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Heat exchanger optimization for geothermal district heating systems: A fuel saving approach

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  • Dagdas, Ahmet

Abstract

One of the most commonly used heating devices in geothermal systems is the heat exchanger. The output conditions of heat exchangers are based on several parameters. The heat transfer area is one of the most important parameters for heat exchangers in terms of economics. Although there are a lot of methods to optimize heat exchangers, the method described here is a fairly easy approach. In this paper, a counter flow heat exchanger of geothermal district heating system is considered and optimum design values, which provide maximum annual net profit, for the considered heating system are found according to fuel savings. Performance of the heat exchanger is also calculated. In the analysis, since some values are affected by local conditions, Turkey's conditions are considered.

Suggested Citation

  • Dagdas, Ahmet, 2007. "Heat exchanger optimization for geothermal district heating systems: A fuel saving approach," Renewable Energy, Elsevier, vol. 32(6), pages 1020-1032.
  • Handle: RePEc:eee:renene:v:32:y:2007:i:6:p:1020-1032
    DOI: 10.1016/j.renene.2006.03.008
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    References listed on IDEAS

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    1. Barbier, Enrico, 2002. "Geothermal energy technology and current status: an overview," Renewable and Sustainable Energy Reviews, Elsevier, vol. 6(1-2), pages 3-65.
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    1. Teke, Ismail & Ağra, Özden & Demir, Hakan & Atayılmaz, Ş. Özgür, 2014. "Sizing, selection, and comparison of heat exchangers considering the lowest saving-investment ratio corresponding to the area at the tag end of the heat exchanger," Energy, Elsevier, vol. 78(C), pages 114-121.
    2. Baños, R. & Manzano-Agugliaro, F. & Montoya, F.G. & Gil, C. & Alcayde, A. & Gómez, J., 2011. "Optimization methods applied to renewable and sustainable energy: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 15(4), pages 1753-1766, May.
    3. Bayer, Peter & de Paly, Michael & Beck, Markus, 2014. "Strategic optimization of borehole heat exchanger field for seasonal geothermal heating and cooling," Applied Energy, Elsevier, vol. 136(C), pages 445-453.
    4. Frikha, Sobhi & Driss, Zied & Hagui, Mohamed Aymen, 2015. "Computational study of the diffuser angle effect in the design of a waste heat recovery system for oil field cabins," Energy, Elsevier, vol. 84(C), pages 219-238.
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    6. Shibin Geng & Yong Li & Xu Han & Huiliang Lian & Hua Zhang, 2016. "Evaluation of Thermal Anomalies in Multi-Boreholes Field Considering the Effects of Groundwater Flow," Sustainability, MDPI, vol. 8(6), pages 1-19, June.
    7. Baldvinsson, Ivar & Nakata, Toshihiko, 2014. "A comparative exergy and exergoeconomic analysis of a residential heat supply system paradigm of Japan and local source based district heating system using SPECO (specific exergy cost) method," Energy, Elsevier, vol. 74(C), pages 537-554.
    8. Christopher S. Brown & Nigel J. Cassidy & Stuart S. Egan & Dan Griffiths, 2022. "Thermal and Economic Analysis of Heat Exchangers as Part of a Geothermal District Heating Scheme in the Cheshire Basin, UK," Energies, MDPI, vol. 15(6), pages 1-17, March.
    9. Ağra, Özden & Erdem, Hasan Hüseyin & Demir, Hakan & Atayılmaz, Ş. Özgür & Teke, İsmail, 2015. "Heat capacity ratio and the best type of heat exchanger for geothermal water providing maximum heat transfer," Energy, Elsevier, vol. 90(P2), pages 1563-1568.

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