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THEORETICAL PERFORMANCES OF SOLID ADSORBENT CASCADING CYCLES USING THE ZEOLITE-WATER AND ACTIVE CARBON-METHANOL PAIRS: 4 CASE STUDIES.

Author(s) : MEUNIER F.

Type of article: Article

Summary

4 CASES OF CASCADING SOLID ABSORBENT CYCLES OPERATING AT A HIGH REGENERATING TEMPERATURE 548 K (275 DEG C) ARE PRESENTED. ONE OF THESE CYCLES IS A DOUBLE EFFECT ZEOLITE-WATER CYCLE, THE 3 OTHER CYCLES CONSIST IN A LOW TEMPERATURE ACTIVE CARBON-METHANOL CYCLE BOOSTED BY A HIGH TEMPERATURE DOUBLE EFFECT ZEOLITE-WATER CYCLE. THE PREDICTED PERFORMANCES AS WELL AS THE COMPONENTS NEEDED TO OPERATE THE CYCLE AND THE HEAT MANAGEMENT ARE PRESENTED. COGENERATION OF WATER 275 K (2 DEG C) AND EITHER WATER 343 K (70 DEG C) OR STEAM 393 K (120 DEG C) ; COGENERATION OF REFRIGERATION 263 K (-10 DEG C) AND WATER 343 K ARE VERY ATTRACTIVE. PRODUCTION OF REFRIGERATION 263 K WITH A COP AS HIGH AS 0.85 IS ALSO POSSIBLE.

Details

  • Original title: THEORETICAL PERFORMANCES OF SOLID ADSORBENT CASCADING CYCLES USING THE ZEOLITE-WATER AND ACTIVE CARBON-METHANOL PAIRS: 4 CASE STUDIES.
  • Record ID : 1987-2216
  • Languages: English
  • Source: J. Heat Recov. Syst. - vol. 6 - n. 6
  • Publication date: 1986
  • Document available for consultation in the library of the IIR headquarters only.

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