Thermodynamic analysis of the performance of cogeneration plants

M. A. Habib

doi:10.1016/0360-5442(92)90084-D

Thermodynamic analysis of the performance of cogeneration plants

M. A. Habib^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

24 Scopus citations

Abstract

We present an analysis of two different cogeneration schemes. A comparison is made with a conventional plant of separate units for producing process heat and power. Use of the first and second laws quantifies the irreversible losses. In the cogeneration schemes, the required process heat is obtained either from a boiler and a back-pressure turbine or from a combined-cycle gas turbine. The effects of the process pressure and heat-to-power ratio on performance are presented. The performance of the different schemes is analysed in view of the first- and second-law efficiencies, cogeneration efficiency and irreversibility rates for the different components in each plant. The irreversible losses occur mostly in the boiler and combustion chamber and are greatly reduced in a gas-turbine cogeneration unit.

Original language	English
Pages (from-to)	485-491
Number of pages	7
Journal	Energy
Volume	17
Issue number	5
DOIs	https://doi.org/10.1016/0360-5442(92)90084-D
State	Published - May 1992

Bibliographical note

Funding Information:
support by the King Fahd University of Petroleum & Minerals for this research project is

ASJC Scopus subject areas

Civil and Structural Engineering
Building and Construction
Pollution
Mechanical Engineering
Industrial and Manufacturing Engineering
Electrical and Electronic Engineering

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title = "Thermodynamic analysis of the performance of cogeneration plants",

abstract = "We present an analysis of two different cogeneration schemes. A comparison is made with a conventional plant of separate units for producing process heat and power. Use of the first and second laws quantifies the irreversible losses. In the cogeneration schemes, the required process heat is obtained either from a boiler and a back-pressure turbine or from a combined-cycle gas turbine. The effects of the process pressure and heat-to-power ratio on performance are presented. The performance of the different schemes is analysed in view of the first- and second-law efficiencies, cogeneration efficiency and irreversibility rates for the different components in each plant. The irreversible losses occur mostly in the boiler and combustion chamber and are greatly reduced in a gas-turbine cogeneration unit.",

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PY - 1992/5

Y1 - 1992/5

N2 - We present an analysis of two different cogeneration schemes. A comparison is made with a conventional plant of separate units for producing process heat and power. Use of the first and second laws quantifies the irreversible losses. In the cogeneration schemes, the required process heat is obtained either from a boiler and a back-pressure turbine or from a combined-cycle gas turbine. The effects of the process pressure and heat-to-power ratio on performance are presented. The performance of the different schemes is analysed in view of the first- and second-law efficiencies, cogeneration efficiency and irreversibility rates for the different components in each plant. The irreversible losses occur mostly in the boiler and combustion chamber and are greatly reduced in a gas-turbine cogeneration unit.

AB - We present an analysis of two different cogeneration schemes. A comparison is made with a conventional plant of separate units for producing process heat and power. Use of the first and second laws quantifies the irreversible losses. In the cogeneration schemes, the required process heat is obtained either from a boiler and a back-pressure turbine or from a combined-cycle gas turbine. The effects of the process pressure and heat-to-power ratio on performance are presented. The performance of the different schemes is analysed in view of the first- and second-law efficiencies, cogeneration efficiency and irreversibility rates for the different components in each plant. The irreversible losses occur mostly in the boiler and combustion chamber and are greatly reduced in a gas-turbine cogeneration unit.

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JO - Energy

JF - Energy

IS - 5

ER -

Thermodynamic analysis of the performance of cogeneration plants

Abstract

Bibliographical note

ASJC Scopus subject areas

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