All Issue

2024 Vol.29, Issue 1
29 February 2024. pp. 1-9
Abstract
References

References

1

국무조정실, 2023, 탄녹위 전체회의 보도자료: 2050 탄소중립 달성과 녹색성장 실현’을 위한 국가 전략 및 제1차 국가 기본계획 의결, https://www.opm.go.kr/opm/news/press-release.do?mode =view&articleNo=153151 [Accessed on 27 December 2023]

2

Ajayi, T., Gomes, J.S., and Bera, A., 2019, A review of CO2 storage in geological formations emphasizing modeling, monitoring and capacity estimation approaches, Pet Sci, 16, 1028-1063, doi:10.1007/s12182-019-0340-8

10.1007/s12182-019-0340-8
3

Alfredson, H.A., Mesfin, K.G., and Wolff-Boenisch, D., 2016, The syringe sampler: An inexpensive alternative borehole sampling technique for CO2-rich fluids during mineral carbon storage, Greenh Gases, 6(2), 167-177, doi:10.1002/ghg.1543

10.1002/ghg.1543
4

Blackford, J., Bull, J.M., Cevatoglu, M., Connelly, D., Hauton, C., James, R.H., Lichtschlag, A., Stahl, H., Widdicombe, S., and Wright, I.C., 2015, Marine baseline and monitoring strategies for carbon dioxide capture and storage (CCS), Int J Greenh Gas Control, 38, 221-229, doi:10.1016/j.ijggc.2014.10.004

10.1016/j.ijggc.2014.10.004
5

Boreham, C., Underschultz, J., Stalker, L., Kirste, D., Freifeld, B., Jenkins, C., and Ennis-King, J., 2011, Monitoring of CO2 storage in a depleted natural gas reservoir: gas geochemistry from the CO2CRC Otway Project, Australia, Int J Greenh Gas Control, 5(4), 1039-1054.

10.1016/j.ijggc.2011.03.011
6

Cheong, S. and Kim, B.-Y., 2020, Time-lapse seismic monitoring technique for the Otway site, KSMER, 57(1), 35-44, doi: 10.32390/ksmer.2020.57.1.035

10.32390/ksmer.2020.57.1.035
7

Corr Instruments, 2009, High-Temperature High-Pressure pH and Reference Probes Instruction Manual, https://www.salaty. com.my/wp-content/uploads/pdf/CORR INSTRUMENTS/AN/Instructions_high_P&T_pH&Ref_probes_Sep_2009.PDF [Accessed on 27 December 2023]

8

Drever, J.I., 1997, The Geochemistry of Natural Waters: Surface and Groundwater Environments, 3rd Edition, Prentice Hall, Upper Saddle River, NJ USA, 436pp

10.2134/jeq1998.00472425002700010037x
9

Freifeld, B.M., Trautz, R.C., Kharaka, Y.K., Phelps, T.J., Myer, L.R., Hovorka, S.D., and Collins, D.J., 2005, The U‐tube: A novel system for acquiring borehole fluid samples from a deep geologic CO2 sequestration experiment, J Geophys Res Solid Earth, 110, B10, doi:10.1029/2005JB003735

10.1029/2005jb003735
10

Jo, M., Chae, G.-T., Koh, D.-C., Yu, Y., and Choi, B.-Y., 2009, A Comparison study of alkalinity and total carbon measurements in CO2-rich water, J. Soil Groundwater Environ., 14(3), 1-13

11

Jones, D.G., Beaubien, S.E., Blackford, J.C., Foekema, E.M., Lions, J., De Vittor, C., West, J.M., Widdicombe, S., Hauton, C., and Queiros, A.M., 2015, Developments since 2005 in understanding potential environmental impacts of CO2 leakage from geological storage, Int J Greenh Gas Control, 40, 350-377, doi:10.1016/j.ijggc.2015.05.032

10.1016/j.ijggc.2015.05.032
12

Kampman, N., Bickle, M.J., Maskell, A., Chapman, H.J., Evans, J.P., Purser, G., Zhou, G., Schaller, M.F., Gattacceca, J.C., Bertier, P., Chen, F., Turchyn, A.V., Assayag, N., Rochelle, C., Ballentine, C.J., and Busch, A., 2014, Drilling and sampling a natural CO2 reservoir: Implications for fluid flow and CO2-fluid–rock reactions during CO2 migration through the overburden, Chem Geol, 369, 51-82, doi:10.1016/j.chemgeo.2013.11. 015

10.1016/j.chemgeo.2013.11.015
13

Kharaka, Y.K., Cole, D.R., Thordsen, J.J., Kakouros, E., and Nance, H.S., 2006, Gas–water–rock interactions in sedimentary basins: CO2 sequestration in the Frio Formation, Texas, USA, J Geochem Explor, 89(1-3), 183-186.

10.1016/j.gexplo.2005.11.077
14

Kharaka, Y.K., Thordsen, J.J., Hovorka, S.D., Nance, H.S., Cole, D.R., Phelps, T.J., and Knauss, K.G., 2009, Potential environmental issues of CO2 storage in deep saline aquifers: Geochemical results from the Frio-I Brine Pilot test, Texas, USA, Appl Geochemistry, 24(6), 1106-1112.

10.1016/j.apgeochem.2009.02.010
15

Kim, K., Lee, J.-W., Choi, S.-H., Kim, S.-H., Kim, H., Hamm, S.-Y., and Kim, R.-H., 2019, Alkalinity measurement of groundwater using Gran titration method, J. Soil Groundwater Environ., 24(1), 10-16, doi: 10.7857/JSGE.2019.24.1.010

10.7857/JSGE.2019.24.1.010
16

Litynski, J., Rodosta, T., and Brown, B., 2012, Best practices for monitoring, verification, and accounting of CO2 stored in deep geologic formations-2012 update. US DOE/NETL-2012/1568, 136pp

17

Matter, J.M., Stute, M., Sn©¡björnsdóttir, S.Ó., Oelkers, E.H., Gislason, S.R., Aradottir, E.S., Sigfusson, B., Gunnarsson, I., Sigurdardottir, H., Gunnlaugsson, E., Axelsson, G., Alfredsson, H.A., Wolff-Boenisch, D., Mesfin, K.G., Taya, D.F.R., Hall, J., Dideriksen, K., and Broecker, W.S., 2016, Rapid carbon mineralization for permanent disposal of anthropogenic carbon dioxide emissions, Science, 352(6291), 1312-1314. doi:10.1126/science.aad8132

10.1126/science.aad8132
18

Mörner, N.-A. and Etiope, G., 2002, Carbon degassing from the lithosphere, Glob Planetary Change, 33(1-2), 185-203, doi:10. 1016/S0921-8181(02)00070-X

10.1016/s0921-8181(02)00070-x
19

Myrttinen, A., Becker, V., Mayer, B., van Geldern, R., and Barth, J.A.C., 2015, Determining in situ pH values of pressurised fluids using stable carbon isotope techniques, Chem Geol, 391,1-6. https://doi.org/10.1016/j.chemgeo.2014.10.015

10.1016/j.chemgeo.2014.10.015
20

Raghuraman, B., Gustavson, G., Mullins, O.C., and Rabbito, R., 2006, Spectroscopic pH measurement for high temperatures, pressures and ionic strength, AlChE Journal, 52(9), 3257-3265.

10.1002/aic.10933
21

Roberts, J.J., Gilfillan, S.M.V., Stalker, L., and Naylor, M., 2017, Geochemical tracers for monitoring offshore CO2 stores, Int J Greenh Gas Control, 65, 218-234, doi:10.1016/j.ijggc.2017.07. 021

10.1016/j.ijggc.2017.07.021
22

Shitashima, K., Maeda, Y., and Ohsumi, T., 2013, Development of detection and monitoring techniques of CO2 leakage from seafloor in sub-seabed CO2 storage, Appl Geochemistry, 30, 114-124, doi:10.1016/j.apgeochem.2012.08.001

10.1016/j.apgeochem.2012.08.001
23

Vesper, D. J., and Edenborn, H. M., 2012, Determination of free CO2 in emergent groundwaters using a commercial beverage carbonation meter. J Hydrol, 438-439, 148-155.

10.1016/j.jhydrol.2012.03.015
24

Yang, X., Buscheck, T.A., Mansoor, K., Wang, Z., Gao, K., Huang, L., Appriou, D., and Carroll, S.A., 2019, Assessment of geophysical monitoring methods for detection of brine and CO2 leakage in drinking water aquifers, Int J Green. Gas Control, 90, 102803, doi:10.1016/j.ijggc.2019.102803

10.1016/j.ijggc.2019.102803
25

Yasemi, S., Khalili, Y., Sanati, A., and Bagheri, M., 2023, Carbon capture and storage: Application in the oil and gas industry, Sustainability, 15(19), 14486, doi:10.3390/su151914486

10.3390/su151914486
26

Zhang, R.H., Zhang, X.T., and Hu, S.M., 2008, Zr/ZrO2 sensors for in situ measurement of pH in high-temperature and-pressure aqueous solutions, Anal Chem, 80(8), 2982-2987.

10.1021/ac070684u
Information
  • Publisher :The Korean Society of Soil and Groundwater Environment
  • Publisher(Ko) :한국지하수토양환경학회
  • Journal Title :Journal of Soil and Groundwater Environment
  • Journal Title(Ko) :지하수토양환경
  • Volume : 29
  • No :1
  • Pages :1-9
  • Received Date : 2023-12-28
  • Revised Date : 2024-01-14
  • Accepted Date : 2024-01-31