Chemical and Petroleum Engineering

, Volume 34, Issue 3, pp 205–210 | Cite as

Thermodynamic analysis of nitrogen air-fractionating apparatus

  • Yu. G. Pisarev
  • A. F. Gromov
  • V. A. Garin
Research. Design. Calculations. Operating Experience Cryogenic Technology, Production and Application of Industrial Gases


Nitrogen Mineral Resource Thermodynamic Analysis 
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    R. A. Petras and T. Larkin, Cost Effective Alternative to Ultra Purity Nitrogen Production. Paper read at the conference “Heat Exchange and Fractionation at Low Temperatures,” London (1994).Google Scholar
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    US Patent 4, 867, 773; F25 J 3/00. Cryogenic Process for Nitrogen Production with Oxygen-Enriched Recycle.Google Scholar
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    US Patent 5, 098, 457; F25 J 3/02. Method and Apparatus for Producing Elevated Pressure Nitrogen.Google Scholar
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    Patent of the Russian Federation 2,029,204; MKI C1 F25 J 3/04. Method of Obtaining Nitrogen Under Pressure.Google Scholar
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    V. A. Garin and Yu. G. Pisarev, “New generation of air fractionation plant,” Khim. Neft. Mashinostr., No. 1, 35–42 (1996).Google Scholar
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    A. M. Arkharov, I. V. Marfenina, and E. I. Mikulin, Cryogenic Systems: Fundamentals of Theory and Calculation: Textbook for University Students [in Russian], Vol. 1, 3rd ed. Mashinostroenie, Moscow (1996).Google Scholar

Copyright information

© Plenum Publishing Corporation 1998

Authors and Affiliations

  • Yu. G. Pisarev
  • A. F. Gromov
  • V. A. Garin

There are no affiliations available

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