Raman cooling: Difference between revisions

Revision as of 15:25, 24 June 2013

Béla Karlovitz was a Hungarian physicist who pioneered research into the generation of electricity directly from a body of hot moving gas without any mechanical moving parts. This process is known as magnetohydrodynamic generation or MHD generation for short.

In the mid-1930s, while in his native Hungary, Béla Karlovitz approached Siemens in Germany with a request to develop an MHD generator using combustion gases. Siemens referred him to Westinghouse in the USA. He arrived at the Westinghouse research facility in Pittsburgh, Pennsylvania with colleague Denes Halasz in 1938.^[1] ^[2]

His work there resulted in the world's first patent for the MHD power process on August 13, 1940 (U.S. Patent No. 2,210,918, "Process for the Conversion of Energy").^[3]

He worked at Westinghouse until 1947 ^[4]

The Second World War interrupted development and a practical working device was not built until 1992 by others.

Belá Karlovitz received his M.E. degree from Technical University, Budapest, Hungary and his E.E. degree from the Federal Institute of Technology, Zurich, Switzerland. Besides his publications in MHD, he is the author of publications on turbulent flames, combustion instabilities. He was the Head of the Flame Research Section, Explosives and Physical Science Division, Bureau of Mines, Pittsburgh, PA in 1953. Subsequently, he was with Combustion and Explosive Research, Inc. in Pittsburgh, PA.

In combustion, Karlovitz is known as the first to introduce the concept of flame stretch. The Karlovitz number is named after him. It is a non-dimensional quantity defined as: ${\mathit {Ka}}=kt_{c}$ where $t_{c}$ is the characteristic flow time (s) and $k$ is the flame stretch rate (1/s): $k=(dA/dt)/A$ ; where $A$ is the unit area of the flame and consists of the points that stay on the flame surface.

References

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↑ Magnetohydrodynamic electrical power generation, Hugo K. Messerle, page 7, J. Wiley, 1995
↑ Physics in technology, Volume 10, page 219 Institute of Physics (Great Britain), American Institute of Physics
↑ United States Patent Office patent Patent number: 2210918 Filing date: Aug 12, 1936, Issue date: Aug 1940
↑ Electronics, Volume 35, McGraw-Hill Pub. Co., 1962, page 27

[1] Magnetohydrodynamic electrical power generation, Hugo K. Messerle, page 7, J. Wiley, 1995

[2] Physics in technology, Volume 10, page 219 Institute of Physics (Great Britain), American Institute of Physics

[3] United States Patent Office patent Patent number: 2210918 Filing date: Aug 12, 1936, Issue date: Aug 1940

[4] Electronics, Volume 35, McGraw-Hill Pub. Co., 1962, page 27

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+'''Béla Karlovitz''' was a [[Hungary|Hungarian]] [[physicist]] who pioneered research into the [[Electricity generation|generation of electricity]] directly from a body of hot moving gas without any mechanical moving parts. This process is  known as [[MHD generator|magnetohydrodynamic generation]] or MHD generation for short.
+In the mid-1930s, while in his native Hungary, Béla Karlovitz approached [[Siemens]] in Germany with a request to develop an MHD generator using combustion gases. Siemens referred him to [[Westinghouse Electric (1886)|Westinghouse]] in the USA. He arrived at the Westinghouse research facility in Pittsburgh, Pennsylvania with colleague Denes Halasz  in 1938.<ref>[http://books.google.com/books?id=5-RSAAAAMAAJ&q=%22bela+Karlovitz%22&dq=%22bela+Karlovitz%22&hl=en&ei=Qs5VTZ-3IomDhQfJ2p2cDA&sa=X&oi=book_result&ct=result&resnum=7&ved=0CDsQ6AEwBjgK Magnetohydrodynamic electrical power generation],  Hugo K. Messerle, page 7, J. Wiley, 1995</ref>
+<ref>[http://books.google.com/books?id=lYGwAAAAIAAJ&q=%22bela+Karlovitz%22&dq=%22bela+Karlovitz%22&hl=en&ei=Qs5VTZ-3IomDhQfJ2p2cDA&sa=X&oi=book_result&ct=result&resnum=4&ved=0CDAQ6AEwAzgK Physics in technology, Volume 10], page 219 Institute of Physics (Great Britain), American Institute of Physics
+</ref>
+His work there resulted in the world's first patent for the MHD power process on August 13, 1940 (U.S. Patent No. 2,210,918, "Process for the Conversion of Energy").<ref>[http://www.google.com/patents?id=EGREAAAAEBAJ&printsec=abstract&zoom=4#v=onepage&q&f=false United States Patent Office patent Patent number: 2210918]
+Filing date: Aug 12, 1936, Issue date: Aug 1940
+</ref>
+He worked at Westinghouse until 1947 <ref>[http://books.google.com/books?id=AiJRAAAAYAAJ&q=%22bela+Karlovitz%22&dq=%22bela+Karlovitz%22&hl=en&ei=Qs5VTZ-3IomDhQfJ2p2cDA&sa=X&oi=book_result&ct=result&resnum=2&ved=0CCkQ6AEwATgK Electronics, Volume 35], McGraw-Hill Pub. Co., 1962, page 27</ref>
+The Second World War interrupted development and a practical working device was not built until 1992 by others.
+Belá Karlovitz received his M.E. degree from Technical University, Budapest, Hungary and his E.E. degree from the Federal Institute of Technology, Zurich, Switzerland. Besides his publications in MHD, he is the author of publications on turbulent flames, combustion instabilities.  He was the Head of the Flame Research Section, Explosives and Physical Science Division, Bureau of Mines, Pittsburgh, PA in 1953.  Subsequently, he was with Combustion and Explosive Research, Inc. in Pittsburgh, PA.
+In combustion, Karlovitz is known as the first to introduce the concept of flame stretch. The Karlovitz number is named after him.  It is a non-dimensional quantity defined as:
+<math>\mathit{Ka} = k t_c</math> where <math>t_c</math> is the characteristic flow time (s) and <math>k</math> is the flame stretch rate (1/s): <math>k = (dA/dt)/A</math>; where <math>A</math> is the unit area of the flame and consists of the points that stay on the flame surface.
+==References==
+{{Reflist}}
+{{Persondata <!-- Metadata: see [[Wikipedia:Persondata]]. -->
+| NAME              = Karlovitz, Bela
+| ALTERNATIVE NAMES =
+| SHORT DESCRIPTION = Hungarian engineer
+| DATE OF BIRTH     =
+| PLACE OF BIRTH    =
+| DATE OF DEATH     =
+| PLACE OF DEATH    =
+}}
+{{DEFAULTSORT:Karlovitz, Bela}}
+[[Category:Year of birth missing]]
+[[Category:Year of death missing]]
+[[Category:Hungarian engineers]]

Raman cooling: Difference between revisions

Revision as of 15:25, 24 June 2013

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