Chemistry:CHEMKIN

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CHEMKIN is a proprietary software tool for solving complex chemical kinetics problems. It is used worldwide in the combustion,[1] chemical processing,[2] microelectronics[citation needed] and automotive[citation needed] industries, and also in atmospheric science.[3] It was originally developed at Sandia National Laboratories and is now developed by a US company, Reaction Design.

CHEMKIN solves thousands of reaction combinations to develop a comprehensive understanding of a particular process, which might involve multiple chemical species, concentration ranges, and gas temperatures.

Chemical kinetics simulation software allows for a more time-efficient investigation of a potential new process compared to direct laboratory investigation[citation needed].

One important driver for the development and use of CHEMKIN is the reduction of pollutants, such as NOx. As these pollutants become more tightly regulated through agreements by agencies such as the United States Environmental Protection Agency and the California Air Resource Board (CARB), researchers are making increasing use of simulation technology[citation needed].

One limitation of CHEMKIN is that it assumes the reaction vessel has a relatively simple geometry[citation needed], whereas sometimes this is not the case. For that reason, a related program called KINetics is often used in conjunction with Computational Fluid Dynamics tools. CFD programs are better able to account for geometric complexity, at the expense of being more limited in their treatment of the underlying chemistry of the reactive process being studied[citation needed].

Reaction Design was acquired by ANSYS in 2014 so Chemkin and related products are now available through ANSYS.[4]

See also

External links

References

  1. Daly, D. and Nag, P., "Combustion Modeling of Soot Reduction in Diesel and Alternate Fuels using CHEMKIN®," SAE Technical Paper 2001-01-1239, 2001, doi:10.4271/2001-01-1239.
  2. Glarborg, Peter; Miller, James A.; Kee, Robert J. (1986). "Kinetic modeling and sensitivity analysis of nitrogen oxide formation in well-stirred reactors". Combustion and Flame 65 (2): 177–202. doi:10.1016/0010-2180(86)90018-0. https://zenodo.org/record/1253852. 
  3. Brady, BB; Martin, LR (1995). "Use of SURFACE CHEMKIN to model multiphase atmospheric chemistry: Application to nitrogen tetroxide spills". Atmospheric Environment 29 (6): 715–726. doi:10.1016/1352-2310(94)00304-4. 
  4. Quickie: ANSYS to acquire Reaction Design http://schnitgercorp.com/2013/12/04/quickie-ansys-acquire-reaction-design/