a final cover. Together these landfills cover an estimated area of 25km2, and the estimated total cost for final covering of the sites is about 6 billion SEK. Approximately 6-8 million tons of material is used for the final covers of landfill sites every year. Because natural material is not always available, secondary construction materials is used instead.

Secondary construction materials for the final cover of a landfill is an attractive alternative for many landfill operators in order to reduce material cost and exploitation of non-renewable virgin construction materials such as and . Secondary construction materials that have been investigated and used in different final cover designs are ash, slag from steel making, sewage and fiber sludge, treated and compost (Travar et. al., 2005, Kim et. al., 2005, Andreas et. al., 2005, Tham et. al., 2003, Kumar et. al., 2003). However, companies and authorities do not know the uncertainty in terms of mechanical stability of these secondary construction materials used in the cover material.

Stability is a very significant part of the landfill design, especially in a multilayered final cover. Slope failure of landfill can occur during the construction of landfill, during filling or after closure of the landfill. Most landfill failures have occurred in slopes of waste, and also in interfaces between geosynthetic-geosynthetic and soil-geosynthetic materials. Landfill failures can have disastrous result including loss of life, damage to property, and po