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Text A. Chemical engineering

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PRE-READING TASK

1. Why do you think this direction is so important for chemistry?

2. What is the reason why the major part of scientists is involved in chemical engineering?

Chemical engineering is the branch of engineering that deals with physical science (e.g., chemistry and physics) and life sciences (e.g., biology, microbiology and biochemistry), with mathematics and economics in the process of converting raw materials or chemicals into more useful or valuable forms. In addition, modern chemical engineers are also concerned with pioneering valuable new materials and related techniques – which are often essential to related fields such as nanotechnology, fuel cells and biomedical engineering.

The term “chemical engineer” appeared in print in 1839, though from the context it suggests a person with mechanical engineering knowledge working in the chemical industry. In 1880, George E. Davis wrote in a letter to Chemical News stating that 'A Chemical Engineer is a person who possesses chemical and mechanical knowledge, and who applies that knowledge to the utilization, on a manufacturing scale, of chemical action.' He proposed the name Society of Chemical Engineers, for what was in fact constituted as the Society of Chemical Industry.

In 1905 a publication called The Chemical Engineer was founded in the USA, and in 1908 the American Institute of Chemical Engineers was established. In 1924 the Institution of Chemical Engineers adopted the following definition 'A chemical engineer is a professional man experienced in the design, construction and operation of plant and works in which matter undergoes a change of state and composition.' (The first female member joined in 1942.)

As it can be seen from the later definition, the occupation is not limited to the chemical industry, but more generally the process industries, or other situations in which complex physical and/or chemical processes are to be managed.

Chemical engineering emerged upon the development of unit operations, a fundamental concept of the discipline. Most authors agree that Davis invented unit operations if not substantially developed it. He gave a series of lectures on unit operations at the Manchester Technical School (University of Manchester today) in 1887, considered to be one of the earliest such about chemical engineering. Three years before Davis' lectures, Henry Edward Armstrong taught a degree course in chemical engineering at the City and Guilds of London Institute. Armstrong's course "failed simply because its graduates... were not especially attractive to employers." Employers of the time would have rather hired chemists and mechanical engineers. Courses in chemical engineering offered by Massachusetts Institute of Technology (MIT) in the United States, Owen's College in Manchester, England and University College London suffered under similar circumstances.

Starting from 1888 Lewis M. Norton taught at MIT the first chemical engineering course in the United States. Norton's course was contemporaneous and essentially similar with Armstrong's course. Both courses, however, simply merged chemistry and engineering subjects. Unit operations were introduced into the course by William Hultz Walker in 1905. By the early 1920s, unit operations became an important aspect of chemical engineering at MIT and other US universities, as well as at Imperial College London. The American Institute of Chemical Engineers (AIChE) was established in 1908, chemical engineering becoming an independent science and unit operations being central to chemical engineering. Meanwhile, promoting chemical engineering as a distinct science in Britain led to the establishment of the Institution of Chemical Engineers (IChemE) in 1922. IChemE likewise helped make unit operations considered essential to the discipline.

But later on, it became clear that unit operations alone were insufficient. Further developments of science gave an analytical approach to chemical engineering. Advancements in chemical engineering before and after World War II were mainly incited by the petrochemical industry, advances in other fields being made as well. Achievements in biochemical engineering in the 1940s, for example, found application in the pharmaceutical industry and allowed for the mass production of various antibiotics, including penicillin and streptomycin. Meanwhile, progress in polymer science in the 1950s paved way for the "age of plastics".


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Читайте в этой же книге: GRAMMAR FOCUS | ABSOLUTE PARTICIPIAL CONSTRUCTION | TEXT B. PHARMACEUTICAL CHEMISTRY | WHAT DO PHARMACEUTICAL CHEMISTS DO? | TEST C. ECOLOGICAL CHEMISTRY | WHAT DO ENVIRONMENTAL CHEMISTS DO? |
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