2016
DOI: 10.1016/j.geothermics.2016.04.008
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Turkish geothermal fields as natural analogues of CO 2 storage sites: Gas geochemistry and implications for CO 2 trapping mechanisms

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Cited by 32 publications
(12 citation statements)
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References 58 publications
(106 reference statements)
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“…In this respect, any possible addition of CO 2 gas to the system may lead to its fixation by carbonate precipitation in the long term. This is also in agreement with the recent findings from the He‐CO 2 gas systematics of Turkish geothermal systems, which, based on Rayleigh fractionation of CO 2 / 3 He and δ 13 C values, suggest that high temperatures increase the relative control of mineral trapping on CO 2 ‐fixation, stabilizing up to 80% of the emplaced CO 2 …”
Section: Resultssupporting
confidence: 92%
See 1 more Smart Citation
“…In this respect, any possible addition of CO 2 gas to the system may lead to its fixation by carbonate precipitation in the long term. This is also in agreement with the recent findings from the He‐CO 2 gas systematics of Turkish geothermal systems, which, based on Rayleigh fractionation of CO 2 / 3 He and δ 13 C values, suggest that high temperatures increase the relative control of mineral trapping on CO 2 ‐fixation, stabilizing up to 80% of the emplaced CO 2 …”
Section: Resultssupporting
confidence: 92%
“…Based on the fact that these geothermal fields represent hydrothermal systems rich in CO 2 , the compiled data are evaluated via geochemical modelling to identify possible reactions between CO 2 , water, and rocks in terms of CO 2 fixation. This study complements the most recent study focused on He‐CO 2 isotope systematics of the Turkish geothermal systems for assessment of CO 2 ‐fixation mechanisms.…”
Section: Introductionsupporting
confidence: 53%
“…However, other studies demonstrated the strong influence of isotopic fractionation on the δ 13 C CO2(aq) and δ 13 C TDIC values, which were related to multi-step CO 2 dissolution (e.g. Weinlich, 2005;Gilfillan et al, 2009;Güleç and Hilton, 2016) and carbonate precipitation/dissolution (e.g. Ohwada et al, 2007;Gilfillan et al, 2009;Barry et al, 2014;Güleç and Hilton, 2016).…”
Section: Introductionmentioning
confidence: 97%
“…Weinlich, 2005;Gilfillan et al, 2009;Güleç and Hilton, 2016) and carbonate precipitation/dissolution (e.g. Ohwada et al, 2007;Gilfillan et al, 2009;Barry et al, 2014;Güleç and Hilton, 2016). These secondary chemical processes are considered to commonly affect thermal fluids from volcanic and hydrothermal areas (Simmons and Christenson, 1994 and references therein).…”
Section: Introductionmentioning
confidence: 99%
“…In fact, the fluids trapped in Pamukkale travertines originated from the atmosphere‐mantle‐crust ternary mixing of the gases dissolved in the circulating waters. Four major thermal springs ( T = 35.5 °C; Şimşek et al, ) emerging at the edge of Pamukkale travertine area discharge CO 2 ‐dominated gases with 3 He/ 4 He up to 3.7 Ra (Ercan et al, ; Güleç et al, ; Mutlu et al, ; Karakuş & Şimşek, ; Güleç & Hilton, ; Pfanz et al, , Figure ). Those magmatic‐like values are the highest recorded within the Büyük Menderes graben (Karakuş & Şimşek, ; Şimşek, ), suggesting that this area is characterized by a network of joints, fractures, and lithospheric faults that permit the rise of deep fluids, although evidences of magmatism were found in the neighboring area.…”
Section: Discussionmentioning
confidence: 99%