DERIVED THERMODYNAMIC DESIGN DATA FOR RANKINE POWER CYCLE SYSTEMS OPERATING ON N-HEXANE.

Author(s) : WELSBY P., DEVOTTA S., HOLLAND F. A.

Type of article: Article

Summary

THE THEORETICAL RANKINE POWER CYCLE EFFICIENCIES AND THE PRESSURE RATIOS HAVE BEEN PRESENTED FOR RANKINE POWER CYCLES OPERATING ON N-HEXANE (C6H14 ). THESE VALUES ARE LISTED IN TABULAR FORM FOR TEMPERATURE DROPS OF 10-75 K AND FOR BOILER TEMPERATURES 343-488 K (70-215 DEG C) IN 5 K INCREMENTS. A COMPOSITE GRAPH SHOWING THE RELATIONSHIP BETWEEN PRESSURE RATIOS AND TEMPERATURE DROP ILLUSTRATES THE FEASIBLE OPERATING RANGE FOR N-HEXANE POWER CYCLE SYSTEMS. THE DERIVED THERMODYNAMIC DATA CAN BE USED FOR THE RAPID PRELIMINARY DESIGN OF RANKINE POWER CYCLE SYSTEMS OPERATING ON N-HEXANE.

Details

  • Original title: DERIVED THERMODYNAMIC DESIGN DATA FOR RANKINE POWER CYCLE SYSTEMS OPERATING ON N-HEXANE.
  • Record ID : 1985-0048
  • Languages: English
  • Source: J. Heat Recov. Syst. - vol. 4 - n. 1
  • Publication date: 1984
  • Document available for consultation in the library of the IIR headquarters only.

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