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Optimal injection rate of water in the Guide Basin hot dry rock mining project
Author(s) -
Xiaoxue Yan,
Yanguang Liu,
Guiling Wang,
Yaoru Lu
Publication year - 2018
Publication title -
energy exploration and exploitation
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.435
H-Index - 30
eISSN - 2048-4054
pISSN - 0144-5987
DOI - 10.1177/0144598718800729
Subject(s) - petroleum engineering , extraction (chemistry) , environmental science , structural basin , injection well , water injection (oil production) , heat transfer , water extraction , production rate , geology , hydrology (agriculture) , geotechnical engineering , engineering , mechanics , chemistry , geomorphology , process engineering , chromatography , physics
The energy reserves of hot dry rock resources are huge, thus a model to predict engineering production for efficient and stable development and utilization is sought. Based on the geological characteristics of dry rock resources in Guide Basin, Qinghai Province, China, the fully coupled wellbore–reservoir simulator—T2Well—is used to model a production system using water as a heat transfer medium and simulate the system’s operation to analyze the influence of different injection rates on heat extraction. In later production stages, output temperature and reservoir pressure decrease by 10–30°C and 0.5–30 MPa, depending on injection rate; this occurs earlier and to a greater extent at higher injection rates; thermal breakthrough also occurs earlier (7–10 years). The heat extraction rate is 1–20 MW and the cumulative heat extracted is 2.1–24.2 × 10 5 J. Lower injection rates result in relatively low heat extraction rates. For maximum economic benefit, an injection rate of 50–75 kg/s is ideal.

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