Exergonomic Optimization of an Air-Conditioning System-Reference-Cited by-同舟云学术

Exergonomic Optimization of an Air-Conditioning System

Published:1997-03-01 Issue:1 Volume:119 Page:62-69
ISSN:0195-0738
Container-title:Journal of Energy Resources Technology
language:en
Short-container-title:

Author:

Cammarata G.¹,Fichera A.¹,Mammino L.¹,Marletta L.¹

Affiliation:

1. Istituto di Fisica Tecnica, Facolta` di Ingegneria, Universita` di Catania, Viale A. Doria 6, 95127 Catania, ltaly

Abstract

In this paper, exergonomic theory is applied to an air-conditioning system for optimization purposes. The investigation is addressed to an all-air system with air recirculation, The thermodynamic cycle includes a mixing plenum, a cooling and heating coil, chiller, and heater. The thermodynamic model is stated according to recent formulations of exergy for moist air streams, while the economic model is based on cost balance equations and real cost data for mechanical equipment. The objective function to minimize includes the following decision variables: fresh to total air rate, coefficient of performance for the chiller, inlet temperature of water for the cooling and the heating coils, temperature difference of the same streams. For the exergonomic optimization, the authors followed the approach proposed by Tsatsaronis (1984). The optimum configuration is obtained through an iterative procedure aimed at the design improvement. The results show that there is considerable room for improvement with respect to a system based on typical design parameters.

Publisher

ASME International

Subject

Geochemistry and Petrology,Mechanical Engineering,Energy Engineering and Power Technology,Fuel Technology,Renewable Energy, Sustainability and the Environment

Link

http://asmedigitalcollection.asme.org/energyresources/article-pdf/119/1/62/5681719/62_1.pdf

Reference13 articles.

1. Bejan, A., 1988, Advanced Engineering Thermodynamics, Wiley, New York, NY.

2. Cammarata, G., Fichera, A., Forgia, F., and Marletta, L., 1994, “Exergetic Analysis of Basic Processes in Air Conditioning Systems,” Proceedings, International Conference on HVAC in Cold Climates, FINVAC, Finland Sept.

3. Cornelissen, R. L., 1995, “Bibliography on Exergy Analysis and Related Techniques,” Internal Report, Twente University, Dept. of Mechanical Engineering, Energy Technology Group.

4. Kotas, 1995, The Exergy Method of Thermal Plant Analysis, Krieger, Melbourne, Australia.

5. Frangopoulos, C. A., 1990, “Intelligent Functional Approach,” A Future for Energy, Flowers 90, eds., S. Stecco and M. Moran, Pergamon Press, pp. 805–815.

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