Comparison of cavern formation in massive salt blocks with single-well and two-well systems

Abstract The authors of this article have conducted a comparison study to investigate the construction characteristics of both single-well and two-well systems; two model experiments were conducted using large-size moulded rock salt specimens. An experimental platform was designed to simulate the process of leaching and a theoretical equation of calculating and predicting the cavern volume was derived. The experimental results illustrate that the variation trend of brine instantaneous concentration for single-well and two-well systems is identical, and an equilibrium state appears at last. Moreover, the equilibrium is reached early, after 5–8 pumping cycles. The construction rate in the two-well system is faster than the single-well system, and this phenomenon is observed mainly in the early periods (1–3 pumping cycles). Besides, the cavern shapes for the two construction methods are also found to be distinctive. The cavern of the single-well system has a circular cross section and an axisymmetric profile while that of the two-well system has an ovular cross section and a non-axisymmetric profile.

[1]  Hossein Kazemi,et al.  Mechanism of Flow and Controlled Dissolution of Salt in Solution Mining , 1964 .

[2]  Yang Chunhe SIMILAR EXPERIMENTAL STUDY OF CAVITY BUILDING USING LARGE-SIZE MOLDED SALT ROCK , 2012 .

[3]  A. Özarslan Large-scale hydrogen energy storage in salt caverns , 2012 .

[4]  Jaak J.K. Daemen,et al.  Permeability characteristics of mudstone cap rock and interlayers in bedded salt formations and tightness assessment for underground gas storage caverns , 2015 .

[5]  Yufei Tan,et al.  Model validation and stability analysis for operation projects in Jintan Salt Cavern for strategic oil storage of China , 2015 .

[6]  Q. Dan STUDY ON SEALABILITY OF UNDERGROUND ENERGY STORAGE IN DEEP SALT FORMATION IN YUNYING AREA,HUBEI PROVINCE , 2007 .

[7]  Hongling Ma,et al.  Failure analysis of thick interlayer from leaching of bedded salt caverns , 2015 .

[8]  Chunhe Yang,et al.  Mechanical properties of Jintan mine rock salt under complex stress paths , 2012 .

[9]  Zhang Yong-feng,et al.  Prospects of and challenges to natural gas industry development in China , 2014 .

[10]  F. W. Jessen,et al.  Mechanism of the Dissolution of Salt in the Formation of Underground Salt Cavities , 1964 .

[11]  Tongtao Wang,et al.  Feasibility analysis of using abandoned salt caverns for large-scale underground energy storage in China , 2015, Applied Energy.

[12]  Hongling Ma,et al.  Safety evaluation of gas storage caverns located close to a tectonic fault , 2015 .

[13]  Wang Hanpen TESTING DEVICE DEVELOPMENT FOR CAVERN SIMULATION AND MORPHOLOGY CONTROL IN SALT ROCK , 2014 .

[14]  Jeoung Yoon Underground Storage of CO2 and Energy , 2010 .

[15]  British Petroleum , 2022, Nature.