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Chemical Modification Of Lignin Into Advanced Materials, Soheil Hajirahimkhan
Chemical Modification Of Lignin Into Advanced Materials, Soheil Hajirahimkhan
Electronic Thesis and Dissertation Repository
Fossil fuel resources are being used today for most of humankind’s energy and chemical/material needs. The inevitable demise of these resources has created significant interest in the field of biomass and particularly, lignin valorization. As the world’s second most abundant polymer, more than 98% of the annually produced lignin is under-utilized either as an on-site heat source, or as landfill. Thus, finding practical approaches to modifying this inexpensive sustainable resource into materials of high value can be the next leap in lessening the dependence on fossil fuel resources and thus, developing a sustainable future.
In this thesis, kraft lignin is …
Formate Assisted Pyrolysis Of Lignin, Mayank S. Patel
Formate Assisted Pyrolysis Of Lignin, Mayank S. Patel
Electronic Theses and Dissertations
A significant fraction of global energy demand is met through nonrenewable petroleum feedstock, which increases the risk of energy security. The energy production from nonrenewable petroleum feedstocks is one of the large contributor to greenhouse gas emissions, which can cause climate change impacts. The energy security can be improved, and the greenhouse gas emissions can be reduced by deriving energy from domestically available renewable lignocellulosic feedstocks such as wood. Wood has three major components: cellulose, hemicellulose, and lignin. The cellulose is primarily used to produce pulp and paper. The hemicellulose is often utilized to produce a valueadded chemical like furfural. …
Lignin Conversion To Value-Added Products Via Heterogeneous Catalysts, Yu Gao
Lignin Conversion To Value-Added Products Via Heterogeneous Catalysts, Yu Gao
McKelvey School of Engineering Theses & Dissertations
Increasing world population has led to great demands for fuels, chemicals, and materials, and has raised concerns over the depletion of non-renewable resources and the environmental impacts of their processing and utilization. However, the biorefinery concept suggests lignocellulosic biomass can be used as an alternative resource for producing a range of fuels, chemicals and materials to fulfill these demands in a sustainable way. Hence, fermentation technologies are widely developed to efficiently utilize lignocellulosic carbohydrates. However, the non-carbohydrate fraction of biomass, lignin, is still considered as waste and is under-utilized as low-grade fuel, mainly for local heat and electricity production. Since …