Publication detail

Adiabatic Sorption of Ammonia-Water System and Depicting in p-T-x Diagram

POSPÍŠIL, J. SKÁLA, Z.

Original Title

Adiabatic Sorption of Ammonia-Water System and Depicting in p-T-x Diagram

English Title

Adiabatic Sorption of Ammonia-Water System and Depicting in p-T-x Diagram

Type

conference paper

Language

en

Original Abstract

Absorption cycles designers often utilize p-t-x diagrams of working mixtures for first suggestion of new absorption cycles. The p-t-x diagrams enable fast correct determination of saturate states of liquid (and gaseous) mixtures of refrigerants and absorbents. The working mixture isnt only at saturated state during a real working cycle. If we know pressure and temperature of an unsaturated mixture, exact position determination is possible in the p-t-x diagrams too. But there are still processes uneasy to draw in the p-t-x diagrams, namely adiabatic sorption. The adiabatic sorption is very interesting phenomenon that occurs when vapor of refrigerant is in contact with unsaturated liquid absorbent-refrigerant mixture and exchange of heat is forbid between the system and an environment. This contribution introduces new auxiliary lines that enable correct position determination of the adiabatic sorption process in the p-T-x diagram of ammonia-water system. The presented auxiliary lines were obtained from common functions for fast calculation of water-ammonia system

English abstract

Absorption cycles designers often utilize p-t-x diagrams of working mixtures for first suggestion of new absorption cycles. The p-t-x diagrams enable fast correct determination of saturate states of liquid (and gaseous) mixtures of refrigerants and absorbents. The working mixture isnt only at saturated state during a real working cycle. If we know pressure and temperature of an unsaturated mixture, exact position determination is possible in the p-t-x diagrams too. But there are still processes uneasy to draw in the p-t-x diagrams, namely adiabatic sorption. The adiabatic sorption is very interesting phenomenon that occurs when vapor of refrigerant is in contact with unsaturated liquid absorbent-refrigerant mixture and exchange of heat is forbid between the system and an environment. This contribution introduces new auxiliary lines that enable correct position determination of the adiabatic sorption process in the p-T-x diagram of ammonia-water system. The presented auxiliary lines were obtained from common functions for fast calculation of water-ammonia system

RIV year

2005

Released

01.06.2005

Publisher

WSEAS

Location

Athens, Greece

ISBN

960-8457-33-5

Book

Proceeding of 3rd IASME/ WSEAS Int. Conf. On Heat Transfer, Thermal Engineering and Environment

Pages from

530-123

Pages count

5

Documents

BibTex


@inproceedings{BUT18162,
  author="Jiří {Pospíšil} and Zdeněk {Skála}",
  title="Adiabatic Sorption of Ammonia-Water System and Depicting in p-T-x Diagram",
  annote="Absorption cycles designers often utilize p-t-x diagrams of working mixtures for first suggestion of new absorption cycles. The p-t-x diagrams enable fast correct determination of saturate states of liquid (and gaseous) mixtures of refrigerants and absorbents. The working mixture isnt only at saturated state during a real working cycle. If we know pressure and temperature of an unsaturated mixture, exact position determination is possible in the p-t-x diagrams too. But there are still processes uneasy to draw in the p-t-x diagrams, namely adiabatic sorption. The adiabatic sorption is very interesting phenomenon that occurs when vapor of refrigerant is in contact with unsaturated liquid absorbent-refrigerant mixture and exchange of heat is forbid between the system and an environment. This contribution introduces new auxiliary lines that enable correct position determination of the adiabatic sorption process in the p-T-x diagram of ammonia-water system. The presented auxiliary lines were obtained from common functions for fast calculation of water-ammonia system",
  address="WSEAS",
  booktitle="Proceeding of 3rd IASME/ WSEAS Int. Conf. On Heat Transfer, Thermal Engineering and Environment",
  chapter="18162",
  institution="WSEAS",
  year="2005",
  month="june",
  pages="530-123",
  publisher="WSEAS",
  type="conference paper"
}