Download Free The Industrial Chemist And Chemical Manufacturer Book in PDF and EPUB Free Download. You can read online The Industrial Chemist And Chemical Manufacturer and write the review.

As chemical companies strive to be more competitive in the world economy, it is essential that their employees, including sales and marketing personnel, as well as administrative support groups understand the basic concepts of the science upon which the industry is based. The authors, who have over 100 years of combined experience in the chemical i
Background This book provides an introduction to the main sectors of the chemical industry, and complements An Introduction to Industrial Chemistry (sub sequently referred to as Volume I) which covers the physico-chemical principles of the subject, as well as introductory technical economics and chemical engineering. Processes considered include the large-scale production of polymers (up to 1000 tonnes per day for a single plant); the chlor-alkali, nitrogen, sulphur and phosphorus industries; and the production, on a smaller scale, of dyestuffs, pharmaceuticals and agrochemicals. The rapidly developing area of biotech nology is dealt with under biological catalysis. The consequences of scale of operation are also highlighted in Chapter 7. Each chapter includes common themes, such as brief history, present position, major products and the future. The final chapter links together the predictions made for the future of each sector, to give an overall projection for the whole chemical industry; the quadrupling of oil prices in 1974 and the widespread recession at the beginning of the 1980s provide a salutary lesson about the difficulty of such projections.
Heinrich Caro (1834-1910) was the inventor of new chemical processes that in the two decades commencing in 1869 enabled BASF of Ludwigshafen, Germany, to take first place among manufacturers of synthetic dyestuffs. The cornerstones of Caro's success were his early training as calico (cotton) printer in Germany, and his employment at a chemical firm in Manchester, England. Caro was a creative research chemist, a highly knowledgeable patent specialist and expert witness, and a brilliant manager of science-based chemical technology. This first full-length scientific biography of Heinrich Caro delineates his role in the emergence of the industrial research laboratory, the forging of links between academic and industrial chemistry, and the development of modern patent law. Major chemical topics include the rise of classical organic chemistry, collaboration with Adolf Baeyer, artificial alizarin and indigo, aniline dyes, and other coal-tar products, particularly intermediates.
Survey of Industrial Chemistry arose from a need for a basic text dealing with industrial chemistry for use in a one semester, three-credit senior level course taught at the University of Wisconsin-Eau Claire. This edition covers all important areas of the chemical industry, yet it is reasonable that it can be covered in 40 hours of lecture. Also an excellent resource and reference for persons working in the chemical and related industries, it has sections on all important technologies used by these industries: a one-step source to answer most questions on practical, applied chemistry. Young scientists and engineers just entering the workforce will find it especially useful as a readily available handbook to prepare them for a type of chemistry quite different than they have seen in their traditional coursework, whether graduate or undergraduate.
Written to help the student chemist clarify the career areas and technical problems which are to be considered when chemical reactions are carried out on a large scale. Covers the research and development of consumer products based on chemical processes. Topics covered include the chemical industry and large-scale chemical manufacturing, inorganic and fermentation processes, the conversion of petroleum into purified chemical substances, and the environmental impact of these and other processes.
The importance of industrial chemistry Chemistry is a challenging and interesting subject for academic study. Its principles and ideas are used to produce the chemicals from which all manner of materials and eventually consumer products are manufactured. The diversity of examples is enormous, ranging from cement to iron and steel, and on to modern plastics which are so widely used in the packaging of consumer goods and in the manufacture of household items. Indeed life as we know it today could not exist without the chemical industry. Its contribution to the saving of lives and relief of suffering is immeasurable; synthetic drugs such as those which lower blood pressure (e. g. /3-blockers), attack bacterial and viral infections (e. g. antibiotics such as the penicillins and cephalosporins) and replace vital natural chemicals which the body is not producing due to some malfunction (e. g. insulin, some vitamins), are particularly noteworthy in this respect. Effect chemicals also clearly make an impact on our everyday lives. Two examples are the use of polytetrafluoroethylene (polytetrafluoroethene Teflon or Fluon) to provide a non-stick surface coating for cooking utensils, and silicones which are used to ease the discharge of bread from baking tins. It should also be noted that the chemical industry's activities have an influence on all other industries, either in terms of providing raw materials or chemicals for quality control analyses and to improve operation, and to treat boiler water, cooling water and effiuents.