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Future Sources of Organic Raw Materials: CHEMRAWN I is a collection of lectures presented at the World Conference on Future Sources of Organic Raw Materials, held in Toronto, Canada, on July 10-13, 1978. The conference focused on potential future sources of organic raw materials such as non-conventional fossil hydrocarbons, coal, industrial and agricultural wastes, and renewable resources like wood and other plant materials. This book is comprised of 52 chapters and opens with an assessment of the likely future availability of conventional oil and gas as they relate to possible demands for petrochemical feedstocks, paying particular attention to the availability and demand patterns for fossil hydrocarbons. The following chapters discuss the reserves and worldwide distribution of oil shale and tar sands; climate and its impact on renewable resources; research and management of natural resources; and production of chemicals directly from synthesis gas. Pyrolysis of solid carbonaceous materials is also considered, along with natural rubber production and biomass for non-food use. This monograph will be a useful resource for organic chemists and energy policymakers.
Set includes revised editions of some issues.
The biomass emphasis in on material of terrestrial plant origin, although principles are directly transferable to aquatic plants with similar components. Products of animal origin are not included. Since animal fats and oils are not considered, it seemed logical to exclude vegetable oils as well. Biomass emphasis is on material of terrestrial plant origin, although the principles are directly transferrable to aquatic plants with similar components.
Chemistry for the Future covers the proceedings of the 29th IUPAC Congress on the Chemistry for the Future, held in Cologne, Federal Republic of Germany on June 5-10, 1983. The contributors consider the advances in inorganic, organic, physical, and theoretical chemistry. This book is organized into seven parts encompassing 59 chapters that also look into the progress in the production of chemical basic materials and education in chemistry. The opening parts survey the advances in complexation chemistry, photoelectrochemical energy conversion, biotechnology, and some aspects of inorganic chemistry. The succeeding part deals with the reactions, synthesis, and structure and properties determination of various organic compounds. Other parts evaluate the application of molecular quantum mechanics, laser studies, electrochemical energy conversion, microemulsion, adsorption, and progress in the production of chemical basic materials. The remaining parts explore the teaching of molecular geometry by the VSEPR method, the role of experiments in teaching chemistry, chemistry as a basis for the life sciences. These parts also examine the flow of information chemistry through databases, IUPAC, and chemical information services. This book will prove useful to organic, inorganic, physical, and theoretical chemists
Nicolae Georgescu-Roegen (1906-1994) is considered today as perhaps the chief founder of the transdisciplinary field today known as Ecological Economics, but that he defined himself as Bioeconomics. In his later years Georgescu-Roegen intended to write a book of this title that would systematize what he considered to be the most significant results of his work. This project intends to resume this project, publishing a collection of the most relevant Georgescu-Roegen essays on Bioeconomics, including previously unpublished papers.
Wood and Agricultural Residues Research on Use for Feed, Fuels, and Chemicals covers the proceedings of the 1982 "Feed, Fuels, and Chemicals from Wood and Agricultural Residues symposium, held in Kansas City and sponsored by Cellulose, Paper, and Textile Division of the American Chemical Society. Organized into seven parts encompassing 31 chapters, the book discusses the plant cell wall; the cellulose, hemicelluloses, and lignin; the lignocellulosics for ruminants; the biological and thermochemical conversion; and the approached for utilization. The introductory part describes the anatomy, permeability, ultrastructure, and digestion of plant cell wall. The following section examines the structure, characteristics, derivatives, recycle and recovery through solvent systems, and utilization for enzyme and protein production of cellulose and hemicelluloses. This section also discusses the synthesis, structure, properties, and analysis of hydroxypropyl lignin derivatives. The third section characterizes the fibrous fractions of forages and presents traditional methods for qualitative and quantitative analyses of lignocellulosics. This text includes discussions on methods for improving utilization of unconventional feed sources by ruminants; the digestion impeding factors; and the effect of chemical, physical, and biological treatments in upgrading the digestibility and nutritive value of crop residues. The subsequent sections describe the biological, chemical, physical, and thermochemical conversion of wood fibers. Such methods include fermentation, acid and steam hydrolysis, saccharification, hydrogenolysis, and pyrolysis. The concluding section covers mechanical treatments to improve lignocelluloses properties, such as steam explosion and solvent systems. This book is an ideal source of information for botanists and feed scientists and researchers.