nach oben

vorheriger Artikel Estimation of Biot’s effective stress coefficie...

nächster Artikel A theoretical comparison of cement slurry mixin...

Tipp

The chemical dissolution and physical migration of minerals induced during CO₂ laboratory experiments: their relevance for reservoir quality

Zeitschrift:: Environmental Earth Sciences > Ausgabe 11/2015

Autoren:: Dieter Pudlo, Steven Henkel, Viktor Reitenbach, Daniel Albrecht, Frieder Enzmann, Katja Heister, Geertje Pronk, Leonhard Ganzer, Reinhard Gaupp

Abstract

The characterization of the quality and storage capacity of geological underground reservoirs is one of the most important and challenging tasks for the realization of carbon capture and storage (CCS) projects. One approach for such an evaluation is the upscaling of data sets achieved by laboratory CO₂ batch experiments to field scale. (Sub)-microscopic, petrophysical, tomographic, and chemical analytical methods were applied to reservoir sandstone samples from the Altmark gas field before and after static autoclave batch experiments at reservoir-specific conditions to study the relevance of injected CO₂ on reservoir quality. These investigations confirmed that the chemical dissolution of pore-filling mineral phases (carbonate, anhydrite), associated with an increased exposure of clay mineral surfaces and the physical detachment and mobilization of such clay fines (illite, chlorite) are most appropriate to modify the quality of storage sites. Thereby the complex interplay of both processes will affect the porosity and permeability in opposite ways—mineral dissolution will enhance the rock porosity (and permeability), but fine migration can deteriorate the permeability. These reactions are realized down to ~µm scale and will affect the fluid–rock reactivity of the reservoirs, their injectivity and recovery rates during CO₂ storage operations.

Bitte loggen Sie sich ein, um Zugang zu diesem Inhalt zu erhalten

Jetzt einloggen Kostenlos registrieren

Sie möchten Zugang zu diesem Inhalt erhalten? Dann informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 69.000 Bücher
über 500 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Umwelt
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Testen Sie jetzt 30 Tage kostenlos.

Jetzt informieren

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 50.000 Bücher
über 380 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Umwelt
Maschinenbau + Werkstoffe

Testen Sie jetzt 30 Tage kostenlos.

Jetzt informieren

Arvidson RS, Ertan IE, Amonette JE, Lüttge A (2003) Variation in calcite dissolution rates: a fundamental problem. Geochim Cosmochim Acta 67(9):1623–1634 CrossRef

Bedrikovetsky P, Siqueira FD, Furtado C, de Souza ALS (2010) Quantitative theory for fines migration and formation damage. In: Paper (SPE 128384) presented at the International Symposium and Exhibition on Formation Damage Control of the Society of Petroleum Engineers. Layayette, USA, p 22

Blum AE, Stillings LL (1995) Chemical weathering of feldspars. In: White AF, Brantley SL (eds) Chemical weathering rates of silicate minerals. Min Soc Am Rev Min vol 31. Washing ton, pp 291–351

Bourquin S, Bercovici A, López-Gómez J, Diez JB, Broutin J, Ronchi A, Durand M, Arché A, Linol B, Amour F (2011) The Permian-Triassic transition and the onset of Mesozoic sedimentation at the northwestern peri-Tethyan domain scale: palaeogeographic maps and geodynamic implications. Palaeogeogr Palaeoclimatol Palaeoecol 299:265–280 CrossRef

Bowker KA, Shuler PJ (1991) Carbon dioxide injection and resultant alteration of the weber sandstone, rangely field Colorado. AAPG Bull 75:1489–1499

Brantley SL, Mellott NP (2000) Surface area and porosity of primary silicate minerals. Am Mineral 85:1767–1783

Brunauer S, Emmett PH, Teller E (1938) Adsorption of gases in multimolecular layers. J Am Chem Soc 60:309–319 CrossRef

Fischer S, Liebscher A, Wandrey M, The CO2SINK Group (2010) CO ₂–brine–rock interaction—first results of long-term exposure experiments at in situ P-T conditions of the Ketzin CO ₂ reservoir. Geochem Chemie der Erde 70:155–164 CrossRef

Gast RE, Dusar M, Breitkreuz C, Gaupp R, Schneider JW, Stemmerik L, Geluk MC, Geißler M, Kiersnowski H, Glennie KW, Kabel S, Jones, NS (2010) Rotliegend. In: Doornenbal JC, Stevenson AG (eds) Petroleum geological atlas of the southern permian basin area. EAGE Publications b.v. (Houten), pp 101–121

Ganzer L, Reitenbach V, Gaupp R, Pudlo D, De Lucia M, Albrecht D, Wienand J (2012) Auswirkung von CO ₂ Injektionen auf die mineralogisch-geochemischen und petrophysikalischen Eigenschaften von Rotliegend Sandstein. DGMK-Tagungsbericht, DGMK/ÖGEW-Frühjahrstagung, Celle/Germany, pp 233–242

Geluk MC (2007) Triassic. In: Wong, T E., Batjes, DAJ., De Jager, J. (eds) Geology of the Netherlands. Royal Netherlands Academy of Arts and Sciences, pp 85–106

Gouze P, Luquot L (2011) X-ray microtomography characterization of porosity, permeability and reactive surface changes during dissolution. J Contam Hydrol 120–121:45–55 CrossRef

Harstad AO, Stipp SLS (2007) Calcite dissolution: effects of trace cations naturally present in Iceland spar calcites. Geochim Cosmochim Acta 71:56–70 CrossRef

Heister K (2014) The measurement of the specific surface area of soils by gas and polar liquid adsorption methods—Limitations and potentials. Geoderma 216:75–87 CrossRef

Henkel S, Pudlo D, Werner L, Enzmann F, Reitenbach V, Albrecht D, Würdemann H, Heister K, Ganzer L, Gaupp R (2014) Mineral reactions in the geological underground induced by H ₂ and CO ₂ injections. Energy Proc. 63:8026–8035 CrossRef

Huq F, Blum P, Marks MAW, Nowak M, Haderlein SB, Grathwohl P (2012) Chemical changes in fluid composition due to CO ₂ injection in the Altmark gas field: preliminary results from batch experiments. Environ Earth Sci 67:385–394 CrossRef

Huq F, Haderlein SB, Schröder C, Marks MAW, Grathwohl P (2014) Effect of injected CO ₂ on geochemical alteration of the Altmark gas reservoir in Germany. Environ Earth Sci 72:3655–3662 CrossRef

Katz DL, Legatski MW, Tek MR (1966) How water displaces gas from porous media. Oil Gas J 64:55–60

Kirste DM, Watson MN, Tingate PR (2004) Geochemical modelling of CO ₂–water–rock interaction in the Pretty Hill Formation, Otway basin. In: Boult PJ, Johns DR, Lang SC (eds) Eastern Australasian basins. Symposium II, Spec. publ., Adelaide Petrol Explor Association of Australia, Adelaide, pp 403–411

Kummerow J, Spangenberg E (2011) Experimental evaluation of the impact of the interactions of CO ₂–SO ₂, brine, and reservoir rock on petrophysical properties: a case study from the Ketzin test site Germany. Geochem Geophys Geosyst. doi: 10.1029/2010GC003469

Lee YJ, Morse JW (1999) Calcite precipitation in synthethic veins: implications for the time and fluid volume necessary for vein filling. Chem Geol 156:151–170 CrossRef

Lemon P, Zeinijahromi A, Bedrikovetsky P, Shahin I (2011) Effects of injected water chemistry on waterflood sweep efficiency via induced fines migration. In: Paper (SPE 140141) presented at the International Symposium on Oilfield Chemistry. Woodlands/USA, p 17

Macht F, Eusterhues K, Pronk GJ, Totsche KU (2011) Specific surface area of clay minerals: comparison betwenn atomic force microscopy measurements and bulk-gas (N ₂) and –liquid (EGME) adsorption methods. Appl Clay Sci 53:20–26 CrossRef

Maclnnis IN, Brantley SL (1992) The role of dislocations and surface morphology in calcite dissolution. Geochim Cosmochim Acta 56:1113–1126 CrossRef

Maclnnis IN, Brantley SL (1993) Development of etch pit size distributions on dissolving minerals. Chem Geol 105:31–49 CrossRef

Myrttinen A, Becker V, Nowak M, Zimmer M, Pilz P, Barth JAC (2012) Analyses of pre-injection reservoir data for stable carbon isotope trend predictions in CO ₂ monitoring: preparing for CO ₂ injection. Environ Earth Sci 67:473–479 CrossRef

Nowak ME, Van Geldern R, Myrttinen A, Zimmer M, Barth JAC (2014) High-resolution stable carbon isotope monitoring indicates variable flow dynamic patterns in a deep saline aquifer at the Ketzin pilot site (Germany). Appl Geochem 47:44–51 CrossRef

Ochi J, Vernoux JF (1998) Permeability decrease in sandstone reservoirs by fluid injection—Hydrodynamic and chemical effects. J Hydrol 208:237–248 CrossRef

Pudlo D, Reitenbach V, Albrecht D, Ganzer L, Gernert U, Wienand J, Kohlhepp B, Gaupp R (2012) The impact of diagenetic fluid–rock reactions on Rotliegend sandstone composition and petrophysical properties (Altmark area, central Germany). Environ Earth Sci 67:1113–1126 CrossRef

Pusch G, Meyn R, Ionescu GF, Awemo KN, May F (2009) Work package 4—process modeling. In: Pusch G (ed) Feasibility study on the potential of CO ₂ storage for enhanced gas recovery in mature german gas reservoirs (CSEGR). Final report of BMBF research project 03G0627A, Germany, pp 135–176

Reinhold K, Müller C, Riesenberg C (2011) Informationssystem Speichergesteine für den Standort Deutschland -Synthese-. Bundesanstalt für Geowissenschaften und Rohstoffe, Berlin/Hannover

Rimmelé G, Barlet-Gouédard V, Renard F (2009) Evolution of the petrophysical and mineralogical properties of two reservoir rocks under thermodynamic conditions relevant for CO ₂ geolgical storage at 3 km depth. Oil Gas Sci Technol Rev IFP 65:565–580

Rimstidt JD, Barnes HL (1981) The kinetics of silica-water reactions. Geochim Cosmochim Acta 44:1683–1699 CrossRef

Ross G (1982) The Dissolution effects of CO ₂–brine systems on permeability of UK and North Sea calcareous sandstones. In: Paper (SPE/DOE 10685) presented at the 3rd Joint Symposium on Enhanced Oil Recovery of the Society of Petroleum Engineers, Tulsa/USA, pp 154–162

Sayegh SG, Krause FF, Girard M, DeBree C (1990) Rock/fluid interactions of carbonated brines in a sandstone reservoir: Pembina Cardium, Alberta, Canada. SPE Form Eval 5:399–405 CrossRef

Sell K, Enzmann F, Kersten M, Spangenberg E (2013) Microtomographic quantification of hydraulic clay mineral displacement effects during a CO ₂ sequestration experiment with saline aquifer sandstone. Environ Sci Technol 47:198–204 CrossRef

Shiraki R, Dunn TL (2000) Experimental study on water-rock interactions during CO ₂ flooding in the Tensleep Formation, Wyoming, USA. Appl Geochem 15:265–279 CrossRef

Straley C, Rossini D, Vinegar H, Tutunjian P, Morriss C (1994) Core analysis by low field NMR. In: Proceedings of the International Symposium of the Society of Core Analysts. Stavanger/Norway. Paper SCA-9404

Ziegler K (2006) Clay minerals of the Permian Rotliegend Group in the North Sea and adjacent areas. Clay Min 41:355–393 CrossRef

Titel: The chemical dissolution and physical migration of minerals induced during CO2 laboratory experiments: their relevance for reservoir quality
Autoren:: Dieter Pudlo
Steven Henkel
Viktor Reitenbach
Daniel Albrecht
Frieder Enzmann
Katja Heister
Geertje Pronk
Leonhard Ganzer
Reinhard Gaupp
Publikationsdatum: 01.06.2015
DOI: https://doi.org/10.1007/s12665-015-4411-x
Verlag: Springer Berlin Heidelberg
Zeitschrift: Environmental Earth Sciences
Ausgabe 11/2015
Print ISSN: 1866-6280
Elektronische ISSN: 1866-6299

Springer Professional

Tipp

Weitere Artikel dieser Ausgabe durch Wischen aufrufen

Abstract

Bitte loggen Sie sich ein, um Zugang zu diesem Inhalt zu erhalten

Sie möchten Zugang zu diesem Inhalt erhalten? Dann informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Weitere Artikel der Ausgabe 11/2015

Geostatistical analysis for spatially characterizing hydrochemical features of springs in Taiwan

Recession hydrographs and time series analysis of springs monitoring data: application on porous and shallow aquifers in mountain areas (Aosta Valley)

Effect of freeze–thaw on hydraulic conductivity and microstructure of soft soil in Shanghai area

A new approach to obtaining relative permeability curves during chemical flooding process in a low-permeable reservoir

High iron concentration and pH change detected using statistics and geostatistics in crystalline basement equatorial region

Two decades of trends in ground water chemical composition in The Great Vasyugan Mire, Western Siberia, Russia