User:Milton Beychok/Sandbox: Difference between revisions
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was contained in an "evaporator vessel" where it was [[vaporization|vaporized]] under a partial [[vacuum]] maintained by the suction of a crude hand-operated [[Gas compressor|compressor]]. The evaporator vessel was submerged in a liquid from which the [[heat]] required to vaporize the ether was extracted, thereby cooling the liquid. The compressed ether vapor from the compressor discharge was then [[Condensation|condensed]] back into liquid ether by flowing through [[piping]] coils submerged in water. The liquid ether then returned through a pressure reduction valve (i.e., an expansion valve) into the partial vacuum of the evaporator vessel. Clearly, Perkins' system included the four principal features uses by modern vapor-compression refrigeration systems, namely an evaporator, a compressor, a condenser and an expansion valve. Unfortunately, Perkins had no success in commercializing his system.<ref name=Selfe/> | was contained in an "evaporator vessel" where it was [[vaporization|vaporized]] under a partial [[vacuum]] maintained by the suction of a crude hand-operated [[Gas compressor|compressor]]. The evaporator vessel was submerged in a liquid from which the [[heat]] required to vaporize the ether was extracted, thereby cooling the liquid. The compressed ether vapor from the compressor discharge was then [[Condensation|condensed]] back into liquid ether by flowing through [[piping]] coils submerged in water. The liquid ether then returned through a pressure reduction valve (i.e., an expansion valve) into the partial vacuum of the evaporator vessel. Clearly, Perkins' system included the four principal features uses by modern vapor-compression refrigeration systems, namely an evaporator, a compressor, a condenser and an expansion valve. Unfortunately, Perkins had no success in commercializing his system.<ref name=Selfe/> | ||
In 1842, an American physician, [[John Gorrie]], designed the first system for refrigerating water to produce ice. He also conceived the idea of using his refrigeration system to cool the air for | In 1842, an American physician, [[John Gorrie]], designed the first system for refrigerating water to produce ice. He also conceived the idea of using his refrigeration system to cool the air in the rooms of a [[Florida]] hospital used for treating [[yellow-fever]] and [[malaria]] patients. His system compressed air, then partially cooled the hot compressed air with water before allowing it to [[isentropic process|isentropically]] expand while doing part of the work required to drive the air [[gas compressor|compressor]]. The isentropic expansion cooled the air to a temperature low enough to freeze water and produce ice, or to flow "through a pipe for effecting refrigeration otherwise" as stated in his [[United States]] patent granted in 1851.<ref>[http://patimg2.uspto.gov/.piw?docid=00008080&SectionNum=1&IDKey=342700045D42&HomeUrl=http://patft.uspto.gov/netacginph-Parser?Sect1=PTO2%2526Sect2=HITOFF%2526p=1%2526u=%25252Fnetahtml%25252FPTO%25252Fsearch-bool.html%2526r=1%2526f=G%2526l=50%2526co1=AND%2526d=PALL%2526s1=0008080.PN.%2526OS=PN/0008080%2526RS=PN/0008080 "Improved process for the artificial production of ice", U.S. Patent Office, Patent 8080, 1851]</ref> Gorrie, who had given up his medical practice, built a working prototype and sought to raise money to manufacture his machine, but the venture failed and his system was a commercial failure. | ||
Alexander Twining began experimenting with vapor-compression refrigeration in 1848 and obtained patents in 1850 and 1853. He is credited with having initiated commercial refrigeration in the United States by 1856. | Alexander Twining began experimenting with vapor-compression refrigeration in 1848 and obtained patents in 1850 and 1853. He is credited with having initiated commercial refrigeration in the United States by 1856. | ||
The American engineer Alexander Twining (1801-1884) received a British patent in 1850 for a vapour compression system by use of ether, NH3 and CO2. Also, US Patent 10221. in 1853. | |||
He obtained patents in 1850 and 1853 for his contribution. He is credited with having started commercial refrigeration in the United States by 1856. | |||
Twining graduated from Yale in 1820, and became a professor of mathematics, civil engineering, and astronomy at Middle bury College from 1839 till 1849. He was employed as a civil engineer on various railways and canals, and discovered the first practical method of producing ice in bulk quantities by artificial means. | |||
The man responsible for making a practical vapor compression refrigeration system was James Harrison who took a patent in 1856 for a vapour compression system using ether, alcohol or ammonia. Charles Tellier of France patented in 1864, a refrigeration system using dimethyl ether which has a normal boiling point of −23.6°C. | |||
Meanwhile in Australia, [[James Harrison (engineer)|James Harrison]] began operation of a mechanical ice-making machine in 1851 on the banks of the Barwon River at Rocky Point in [[Geelong]], Victoria. His first commercial ice-making machine followed in 1854 and his patent for an ether liquid-vapour compression refrigeration system was granted in 1855. Harrison introduced commercial vapor-compression refrigeration to breweries and meat packing houses, and by 1861 a dozen of his systems were in operation. | |||
[[James Harrison (engineer)|James Harrison]] of Australia received a patent in 1855 for an ice maker. Both inventors used [[ether]] as the working fluid in their vapor-compression refrigeration cycle, but Harrison was the first to develop a practical refrigeration system which could be used in the brewiing and meat-packing industries of [[Geelong]], Victoria. | |||
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Revision as of 20:59, 15 April 2010
In 1805, American inventor Oliver Evans described in detail, but never built, a refrigeration system based on the vapor-compression refrigeration cycle.[1]
An American living in Great Britain, Jacob Perkins, improved upon the design proposed by Oliver Evans and obtained the first patent for a vapor-compression refrigeration system in 1834.[2] Perkins built a prototype system and it actually worked.[3][4] According to the drawing in Perkins' patent, liquid ether (C4H10O) was contained in an "evaporator vessel" where it was vaporized under a partial vacuum maintained by the suction of a crude hand-operated compressor. The evaporator vessel was submerged in a liquid from which the heat required to vaporize the ether was extracted, thereby cooling the liquid. The compressed ether vapor from the compressor discharge was then condensed back into liquid ether by flowing through piping coils submerged in water. The liquid ether then returned through a pressure reduction valve (i.e., an expansion valve) into the partial vacuum of the evaporator vessel. Clearly, Perkins' system included the four principal features uses by modern vapor-compression refrigeration systems, namely an evaporator, a compressor, a condenser and an expansion valve. Unfortunately, Perkins had no success in commercializing his system.[3]
In 1842, an American physician, John Gorrie, designed the first system for refrigerating water to produce ice. He also conceived the idea of using his refrigeration system to cool the air in the rooms of a Florida hospital used for treating yellow-fever and malaria patients. His system compressed air, then partially cooled the hot compressed air with water before allowing it to isentropically expand while doing part of the work required to drive the air compressor. The isentropic expansion cooled the air to a temperature low enough to freeze water and produce ice, or to flow "through a pipe for effecting refrigeration otherwise" as stated in his United States patent granted in 1851.[5] Gorrie, who had given up his medical practice, built a working prototype and sought to raise money to manufacture his machine, but the venture failed and his system was a commercial failure.
Alexander Twining began experimenting with vapor-compression refrigeration in 1848 and obtained patents in 1850 and 1853. He is credited with having initiated commercial refrigeration in the United States by 1856.
The American engineer Alexander Twining (1801-1884) received a British patent in 1850 for a vapour compression system by use of ether, NH3 and CO2. Also, US Patent 10221. in 1853.
He obtained patents in 1850 and 1853 for his contribution. He is credited with having started commercial refrigeration in the United States by 1856.
Twining graduated from Yale in 1820, and became a professor of mathematics, civil engineering, and astronomy at Middle bury College from 1839 till 1849. He was employed as a civil engineer on various railways and canals, and discovered the first practical method of producing ice in bulk quantities by artificial means.
The man responsible for making a practical vapor compression refrigeration system was James Harrison who took a patent in 1856 for a vapour compression system using ether, alcohol or ammonia. Charles Tellier of France patented in 1864, a refrigeration system using dimethyl ether which has a normal boiling point of −23.6°C.
Meanwhile in Australia, James Harrison began operation of a mechanical ice-making machine in 1851 on the banks of the Barwon River at Rocky Point in Geelong, Victoria. His first commercial ice-making machine followed in 1854 and his patent for an ether liquid-vapour compression refrigeration system was granted in 1855. Harrison introduced commercial vapor-compression refrigeration to breweries and meat packing houses, and by 1861 a dozen of his systems were in operation.
James Harrison of Australia received a patent in 1855 for an ice maker. Both inventors used ether as the working fluid in their vapor-compression refrigeration cycle, but Harrison was the first to develop a practical refrigeration system which could be used in the brewiing and meat-packing industries of Geelong, Victoria.
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Carl von Linden discovered and patented an improved method of liquefying gas in 1876, which made the process of manufacturing refrigerator models practical. Making use of such gases as ammonia, sulfur dioxide and methyl chloride, the new process formed the standard for cooling agents until the late 1920’s. By then, a number of accidents related to the use of these substances as cooling agents convinced manufacturers that a more stable element was needed. This effort led to the development of freon, which provided the standard for cooling agents for the bulk of the remainder of the 20th century, until the substance was leaked to damage to the ozone layer.
- ↑ Oliver Evans (1805). The Abortion of the Young Engineer's Guide. Fry and Kammerer, Philadelphia. Available online at History Department, University of Rochester See the last item in the Appendix
- ↑ British patent 6662. August, 1834.
- ↑ 3.0 3.1 Norman Selfe (1900). Machinery for Refrigeration. H.S. Rich & Co. (Press of Ice and Refrigeration, Chicago), pp 18-19. Full copy available at Google books
- ↑ Aubrey F. Burstall (1965). A History of Mechanical Engineering. The MIT Press. ISBN 0-262-52001-X.
- ↑ "Improved process for the artificial production of ice", U.S. Patent Office, Patent 8080, 1851