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Characterizing uncertainty in groundwater-source heating and cooling projects in Manitoba, Canada

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  • Ferguson, Grant

Abstract

Uncertainty of performance is an obstacle for greater uptake of many renewable energy technologies that depend on local environmental conditions. The ability to successfully complete involving a groundwater-source heat pumps or other projects using groundwater for heating and cooling is highly dependent on local geological conditions. Use of geostatistical information on aquifer properties and analysis of previous projects in a region show some promise in assessing the risk in these projects. An example of a possible methodology is given here for open loop heat pump and other groundwater-source heating and cooling projects in Manitoba, Canada. Stochastic modeling of open loop heat pumps was able to explain the number of wells unable to produce or inject sufficient water from the aquifer, demonstrating the efficacy of this technique. This type of approach also provides insight into the viability of possible mitigation options to successfully finish projects where conditions would not have supported the original design of such systems.

Suggested Citation

  • Ferguson, Grant, 2012. "Characterizing uncertainty in groundwater-source heating and cooling projects in Manitoba, Canada," Energy, Elsevier, vol. 37(1), pages 201-206.
    • Handle: RePEc:eee:energy:v:37:y:2012:i:1:p:201-206
    DOI: 10.1016/j.energy.2011.11.045
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    References listed on IDEAS

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    1. Mustafa Omer, Abdeen, 2008. "Ground-source heat pumps systems and applications," Renewable and Sustainable Energy Reviews, Elsevier, vol. 12(2), pages 344-371, February.
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    Cited by:

    1. Longcang Shu & Rui Xiao & Zhonghui Wen & Yuezan Tao & Peigui Liu, 2017. "Impact of Boundary Conditions on a Groundwater Heat Pump System Design in a Shallow and Thin Aquifer near the River," Sustainability, MDPI, vol. 9(5), pages 1-18, May.
    2. Zhou, Xuezhi & Gao, Qing & Chen, Xiangliang & Yu, Ming & Zhao, Xiaowen, 2013. "Numerically simulating the thermal behaviors in groundwater wells of groundwater heat pump," Energy, Elsevier, vol. 61(C), pages 240-247.
    3. Seung-Hoon Park & Yong-Sung Jang & Eui-Jong Kim, 2021. "Design and Performance Evaluation of a Heat Pump System Utilizing a Permanent Dewatering System," Energies, MDPI, vol. 14(8), pages 1-16, April.
    4. Zhou, Xuezhi & Gao, Qing & Chen, Xiangliang & Yan, Yuying & Spitler, Jeffrey D., 2015. "Developmental status and challenges of GWHP and ATES in China," Renewable and Sustainable Energy Reviews, Elsevier, vol. 42(C), pages 973-985.
    5. Liu, Guoqing & Zhou, Zhifang & Li, Zhaofeng & Zhou, Yanzhang, 2014. "Analysis and experimental study on thermal dispersion effect of small scale saturated porous aquifer," Energy, Elsevier, vol. 67(C), pages 411-421.
    6. Beck, Markus & Bayer, Peter & de Paly, Michael & Hecht-Méndez, Jozsef & Zell, Andreas, 2013. "Geometric arrangement and operation mode adjustment in low-enthalpy geothermal borehole fields for heating," Energy, Elsevier, vol. 49(C), pages 434-443.
    7. Al-Zyoud, S. & Rühaak, W. & Sass, I., 2014. "Dynamic numerical modeling of the usage of groundwater for cooling in north east Jordan – A geothermal case study," Renewable Energy, Elsevier, vol. 62(C), pages 63-72.

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