Abstract
Waste management is the collection, transportation, processing or disposal, monitoring, and managing of waste materials. It tries to reduce the harmful environmental impact of each through different methods, which include but not limited to landfill, incineration, recycling, biological processing, and reduction methods. Generation, utilization and disposal of waste is increasingly becoming a significant problem in many cities of the world, with an exploding world population estimated to have a global doubling time now less than twenty years. This research focuses on energy recovery as a viable method of disposal of non-hazardous biomass components of municipal solid waste with a prototype waste kraft lignin material using the thermochemical liquefaction process. The process used high pressure, high temperature in the presence of kraft lignin, slurry solvent, and a suitable catalyst to produce a mixture of gases, liquid, and solid capable of been used as fuels and chemicals and providing an alternative to the other methods. This value-adding process serves a dual purpose of providing a source of energy and providing an alternative waste management method.
Highlights
The future stability and welfare of the world are closely linked to the number of its people
This study focuses on the energy recoverable from non-hazardous municipal solid waste as a viable method of waste disposal using the thermochemical liquefaction process
The biomass feed used in the study was a dark brown powdered Kraft lignin processed from straw was obtained from the Department of Biochemistry, University of Manchester, Institute of Science and Technology, Manchester M601QD, UK
Summary
The future stability and welfare of the world are closely linked to the number of its people. Until recently the knowledge of the total world population was rested on very unsecure foundation. It is possible to estimate the population of the world and conjecture its future. It is obvious that the world’s population is probably more than 4.5 billion with a global doubling time less than 30 years. Population growth rate is accelerating and today it is estimated to be about 2%annually. The process of urbanization with increasing population will create additional strains on the world energy supplies and increase the problems of waste disposal
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