Solution mining technology of enlarging space for thick-sandwich salt cavern storage

Solution mining technology of enlarging space for thick-sandwich salt cavern storage

Aiming at the current problem that thick sandwiches are commonly developed in domestic salt mines, this study investigated whether thick sandwiches would collapse to allow connection of salt deposits above and below, consequently expand single cavern capacity by laboratory experiments, numerical sim...

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Main Authors: Yali ZHENG, Yanjie ZHAO, Guosheng DING, Zhide WU, Shouquan LU, Xin LAI, Xiaosong QIU, Dong YANG, Bingjie HAN, Lingxin WANG
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2017-02-01
Series:Petroleum Exploration and Development
Online Access:http://www.sciencedirect.com/science/article/pii/S1876380417300186
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spelling doaj-b0ab1662322447a6a5e4b212014674532021-02-02T06:27:29ZengKeAi Communications Co., Ltd.Petroleum Exploration and Development1876-38042017-02-01441139145Solution mining technology of enlarging space for thick-sandwich salt cavern storageYali ZHENG0Yanjie ZHAO1Guosheng DING2Zhide WU3Shouquan LU4Xin LAI5Xiaosong QIU6Dong YANG7Bingjie HAN8Lingxin WANG9PetroChina Research Institude of Petroleum Exploration & Development-Langfang Branch, Langfang 065007, China; CNPC Key Laboratory of Oil & Gas Underground Storage Engineering, Langfang 065007, China; Corresponding authorPetroChina Research Institude of Petroleum Exploration & Development-Langfang Branch, Langfang 065007, China; CNPC Key Laboratory of Oil & Gas Underground Storage Engineering, Langfang 065007, ChinaPetroChina Research Institude of Petroleum Exploration & Development-Langfang Branch, Langfang 065007, China; CNPC Key Laboratory of Oil & Gas Underground Storage Engineering, Langfang 065007, ChinaPetroChina Research Institude of Petroleum Exploration & Development-Langfang Branch, Langfang 065007, China; CNPC Key Laboratory of Oil & Gas Underground Storage Engineering, Langfang 065007, ChinaPetroChina East Pipeline Co., Ltd., Shanghai 200122, ChinaPetroChina Research Institude of Petroleum Exploration & Development-Langfang Branch, Langfang 065007, China; CNPC Key Laboratory of Oil & Gas Underground Storage Engineering, Langfang 065007, ChinaPetroChina Research Institude of Petroleum Exploration & Development-Langfang Branch, Langfang 065007, China; CNPC Key Laboratory of Oil & Gas Underground Storage Engineering, Langfang 065007, ChinaForeign Cooperation Department, PetroChina, Beijing 100007, ChinaPetroChina Research Institude of Petroleum Exploration & Development-Langfang Branch, Langfang 065007, China; CNPC Key Laboratory of Oil & Gas Underground Storage Engineering, Langfang 065007, ChinaThe Second Mud Logging Company of CNPC Bohai Drilling Engineering Company Limited, Cangzhou 062552, ChinaAiming at the current problem that thick sandwiches are commonly developed in domestic salt mines, this study investigated whether thick sandwiches would collapse to allow connection of salt deposits above and below, consequently expand single cavern capacity by laboratory experiments, numerical simulation and field tests. The analysis of water-soluble mechanism and changing patterns of mechanical parameters of sandwich layers after water immersion shows that: after water immersion, sandwiches dissolve into honeycomb structure with cracks that easily flake, and the residues occupy small space; after water immersion, mechanical strength of sandwiches decrease greatly, susceptible for failure and collapse. Based on the calculation model for critical limited span, the collapse timing was predicted. In addition, laws of thick sandwiches' collapse were obtained by numerical simulation, which indicate that the smaller thickness, as well as the larger depth, limited span and storage height of the sandwiches are more likely to cause the sandwich collapse. The design idea of “full immersion and secondary cavity construction” was proposed, and cavern leaching design for a 12 meter thick sandwich in a gas storage was made, and tests on two wells were conducted. The results prove that thick sandwiches could collapse, increasing leaching height and single cavity capacity, and the technology is technologically and economically feasible. Key words: salt-cavern storage, thick sandwich, water-soluble mechanism, mechanical parameter after water immersion, critical span, cavern leaching design, cavern leaching experimenthttp://www.sciencedirect.com/science/article/pii/S1876380417300186
collection DOAJ
language English
format Article
sources DOAJ
author Yali ZHENG
Yanjie ZHAO
Guosheng DING
Zhide WU
Shouquan LU
Xin LAI
Xiaosong QIU
Dong YANG
Bingjie HAN
Lingxin WANG
spellingShingle Yali ZHENG
Yanjie ZHAO
Guosheng DING
Zhide WU
Shouquan LU
Xin LAI
Xiaosong QIU
Dong YANG
Bingjie HAN
Lingxin WANG
Solution mining technology of enlarging space for thick-sandwich salt cavern storage
Petroleum Exploration and Development
author_facet Yali ZHENG
Yanjie ZHAO
Guosheng DING
Zhide WU
Shouquan LU
Xin LAI
Xiaosong QIU
Dong YANG
Bingjie HAN
Lingxin WANG
author_sort Yali ZHENG
title Solution mining technology of enlarging space for thick-sandwich salt cavern storage
title_short Solution mining technology of enlarging space for thick-sandwich salt cavern storage
title_full Solution mining technology of enlarging space for thick-sandwich salt cavern storage
title_fullStr Solution mining technology of enlarging space for thick-sandwich salt cavern storage
title_full_unstemmed Solution mining technology of enlarging space for thick-sandwich salt cavern storage
title_sort solution mining technology of enlarging space for thick-sandwich salt cavern storage
publisher KeAi Communications Co., Ltd.
series Petroleum Exploration and Development
issn 1876-3804
publishDate 2017-02-01
description Aiming at the current problem that thick sandwiches are commonly developed in domestic salt mines, this study investigated whether thick sandwiches would collapse to allow connection of salt deposits above and below, consequently expand single cavern capacity by laboratory experiments, numerical simulation and field tests. The analysis of water-soluble mechanism and changing patterns of mechanical parameters of sandwich layers after water immersion shows that: after water immersion, sandwiches dissolve into honeycomb structure with cracks that easily flake, and the residues occupy small space; after water immersion, mechanical strength of sandwiches decrease greatly, susceptible for failure and collapse. Based on the calculation model for critical limited span, the collapse timing was predicted. In addition, laws of thick sandwiches' collapse were obtained by numerical simulation, which indicate that the smaller thickness, as well as the larger depth, limited span and storage height of the sandwiches are more likely to cause the sandwich collapse. The design idea of “full immersion and secondary cavity construction” was proposed, and cavern leaching design for a 12 meter thick sandwich in a gas storage was made, and tests on two wells were conducted. The results prove that thick sandwiches could collapse, increasing leaching height and single cavity capacity, and the technology is technologically and economically feasible. Key words: salt-cavern storage, thick sandwich, water-soluble mechanism, mechanical parameter after water immersion, critical span, cavern leaching design, cavern leaching experiment
url http://www.sciencedirect.com/science/article/pii/S1876380417300186
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AT shouquanlu solutionminingtechnologyofenlargingspaceforthicksandwichsaltcavernstorage
AT xinlai solutionminingtechnologyofenlargingspaceforthicksandwichsaltcavernstorage
AT xiaosongqiu solutionminingtechnologyofenlargingspaceforthicksandwichsaltcavernstorage
AT dongyang solutionminingtechnologyofenlargingspaceforthicksandwichsaltcavernstorage
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AT lingxinwang solutionminingtechnologyofenlargingspaceforthicksandwichsaltcavernstorage
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