A study on the optimized control strategies of geothermal heat pump system and absorption chiller-heater

Title
A study on the optimized control strategies of geothermal heat pump system and absorption chiller-heater
Author(s)
조영흠유시완[유시완]정영주김석현조재훈[조재훈]김용식[김용식]
Keywords
PERFORMANCE
Issue Date
201406
Publisher
WILEY-BLACKWELL
Citation
INTERNATIONAL JOURNAL OF ENERGY RESEARCH, v.38, no.8, pp.1083 - 1098
Abstract
The world is becoming increasingly interested in renewable energy including geothermal energy. The utilization of geothermal systems is currently low because geothermal systems and existing source systems are used independently, but the supply rate of a geothermal system is increasing. Therefore, suggesting efficient operation plans and evaluations of the energy consumption and efficiency of a geothermal system is needed. This paper reports the results of a field study and survey of the present applications and operation conditions of a geothermal system. In addition, this paper proposes an efficient operation strategy for a geothermal system and compares this operation strategy with an existing operation strategy through simulation. The problems of existing operation condition were found out through a field study, and alternatives were proposed. The improvements were evaluated using the transient systems simulation program. And it would be possible for the reduction of the energy consumption through the comparative analysis of equipment efficiency and energy consumption. The result of analyzing the proposed combination header method through simulations compared with existing operation conditions can increase the use of geothermal systems, but the combined cooling and hot water of a geothermal heat pump and existing thermal source system reduced the efficiency of the heat pump. As a result of simulation on individual load-sharing method, efficiency of geothermal system is increasing compared with the combination header method. This method was especially made to separate geothermal system's water loop and existing thermal source system's water loop. Copyright (c) 2013 John Wiley & Sons, Ltd.
URI
http://hdl.handle.net/YU.REPOSITORY/31954http://dx.doi.org/10.1002/er.3122
ISSN
0363-907X
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건축학부 > 건축학부 > Articles
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