Britain industry

P. Bain (1997) Human Resource Malpractice The Deregulation of Health and Safety at Work m the USA and Britain, Industrial Relations Journal, 2813 176-191. 

On the industrial scale it is produced in large quantities for the manufacture of sulphuric acid and the production methods are dealt with later. It was once estimated that more than 4 000 000 tons of sulphur dioxide a year entered the atmosphere of Britain from the burning of coal and oil. 

With the beginning of the industrial revolution around 1800, oil became increasingly important for lubrication and better illumination. Expensive vegetable oils were replaced by sperm whale oil [8002-24-2], which soon became scarce and its price skyrocketed. In 1850 lubrication oil was extracted from coal and oil shale (qv) in England, and ultimately about 130 plants in Great Britain and 64 plants in Pennsylvania, West Virginia, and Kentucky employed this process. 

Imperial Chemical Industries in Great Britain hydrogenated coal to produce gasoline until the start of World War II. The process then operated on creosote middle oil until 1958. As of this writing none of these plants is being used to make Hquid fuels for economic reasons. The present prices of coal and hydrogen from coal have not made synthetic Hquid fuels competitive. Exceptions are those cases, as in South Africa, where there is availabiHty of cheap coal, and fuel Hquids are very important. 

Smoke and ash abatement in Great Britain was considered to be a health agency responsibility and was so confirmed by the first Public Health Act of 1848 and the later ones of 1866 and 1875. Air pollution from the emerging chemical industry was considered a separate matter and was made the responsibility of the Alkali Inspectorate created by the Alkali Act of 1863. 

Other examples of trends come from Great Britain, where the emission of industrial smoke was reduced from 1.4 million tonnes per year in 1953 to 0.1 million tonnes per year in 1972 domestic smoke emission was reduced from 1.35 million tonnes per year in 1953 to 0.58 million tonnes per year in 1972 and the number of London fogs (smogs) capable of reducing visibility at 9 AM to less than 1 km was reduced from 59 per year in 1946 to 5 per year in 1976. 

The first commercially available acetal resin was marketed by Du Pont in 1959 under the trade name Delrin after the equivalent of ten million pounds had been spent in research or polymers of formaldehyde. The Du Pont monopoly was unusually short lived as Celcon, as acetal copolymer produced by the Celanese Corporation, became available in small quantities in 1960. This material became commercially available in 1962 and later in the same year Farbwerke Hoechst combined with Celanese to produce similar products in Germany (Hostaform). In 1963 Celanese also combined with the Dainippon Celluloid Company of Osaka, Japan and Imperial Chemical Industries to produce acetal copolymers in Japan and Britain respectively under the trade names Duracon and Alkon (later changed to Kematal). In the early 1970s Ultraform GmbH (a joint venture of BASF and Degussa) introduced a copolymer under the name Ultraform and the Japanese company Asahi Chemical a homopolymer under the name Tenal. 

The toughness and transparency of polycarbonates has also led to a number of other industrial applications. In Great Britain one of the first established uses was for compressed air lubricator bowls. In the first five years of commercial... 

Chemical Industry - has risks comparable to or possibly greater then those of the nuclear power industry, but no risk studies of chemical plants in the U.S. have been published. Great Britain, on the other hand, has been active in this area, e.g., the Canvey Island Study (Section 11.4.1 and Green, 1982). 

Sadi Carnot has been called the founder of the science of thermodynamics, In 1824, when he was twenty-eight, he first became interested in steam engines. All that time. Great Britain led the world m the design and improvement of such engines for industrial purposes. Always the French patriot, Carnot wanted his counti y to surpass the British, who had spawned the Industrial Revolution. He thought... 

Throughout the industrialized world over the past two centuries, coal became relied upon as an energy source for industrial processes and for residential heat. In the United States, all the coal consumed before the year 1800—much of it imported from Britain—amounted to only 108,000 tons, which is one ten-thousandth of current annual U.S. production. Until 1840, wood exceeded coal as an energy source. However, coal then began a slow, steady expansion in usage, and, for over a century, until 1951, it was the chief energy source in the United States, contributing in the area of transportation (railroads) as well as the earlier, familiar sectors of industrial processes and residential heat. 

A major element of energy policy in leading industrial countries such as the United States, Germany, Britain, Japan, and France has been provision of substantial aid to existing energy industries. Part of the... 

Programs were instituted to preserve coal production in Western Europe and Japan. Every involved country (Britain, Germany, France, Spain, Belgium, and Japan) transferred taxpayers money to the coal industry. The programs started in the period between the end of World War II and the resurgence of the oil supply in the late 1950s. 

The first commercially successful pneumatic tire was developed in 1888 in Belfast by the Scottish veterinarian John Boyd Dunlop primarily to improve the riding comfort of bicycles. Dunlop also showed, albeit qualitatively, that his air-inflated pneumatic took less effort to rotate than did the solid rubber tires in use at that time. His qualitative tests were the first known rolling resistance experiments on pneumatic tires. Due to this significant reduction in rolling loss, many professional cyclists in Britain and Ireland adopted air-inflated tires for their bicycles by the early 1890s. Pneumatics for the nascent automobile industry soon followed. 

The non-technical nature of the problem becomes apparent when we consider a specific example. For instance, plastic bottles, which are tighter and cheaper than those made from glass, have superseded the traditional material in all sectors of the modern drinks industry. In Britain five billion plastic bottles are used a year, which leads to serious environmental problems. They are difficult to recycle or reuse and expensive to dispose of. They cannot be reused because of the need for sterility. Sterilising is done using high temperatures, which would cause softening or even melting if applied to plastics. 

Context-based curricula developed in five countries were reviewed in a special issue of the International Journal of Science Education (2006, bl. 28, Number 9). Schwartz (2006) discussed the American experience with ChemCom Chemistry in the Community, and mainly with Chemistry in Context (CiC). Bennett and Lubben (2006) presented Salters Advanced C/zemixfiy that was developed in Britain. Hofstein and Kesner (2006) reported on Israeli materials focnsing on industrial chemistry as the main school chemistiy theme. Parchmaim et al. (2006) considered the German contextual version, Chemie im Kontext (CluK). Finally, Bulte,... 

---