Thermodynamic Modeling of an Ammonia-Water Absorption System Associated with a Microturbine

Janilson Rossa; Edson Bazzo

EN

Thermodynamic Modeling of an Ammonia-Water Absorption System Associated with a Microturbine

Abstract

Thermodynamic modeling and Second Law analysis of a small-scale cogeneration system consisting of a 5 refrigerant ton absorption chiller connected by a thermosyphon heat exchanger to a 28 kWe natural gas microturbine are presented. The proposed configuration changes the heat source of the absorption chiller, replacing the original natural gas burning system. A computational algorithm was programmed to analyze the global efficiency of the combined cooling and power plant and the coefficient of performance of the absorption chiller. The results show the consistency of the proposed model and a good performance of the cogeneration system. The thermal efficiency of the combined cooling and power plant is approximately 41%, which represents a 67% increase relative to a single natural-gas microturbine.

Keywords

cogeneration, natural gas microturbine, ammonia-water absorption chiller, second law analysis

Details

Primary Language

English

Subjects

-

Journal Section

-

Authors

Janilson Rossa This is me

Edson Bazzo

Publication Date

March 1, 2009

Submission Date

February 28, 2010

Acceptance Date

-

Published in Issue

Year 2009 Volume: 12 Number: 1

IZ

https://izlik.org/JA96DT73SN

Cite

RIS / Bibtex

APA

Rossa, J., & Bazzo, E. (2009). Thermodynamic Modeling of an Ammonia-Water Absorption System Associated with a Microturbine. International Journal of Thermodynamics, 12(1), 38-43. https://izlik.org/JA96DT73SN

AMA

1.Rossa J, Bazzo E. Thermodynamic Modeling of an Ammonia-Water Absorption System Associated with a Microturbine. International Journal of Thermodynamics. 2009;12(1):38-43. https://izlik.org/JA96DT73SN

Chicago

Rossa, Janilson, and Edson Bazzo. 2009. “Thermodynamic Modeling of an Ammonia-Water Absorption System Associated With a Microturbine”. International Journal of Thermodynamics 12 (1): 38-43. https://izlik.org/JA96DT73SN.

EndNote

Rossa J, Bazzo E (March 1, 2009) Thermodynamic Modeling of an Ammonia-Water Absorption System Associated with a Microturbine. International Journal of Thermodynamics 12 1 38–43.

IEEE

[1]J. Rossa and E. Bazzo, “Thermodynamic Modeling of an Ammonia-Water Absorption System Associated with a Microturbine”, International Journal of Thermodynamics, vol. 12, no. 1, pp. 38–43, Mar. 2009, [Online]. Available: https://izlik.org/JA96DT73SN

ISNAD

Rossa, Janilson - Bazzo, Edson. “Thermodynamic Modeling of an Ammonia-Water Absorption System Associated With a Microturbine”. International Journal of Thermodynamics 12/1 (March 1, 2009): 38-43. https://izlik.org/JA96DT73SN.

JAMA

1.Rossa J, Bazzo E. Thermodynamic Modeling of an Ammonia-Water Absorption System Associated with a Microturbine. International Journal of Thermodynamics. 2009;12:38–43.

MLA

Rossa, Janilson, and Edson Bazzo. “Thermodynamic Modeling of an Ammonia-Water Absorption System Associated With a Microturbine”. International Journal of Thermodynamics, vol. 12, no. 1, Mar. 2009, pp. 38-43, https://izlik.org/JA96DT73SN.

Vancouver

1.Janilson Rossa, Edson Bazzo. Thermodynamic Modeling of an Ammonia-Water Absorption System Associated with a Microturbine. International Journal of Thermodynamics [Internet]. 2009 Mar. 1;12(1):38-43. Available from: https://izlik.org/JA96DT73SN