{"status":"ok","message-type":"work","message-version":"1.0.0","message":{"indexed":{"date-parts":[[2024,9,16]],"date-time":"2024-09-16T19:46:32Z","timestamp":1726515992335},"reference-count":75,"publisher":"Geological Society of London","issue":"2","license":[{"start":{"date-parts":[[2016,3,22]],"date-time":"2016-03-22T00:00:00Z","timestamp":1458604800000},"content-version":"stm-asf","delay-in-days":0,"URL":"https:\/\/doi.org\/10.15223\/policy-002"}],"content-domain":{"domain":[],"crossmark-restriction":false},"short-container-title":["PG"],"published-print":{"date-parts":[[2016,5]]},"abstract":"\n Time-lapse numerical seismic modelling based on rock physics studies was for the first time applied to analyse the feasibility of CO\n 2<\/jats:sub>\n storage monitoring in the largest Latvian offshore geological structure E6 in the Baltic Sea. The novelty of this approach was the coupling of the chemically induced petrophysical alteration effect of CO\n 2<\/jats:sub>\n -hosting rocks measured in laboratory with time-lapse numerical seismic modelling. Synthetic seismograms were computed for the E6 structure, where the sandstone reservoir of the Deimena Formation of Cambrian Series 3 (earlier Middle Cambrian) was saturated with different concentrations of CO\n 2<\/jats:sub>\n . The synthetic seismograms obtained after CO\n 2<\/jats:sub>\n injection were compared with the baseline. The following four scenarios were considered: (1) a uniform model without the alteration effect; (2) a uniform model with the alteration effect; (3) a plume model without the alteration effect; and (4) a plume model with the alteration effect.\n <\/jats:p>\n \n The presence of CO\n 2<\/jats:sub>\n in the reservoir layers can be detected by direct comparison and interpretation of plane-wave synthetic seismic sections, and is clearly observed when one displays the difference between the baseline and post-CO\n 2<\/jats:sub>\n injection synthetics. The normalized root-mean-square imaging techniques also clearly highlight the time-lapse differences between the baseline and post-injection seismic data.\n <\/jats:p>\n \n The laboratory-conducted alteration of the petrophysical properties of the reservoir had a strong influence on the reflected signals in the seismic sections. The greatest difference was revealed on seismic sections with 1% CO\n 2<\/jats:sub>\n saturation, increasing the detectability of the stored CO\n 2<\/jats:sub>\n . The difference decreased with an increase in CO\n 2<\/jats:sub>\n content.\n <\/jats:p>\n \n The saturation of CO\n 2<\/jats:sub>\n could be qualitatively estimated up to a value of 5%. Higher saturation produced a strong signal in the repeatability metrics but the seismic velocity varied so slightly with the increasing gas content that the estimation was challenging. A time shift or push-down of the reflectors below the CO\n 2<\/jats:sub>\n storage area was observed for all scenarios.\n <\/jats:p>\n \n According to changes in the amplitude and two-way travel times in the presence of CO\n 2<\/jats:sub>\n , reflection seismics could detect CO\n 2<\/jats:sub>\n injected into the deep aquifer formations even with low CO\n 2<\/jats:sub>\n saturation values.\n <\/jats:p>\n \n Our data showed the effectiveness of the implemented time-lapse rock physics and seismic methods in the monitoring of the CO\n 2<\/jats:sub>\n plume evolution and migration in the E6 offshore oil-bearing structure. The new results obtained could be applied to other prospective structures in the Baltic region.\n <\/jats:p>","DOI":"10.1144\/petgeo2015-017","type":"journal-article","created":{"date-parts":[[2016,3,23]],"date-time":"2016-03-23T02:05:29Z","timestamp":1458698729000},"page":"153-164","source":"Crossref","is-referenced-by-count":2,"title":["Petrophysical and numerical seismic modelling of CO\n 2<\/sub>\n geological storage in the E6 structure, Baltic Sea, offshore Latvia"],"prefix":"10.1144","volume":"22","author":[{"given":"Kazbulat","family":"Shogenov","sequence":"first","affiliation":[{"name":"Institute of Geology, Tallinn University of Technology, Ehitajate tee 5, Tallinn 19086, Estonia"}]},{"given":"Davide","family":"Gei","sequence":"additional","affiliation":[{"name":"Istituto Nazionale di Oceanografia e di Geofisica Sperimentale (OGS), Borgo Grotta Gigante, 42\/c, 34010 Sgonico Trieste, Italy"}]},{"given":"Edy","family":"Forlin","sequence":"additional","affiliation":[{"name":"Istituto Nazionale di Oceanografia e di Geofisica Sperimentale (OGS), Borgo Grotta Gigante, 42\/c, 34010 Sgonico Trieste, Italy"}]},{"given":"Alla","family":"Shogenova","sequence":"additional","affiliation":[{"name":"Institute of Geology, Tallinn University of Technology, Ehitajate tee 5, Tallinn 19086, Estonia"}]}],"member":"1881","published-online":{"date-parts":[[2016,3,22]]},"reference":[{"key":"e_1_3_2_2_1","unstructured":"Andrushenko J. Vzosek R. et al. 1985. Report on the results of drilling and geological and geophysical studies in the exploration well \u04156-1\/84. Unpublished exploration report of E6-1\/84 offshore well. Latvian Environmental Geology and Meteorology Centre (LEGMC) Riga Latvia (in Russian)."},{"key":"e_1_3_2_3_1","first-page":"366","volume-title":"Proceeding of the 5th International Conference on Greenhouse Control Technologies","author":"Arts R.","year":"2000","unstructured":"Arts, R., Brevik, I., Eiken, O., Sollie, R., Causse, E. & van der Meer, B. 2000. Geophysical methods for monitoring marine aquifer CO2 storage \u2013 Sleipner experiences. In: Williams, D., Durie, B., McMullan, P., Paulson, C. & Smith, A. (eds) Proceeding of the 5th International Conference on Greenhouse Control Technologies, Cairns. 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