Open Access
Numéro
Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles
Volume 75, 2020
Numéro d'article 76
Nombre de pages 15
DOI https://doi.org/10.2516/ogst/2020068
Publié en ligne 27 octobre 2020
  • Arnold C., Hak A.A., Feldrappe H. (2014) Advanced exploration methods for dimensioning and optimizing of gas storage caverns at storage site Bernburg/Peissen (Central Germany), in: Proc. SMRI Fall Meeting, Groningen, The Netherlands. [Google Scholar]
  • Baumann T.S., Kaus B.J., Popov A.A. (2018) Deformation and stresses related to the Gorleben salt structure: Insights from 3D numerical model, Proc. Conf. Mech.Beh. of Salt, Saltmech IX, pp. 15–27. [Google Scholar]
  • Baumann T., Kaus B., Popov A., Urai J. (2020) The 3D stress state within typical salt structures, in: EGU General Assembly 2020, Online, 4–8 May 2020. EGU2020-15513. https://doi.org/10.5194/egusphere-egu2020-15513. [Google Scholar]
  • Bérest P. (2017) Cases, causes and classifications of craters above salt caverns, Int. J. Rock Mech. Min. Sci. 100, 318–329. [CrossRef] [Google Scholar]
  • Bérest P., Brouard B. (2003) Safety of salt caverns used for underground storage blow out; mechanical instability; seepage; cavern abandonment, Oil Gas Sci. Technol. - Rev. IFP Energies nouvelles 58, 361–384. [CrossRef] [Google Scholar]
  • Bérest P., Bergues J., Brouard B. (1999) Review of static and dynamic compressibility issues relating to deep underground salt caverns, Int. J. Rock Mech. Min. Sci. 36, 1031–1049. [CrossRef] [Google Scholar]
  • Bérest P., Brouard B., Karimi-Jafari M., Van Sambeek L. (2007) Transient behavior of salt caverns. Interpretation of mechanical integrity tests, Int. J. Rock Mech. Min. Sci. 44, 767–786. [CrossRef] [Google Scholar]
  • Bérest P., Réveillère A., Evans D., Stöwer M. (2019) Review and analysis of historical leakages from storage salt caverns wells, Oil Gas Sci. Technol. - Rev. IFP Energies nouvelles 74, 27. https://doi.org/10.2516/ogst/2018093. [CrossRef] [Google Scholar]
  • Bernhardt H., Steijn J. (2013) Influence of tubing diameters on lifting methods during gas first fill of gas storage caverns – A practical example in the Nüttermoor Cavern Field, in: Proc. SMRI Spring Meeting, La Fayette, Louisiana. [Google Scholar]
  • Brouard Consulting (2019) Over-pressured caverns and leakage mechanisms project – KEM 17, Report for the State Supervision of Mines (SodM), The Netherlands, 151 p. [Google Scholar]
  • Brouard B., Karimi-Jafari J., Bérest P. (2007) Onset of tensile effective stresses in gas storage caverns, in: Proc. SMRI Fall Meeting, Halifax, New Scotland, Canada. [Google Scholar]
  • Brückner D., Lindert A., Wiedemann M. (2003) The Bernburg Test Cavern –A model study of cavern abandonment, in: Proc. SMRI Fall Meeting, Chester, UK. [Google Scholar]
  • Bruno M.S., Dusseault M.B. (2002) Geomechanical analysis of pressure limits for thin bedded salt caverns, in: Proc. SMRI Spring Meeting, Banff, Alberta. [Google Scholar]
  • Cartwright M.J., Ratigan J.L. (2005) Case history – Solution mining a cavern that intersects a plane of preferred dissolution, in: Proc. SMRI Fall Meeting, Nancy, France. [Google Scholar]
  • Chabannes C.R. (2005) Storage pressure limits – Egan facility, in: Ratigan, et al., Proc. SMRI Spring Meeting, Syracuse, New York, Panel Discussion. [Google Scholar]
  • Colcombet B., Guerreiro V., Lúcio J. (2008) An overview of the Carriço Gas Storage Project development, in: Proc. SMRI Spring Meeting, Porto, Portugal. [Google Scholar]
  • Crotogino F. (1995) External well mechanical integrity testing/performance, data evaluation and assessment, in: Proc. SMRI Research Project, Report no. 95-0001-S. [Google Scholar]
  • de Laguérie P., Durup G. (1994) Natural gas storage cavities at Manosque, France, in: Proc. SMRI Fall Meeting, Hannover, Germany. [Google Scholar]
  • Djizanne H., Bérest P., Brouard B. (2012) Tensile effective stresses in hydrocarbon storage caverns, in: Proc. SMRI Fall Meeting, Bremen, Germany. [Google Scholar]
  • Duquesnoy A., de Lange B. (2015) Abandonment of very deep brine-filled caverns at Frisia Salt Harlingen, in: Proc. SMRI Spring Meeting, Rochester, New York. [Google Scholar]
  • Durup J.G. (1990) Long term tests for tightness evaluations with brine and gas in salt (Field test n°1 with brine). Research Project Report n°90-2-SMRI. [Google Scholar]
  • Durup J.G. (1994) Long term tests for tightness evaluations with brine and gas in salt (Field test n°2 with gas). Research Project Report n°94-002-S. [Google Scholar]
  • Fansheng B., Guangjie Y., Ruichen S. (2010) Solution mining and injection-production technology of gas storage in deep salt cavern, in: Proc. SMRI Fall Meeting, Leipzig, Germany. [Google Scholar]
  • Fawthrope R., Bonnier N., Bublak R., Schubert J., Jackson C., Robb T. (2013) A first completion design in the UK to use welded completions for a new large onshore gas storage development in salt caverns, in: Proc. SMRI Spring Meeting, La Fayette, Louisiana. [Google Scholar]
  • Fokker P.A., In’t Veld C., Bakker T.W., Jagt M. (2004) 10 years’ experience in squeeze mining, in: Proc. SMRI Fall Meeting, Berlin, Germany. [Google Scholar]
  • Guo F., Morgenstern N.R., Scott J.D. (1993) Interpretation of hydraulic fracturing pressure: A comparison of eight methods used to identify shut-in pressure, Int. J. Rock Mech. Sci. 30, 6, 627–631. [CrossRef] [Google Scholar]
  • Hoelen Q., Dijk H., Wilke F., Wippich M. (2010) Gas storage in salt caverns Zuidwending – The Netherlands, in: Proc. SMRI Fall Meeting, Leipzig, Germany. [Google Scholar]
  • Horvath P.L., Wille S.E. (2009) Determination of formation pressures in rock salt with regard to cavern storage, in: Proc. SMRI Spring Meeting, Krakow. [Google Scholar]
  • Igoshin A., Kazaryan V., Khloptsov V., Novenkov Y., Salokhin V. (2010) Design, technology and experience of cavern construction at Kaliningrad UGS in Russia, in: Proc. SMRI Fall Meeting, Leipzig, Germany. [Google Scholar]
  • Istvan J.A. (1998) Potential for storage of natural gas in the hutchinson salt member of the Wellington Formation of South-Central Kansas, in: Proc. SMRI Fall Meeting, Roma, Italy. [Google Scholar]
  • Johansen J.I. (2010) 25 years of lifetime history for seven Energinet.dk gas caverns in the L.I. Torup Zechstein salt dome in Jutland, Denmark, in: Proc. SMRI Spring Meeting, Grand Junction, Colorado. [Google Scholar]
  • Johnson D.O. (2003) Regulatory response to unanticipated geo-mechanical events effecting gas storage cavern operations in Texas, in: Proc. SMRI Spring Meeting, Houston, Texas. [Google Scholar]
  • Kelly S.L., Fleninken J.A. (1999) Development of cement evaluation quality control measures for cavern wells, in: Proc. SMRI Spring Meeting, Las Vegas, Nevada. [Google Scholar]
  • Kirmic A., Rałowicz B. (2003) The selected cases of surveying salt caverns geometry in Turquish Arabali Field made by Echosonda-Chemkop, in: Proc. SMRI Fall Meeting, Chester, UK. [Google Scholar]
  • Klafki M., Bannach A., Wagler T. (1998) Parameter determination for planning and constructing of gas cavern storage, in: Proc. SMRI Fall Meeting, Roma, Italy. [Google Scholar]
  • Kupfer D.H. (1990) Anomalous features in the Five Islands Salt Stocks, Louisiana, Trans. Gulf Coast Assoc. Geo. Soc. XL, 425–437. [Google Scholar]
  • Looff K. (2017) The impact of anomalous salt and boundary shear zones on salt cavern geometry, avern operations, and cavern integrity, in: Proc. SMRI Spring Meeting, Albuquerque, New Mexico. [Google Scholar]
  • Lux K.H., Düsterloh U., Wolters R. (2006) Long-term behaviour of sealed brine-filled cavities in rock salt mass – A new approach for physical modelling and numerical simulation, in: Proc. SMRI Fall Meeting, Rapid City, South Dakota. [Google Scholar]
  • Manivannan S., Bérest P. (2019) Transient closure of a cylindrical hole in a salt formation considered as a Norton-Hoff medium, Rock Mech. Rock Eng. 52, 2701–2707. https://doi.org/10.1007/s00603-018-1732-6. [Google Scholar]
  • McCauley T.V., Ratigan J.L., Sydansk R.D., Wilson S.D. (1998) Characterization of the brine loss zone and development of a polymer gel plugging agent to repair Louisiana Offshore Oil Port (LOOP) Cavern 14, in: Proc. SMRI Fall Meeting, Roma, Italy. [Google Scholar]
  • McLeod R., Cooke D., Slingsby J. (2011) The repair of a gas storage cavern well after failure of a pre-operational Mechanical Integrity Test, in: Proc. SMRI Fall Meeting, York, UK. [Google Scholar]
  • Minkley W., Knauth M., Wüste U. (2012) Integrity of salinar barriers under consideration of discontinuum-mechanical aspects, in: Proc. Mech. Beh. of Salt VII, Paris, France, April 16–19, 2012, Taylor & Francis Group, London, pp. 469–478. [Google Scholar]
  • Mullaly M.A.C. (1982) Underground storage in thin salt layers on Teesside, in: Proc. SMRI Fall Meeting, Manchester UK. [Google Scholar]
  • Nicot J.P. (2009) A survey of oil and gas wells in the Texas Gulf Coast, U.S.A., and implications for geological sequestration of CO2, Environ. Geol. 57, 1625–1638. [CrossRef] [Google Scholar]
  • Pellizzaro C., Bergeret G., Leadbetter A., Charnavel Y. (2011) Thermomechanical behavior of Stublach gas storage caverns, in: Proc. SMRI Fall Meeting, York, UK. [Google Scholar]
  • Pereira J.C. (2012) Common practices – gas cavern site characterization, design, construction, maintenance, and operation. SMRI Project Report RR2012-03. [Google Scholar]
  • Poyer C., Cochran M. (2003) Kansas underground storage regulations, in: Proc. SMRI Spring Meeting, Houston, Texas. [Google Scholar]
  • Quintanilha de Menezes J.E., Guerreiro V.N., Lúcio J.M. (2001) Natural gas underground storage at Carriço in Portugal, in: Proc. SMRI Fall Meeting, Albuquerque, New Mexico. [Google Scholar]
  • Réveillère A., Bérest P., Evans D.J., Stöwer M., Chabannes C., Koopmans T., Bolt R. (2017) SMRI Research Report RR2017-2. Past salt caverns incidents database Part 1: Leakage, overfilling and blow-out, 124 p. https://www.solutionmining.org/. [Google Scholar]
  • Rokahr R., Staudtmeister K., Zander-Schiebenhöfer D. (1998) Rock mechanical determination of the maximum internal pressure for gas storage caverns in rock salt, in: Proc. SMRI Fall Meeting, Roma, Italy. [Google Scholar]
  • Rokahr R.B., Hauck R., Staudtmeister K., Zander-Schiebenhöfer D.Z. (2000) The results of the pressure build-up test in the brine filled cavern Etzel K102, in: Proc. SMRI Fall Meeting, San Antonio, Texas. [Google Scholar]
  • Rokahr R.B., Staudtmeister K., Zander-Schiebenhöfer D. (2003) High pressure cavern analysis, in: Proc. SMRI Spring Meeting, Houston, Texas. [Google Scholar]
  • Rummel F., Benke K., Denzau H. (1996) Hydraulic fracturing stress measurements in the Krummhörn gas storage field, North-western Germany, in: Proc. SMRI Spring Meeting, Houston. [Google Scholar]
  • Schmidt T. (1993) Fracture tests for determining primary stress conditions in salt deposits provide clues to the rock mechanics of salt caverns, in: Proc. 7th Symp. on Salt, Elsevier, Vol. 1, pp. 135–140. [Google Scholar]
  • Schreiner W., Japël G., Popp T. (2004) Pneumatic fracture tests and numerical modeling for evaluation of the maximum gas pressure capacity and the effective stress conditions in the leaching horizon of storage caverns in salt diapirs, in: Proc. SMRI Fall Meeting, Berlin, Germany. [Google Scholar]
  • Schreiner W., Lindert A., Brückner D. (2010) IfG Cavern design concept. Rock mechanical aspects for the development and operation of rock salt caverns, in: Proc. SMRI Fall Meeting, Leipzig, Germany. [Google Scholar]
  • Schweinsburg H.J., Schneider R. (2010) Etzel Cavern storage – Rock mechanical and solution mining aspects relating to cavern field expansion, in: Proc. SMRI Spring Meeting, Grand Junction, Colorado. [Google Scholar]
  • Sicsic P., Bérest P. (2014) Thermal cracking following a blowout in a gas storage cavern, Int. J. Rock Mech. Min. Sci. 71, 320–329. [CrossRef] [Google Scholar]
  • Slingsby J., Melody A., McLeod A. (2011) The removal of damaged dewatering tubing from a high-pressure storage well, in: Proc. SMRI Fall Meeting, York, UK. [Google Scholar]
  • Smit A.J. (2019) Sudden pressure drop in Nedmag cavern cluster, in: Proc. SMRI Fall Meeting, Berlin, Germany. [Google Scholar]
  • Staudtmeister K., Schmidt T. (2000) Comparison of different methods for the estimation of primary stresses in rock salt mass with respect to cavern design, in: Proc. 8th World Salt Symposium, Elsevier, Amsterdam, Vol. 1, pp. 331–335. [Google Scholar]
  • Thiel W.R. (1993) Precision methods for testing the integrity of solution mined underground storage caverns, in: Proc. 7th Symp on Salt, Elsevier, Amsterdam, Vol. 1, pp. 377–383. [Google Scholar]
  • Thoms R.L., Neal J.T. (1992) Effects of anomalous features on solution mining of storage caverns in domal salt, in: Proc. SMRI Fall Meeting, Houston, Texas. [Google Scholar]
  • Van Heekeren H., Bakker T., Duquesnoy T., de Ruiter V., Mulder L. (2009) Abandonment of an extremely deep cavern at Frisia Salt, in: Proc. SMRI Fall Meeting, Krakow, Poland. [Google Scholar]
  • Van Sambeek L., Bérest P., Brouard B. (2005) Improvements in Mechanical Integrity Tests for solution-mined caverns used for mineral production or liquid-product storage, The Solution Mining Research Institute, Topical Report RSI-1799, 142 p. [Google Scholar]
  • Wagler T., Draijer A. (2013) Nitrogen buffer for large scale conditioning of H- to L-Gas. How to fit an existing cavern to capacity and performance requirements? in: Proc. SMRI Fall Meeting, Avignon, France. [Google Scholar]
  • Wang L., Bérest P., Brouard B. (2015) Mechanical behavior of salt caverns: Closed-form solutions vs. numerical computations, Rock Mech. Rock Eng. 48, 6, 2369–2382. [Google Scholar]
  • Wawersik W., Stone C.M. (1989) A characterization of pressure records in inelastic rock demonstrated by hydraulic fracturing measurements in salt, Int. J. Rock Mech. Min. Sci 26, 6, 613–627. [CrossRef] [Google Scholar]
  • Wolters R., Lux K.H., Düsterloh U. (2012) Evaluation of rock salt barriers with respect to tightness: Influence of thermomechanical damage, fluid infiltration and sealing/healing, in: Proc. Mechanical Behavior of Salt VII, Taylor & Francis Group, London, pp. 425–434. [Google Scholar]
  • Yang H., Guo K., Li J. (2015) Analysis on long-term operation and interval optimization of pressure for single cavity injection/production in underground salt cavern gas storage – Taking the cavity of Well Xi-2 in salt cavern gas storage in Jintan as an example, Oil Gas Stor. Transp. 34, 9, 945–950. [Google Scholar]
  • Zander-Schiebenhöfer D. (2002) High pressure cavern analysis, SMRI Project No. 02-0002, prepared by Institut für Unterirdisches Bauen (IUB), Hannover University, Germany, and Kavernen Bau und Betriebs GmbH, Hannover, Germany, for the Solution Mining Research Institute. [Google Scholar]
  • Zhao Y., Ma J., Zheng Y., Wang Z., Zhang H. (2013) Determination of operation pressure limit for injection-production cycle of salt-cavern gas storage in Huai’an City, Oil Gas Stor. Transp. 32, 5, 526–531. [Google Scholar]

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