Stability analysis of submarine slopes in the area of the test production of gas hydrate in the South China Sea 被引量：8

下载PDF

导出

摘要 In this paper, the mechanical properties of gas hydrate-bearing sediments (GHBS) were summarized and the instability mechanism of submarine hydrate-bearing slope (SHBS) was analyzed under the background of the test production of gas hydrate in the northern part of the South China Sea. The strength reduction finite element method (SRFEM) was introduced to the stability analysis of submarine slopes for the safety of the test production. Two schemes were designed to determine the physical and mechanical parameters of four target wells. Through the division of the hydrate dissociation region and the design of four working conditions, the range and degree of hydrate dissociation at different stages during the test production were simulated. Based on the software ABAQUS, 37 FEM models of SHBS were set up to analyze and assess the stability of the submarine slopes in the area of the test production. Necessary information such as safety factors, deformation, and displacement were obtained at different stages and under different working conditions. According to the calculation results, the submarine slope area is stable before the test production, and the safety factors almost remains the same during and after the test production. All these indicate that the test production has no obvious influence on the area of the test production and the submarine slopes in the area are stable during and after the test production.

作者 Yao-hong Shi Qian-yong Liang Jiang-pin Yang Qing-meng Yuan Xue-min Wu Liang Kong

机构地区 Guangzhou Marine Geological Survey Gas Hydrate Engineering Technology Center School of Science

出处《China Geology》 2019年第3期276-286,共11页 中国地质（英文）

基金 This work is funded by National Key R&D Project (2017YFC0307605) the China Geological Survey (DD20160217,DD20190218) the National Natural Science Foundation of China (11572165) we would like to extend our sincere appreciation for these.

分类号 P [天文地球]

引文网络
相关文献

参考文献12

1刘锋,吴时国,孙运宝.南海北部陆坡水合物分解引起海底不稳定性的定量分析[J].地球物理学报,2010,53(4):946-953. 被引量：36
2蒋明镜,肖俞,刘芳.深海能源土开采对海床稳定性的影响研究思路[J].岩土工程学报,2010,32(9):1412-1417. 被引量：11
3石要红,张旭辉,鲁晓兵,王淑云,王爱兰.南海水合物黏土沉积物力学特性试验模拟研究[J].力学学报,2015,47(3):521-528. 被引量：47
4何健,梁前勇,马云,石要红,夏真.南海北部陆坡天然气水合物区地质灾害类型及其分布特征[J].中国地质,2018,45(1):15-28. 被引量：16
5张旭辉,胡光海,鲁晓兵.天然气水合物分解对地层稳定性影响的离心机实验模拟[J].实验力学,2012,27(3):301-310. 被引量：7
6房臣,张卫东.天然气水合物的分解导致海底沉积层滑坡的力学机理及相关分析[J].海洋科学集刊,2010(1):149-156. 被引量：8
7王力峰,付少英,梁金强,尚久靖,王静丽.全球主要国家水合物探采计划与研究进展[J].中国地质,2017,44(3):439-448. 被引量：31
8梁庆国,李德武.对岩土工程有限元强度折减法的几点思考[J].岩土力学,2008,29(11):3053-3058. 被引量：33
9刘勇健,李彰明,张丽娟,郭依群.未来新能源可燃冰的成因与环境岩土问题分析[J].广东工业大学学报,2010,27(3):83-87. 被引量：9
10Liang Kong,Zhen-fei Zhang,Qing-meng Yuan,Qian-yong Liang,Yao-hong Shi,Jin-qing Lin.Multi-factor sensitivity analysis on the stability of submarine hydrate-bearing slope[J].China Geology,2018,1(3):367-373. 被引量：12

二级参考文献163

1尹莹,王在泉,王建新.用有限元强度折减法对海底隧道进行稳定性分析[J].烟台大学学报（自然科学与工程版）,2007,20(3):210-214. 被引量：14
2宋召军,刘立.天然气水合物研究现状与展望[J].吉林地质,2003,22(4):64-68. 被引量：10
3魏厚振,颜荣涛,陈盼,田慧会,吴二林,韦昌富.不同水合物含量含二氧化碳水合物砂三轴试验研究[J].岩土力学,2011,32(S2):198-203. 被引量：36
4石要红,张旭辉,鲁晓兵,王淑云,王爱兰.南海水合物黏土沉积物力学特性试验模拟研究[J].力学学报,2015,47(3):521-528. 被引量：47
5陈俊仁,李廷桓.南海地质灾害类型与分布规律[J].地质学报,1993,67(1):76-85. 被引量：37
6吴凤鸣.二十一世纪的新能源——可燃冰[J].科学新闻,2003,7(5):32-33. 被引量：1
7郑颖人,赵尚毅.有限元强度折减法在土坡与岩坡中的应用[J].岩石力学与工程学报,2004,23(19):3381-3388. 被引量：1035
8郑颖人,赵尚毅.用有限元强度折减法求边(滑)坡支挡结构的内力[J].岩石力学与工程学报,2004,23(20):3552-3558. 被引量：125
9郑颖人,赵尚毅.岩土工程极限分析有限元法及其应用[J].土木工程学报,2005,38(1):91-98. 被引量：259
10赵尚毅,郑颖人,张玉芳.极限分析有限元法讲座——Ⅱ有限元强度折减法中边坡失稳的判据探讨[J].岩土力学,2005,26(2):332-336. 被引量：542

共引文献1608

1俞伟,李甲荣,施昌州,葛一冬,王明东.基于土体强度折减法生态组合桩结构稳定分析及应用[J].中国水运（下半月）,2024,24(1):149-151.
2王雨翔.某重力式扶壁码头边坡稳定影响因素及影响规律分析[J].中国水运（下半月）,2022,22(7):80-82. 被引量：2
3王喜婵,郭忠林.基于MIDAS在露天矿边坡稳定性的应用[J].中国水运（下半月）,2020(6):239-240. 被引量：2
4孔科,楚锡华,徐远杰.框格式地下连续墙非线性分析及稳定计算[J].岩土力学,2008(S01):123-128. 被引量：7
5彭云枫,何蕴龙,曹学兴.拱坝坝基加固的三维数值模拟[J].岩土力学,2008(S01):95-100. 被引量：4
6徐力群,沈振中,俞凯加,吕军.思林水电站通航建筑物高边坡稳定分析和评价[J].岩土力学,2008(S01):42-46. 被引量：1
7刘明维,黄世武,尹健.膨胀土斜坡地基路堤失稳破坏有限元极限分析[J].岩土力学,2008(S01):426-430. 被引量：3
8颜天佑,李同春,赵兰浩,戴妙林,周桂云.边坡稳定分析的非线性有限元混合解法[J].岩土力学,2008(S01):389-393. 被引量：4
9张伟,焦玉勇,郭小红.隧道洞口滑坡稳定性分析与防治措施[J].岩土力学,2008(S01):311-314. 被引量：42
10李海轮,王川,宫海灵,冷先伦,李刚.大型地下洞室裂隙劣化对支护结构受力及围岩变形的影响规律研究[J].应用基础与工程科学学报,2022,30(5):1256-1274. 被引量：4

同被引文献122

1刘书杰,谢仁军,仝刚,吴怡,徐国贤.中国海洋石油集团有限公司深水钻完井技术进展及展望[J].石油学报,2019,40(S02):168-173. 被引量：28
2李占东,刘建辉,李中,李阳,张海翔,王殿举,庞鸿.天然气水合物降压开采出砂定量预测新模型[J].石油学报,2019,40(S02):160-167. 被引量：5
3杨柳,石富坤,张旭辉,鲁晓兵.含水合物粉质黏土压裂成缝特征实验研究[J].力学学报,2020,52(1):224-234. 被引量：11
4蔡建超,夏宇轩,徐赛,田海涛.含水合物沉积物多相渗流特性研究进展[J].力学学报,2020,52(1):208-223. 被引量：40
5Jin-qiang Liang,Wei Deng,Jing-an Lu,Zeng-gui Kuang,Yu-lin He,Wei Zhang,Yue-hua Gong,Jin Liang,Miao-miao Meng.A fast identification method based on the typical geophysical differences between submarine shallow carbonates and hydrate bearing sediments in the northern South China Se a[J].China Geology,2020,3(1):16-27. 被引量：5
6栾锡武.天然气水合物的上界面——硫酸盐还原-甲烷厌氧氧化界面[J].海洋地质与第四纪地质,2009,29(2):91-102. 被引量：14
7徐斌,邹德高,周丹,孔宪京.考虑水合物分解的海底斜坡稳定计算方法研究[J].土木工程学报,2011,44(S2):207-211. 被引量：2
8邓英尔,黄润秋,麻翠杰,刘慈群.含束缚水低渗透介质气体非线性渗流定律[J].天然气工业,2004,24(11):88-91. 被引量：5
9刘学伟,李敏锋,张聿文,张光学,吴能友,黄永样,王宏斌.天然气水合物地震响应研究——中国南海HD152测线应用实例[J].现代地质,2005,19(1):33-38. 被引量：48
10何家雄,黄火尧,陈龙操.莺歌海盆地泥底辟发育演化与油气运聚机制[J].沉积学报,1994,12(3):120-129. 被引量：59

引证文献8

1Jian-liang Ye,Xu-wen Qin,Wen-wei Xie,Hai-long Lu,Bao-jin Ma,Hai-jun Qiu,Jin-qiang Liang,Jing-an Lu,Zeng-gui Kuang,Cheng Lu,Qian-yong Liang,Shi-peng Wei,Yan-jiang Yu,Chunsheng Liu,Bin Li,Kai-xiang Shen,Hao-xian Shi,Qiu-ping Lu,Jing Li,Bei-bei Kou,Gang Song,Bo Li,He-en Zhang,Hong-feng Lu,Chao Ma,Yi-fei Dong,Hang Bian.The second natural gas hydrate production test in the South China Sea[J].China Geology,2020,3(2):197-209. 被引量：43
2Lei Wang,Li-juan Gu,Hai-long Lu.Sediment permeability change on natural gas hydrate dissociation induced by depressurization[J].China Geology,2020,3(2):221-229. 被引量：4
3Qiang Chen,Gao-wei Hu,Neng-you Wu,Chang-ling Liu,Qing-guo Meng,Cheng-feng Li,Jian-ye Sun,Yan-long Li.Evaluation of clayed silt properties on the behavior of hydrate production in South China Sea[J].China Geology,2020,3(3):362-368. 被引量：4
4Zhen Zhang,Gao-wen He,Hui-qiang Yao,Xi-guang Deng,Miao Yu,Wei Huang,Wei Deng,Syed Waseem Haider,Naimatullah Sohoo,Noor Ahmed Kalhoro.Diapir structure and its constraint on gas hydrate accumulation in the Makran accretionary prism, offshore Pakistan[J].China Geology,2020,3(4):611-622. 被引量：5
5周世琛,郇筱林,陈宇琪,周博,薛世峰,公彬.天然气水合物沉积物不排水剪切特性的离散元模拟[J].石油学报,2021,42(1):73-83. 被引量：10
6王秀娟,靳佳澎,郭依群,李杰,李元平,钱进,王彬,周吉林.南海北部天然气水合物富集特征及定量评价[J].地球科学,2021,46(3):1038-1057. 被引量：24
7秦绪文,陆程,王平康,梁前勇.中国南海天然气水合物开采储层水合物相变与渗流机理:综述与展望[J].中国地质,2022,49(3):749-769. 被引量：5
8王滢,王妍妍,高盟,张粮.深海能源土含气储层边坡稳定性研究[J].山东科技大学学报（自然科学版）,2024,43(1):32-40.

二级引证文献85

1刘鹏奇,秦敏,刘康,毛爽,卞华鹏,辛福兵.GeoEast解释系统在水合物饱和度预测中的应用[J].石油地球物理勘探,2022,57(S01):160-166.
2Qiang Chen,Gao-wei Hu,Neng-you Wu,Chang-ling Liu,Qing-guo Meng,Cheng-feng Li,Jian-ye Sun,Yan-long Li.Evaluation of clayed silt properties on the behavior of hydrate production in South China Sea[J].China Geology,2020,3(3):362-368. 被引量：4
3齐赟,孙友宏,李冰,沈奕锋,张国彪,黄峰.近井储层改造对天然气水合物藏降压开采特性影响的数值模拟研究[J].钻探工程,2021,48(4):85-96. 被引量：8
4万庭辉,张可倪,李占钊,王静丽,于彦江.天然气水合物非成岩出砂储层砂流数值模拟[J].科学技术与工程,2021,21(17):7027-7033. 被引量：4
5Jian-ming Gong,Jing Liao,Yu-xi Zhang,Jie Liang,Jian-wen Chen,Nuzhat Khan,Syed Waseem Haider.Characteristics of major and trace elements in surface sediments of the Makran Accretionary Prism, Pakistan and their implications for natural gas hydrates[J].China Geology,2021,4(2):299-310.
6赵亚鹏,刘乐乐,孔亮,刘昌岭,吴能友.含天然气水合物土微观力学特性研究进展[J].力学学报,2021,53(8):2119-2140. 被引量：9
7卢海龙,尚世龙,陈雪君,秦绪文,古利娟,邱海峻.天然气水合物开发数值模拟器研究进展及发展趋势[J].石油学报,2021,42(11):1516-1530. 被引量：9
8Md Nahin Mahmood,Boyun Guo.Productivity comparison of radial lateral wells and horizontal snake wells applied to marine gas hydrate reservoir development[J].Petroleum,2021,7(4):407-413. 被引量：1
9杨德欢,颜梦秋,陆地,颜荣涛,韦昌富,田慧会.含天然气水合物土水-力特性联合测试装置及应用[J].工程地质学报,2021,29(6):1722-1732. 被引量：2
10刘乐乐,李彦龙,张旭辉,罗大双,刘昌岭.降压开采导致天然气水合物系统状态演化模拟实验[J].工程地质学报,2021,29(6):1916-1925. 被引量：1

1Neng-you Wu,Chang-ling Liu,Cheng-feng Li.Introduction to Key Laboratory of Gas Hydrate,Ministry of Natural Resources[J].China Geology,2019,2(2):254-256.
2Liang Kong,Zhen-fei Zhang,Qing-meng Yuan,Qian-yong Liang,Yao-hong Shi,Jin-qing Lin.Multi-factor sensitivity analysis on the stability of submarine hydrate-bearing slope[J].China Geology,2018,1(3):367-373. 被引量：12
3Shtyrov Nikolay.Physical Methods and Parameters for Assessing the Strength, Fatigue, Durability and Damage to a Structural Material[J].Journal of Mechanics Engineering and Automation,2019,9(3):84-91.
4Vahid ALIZADEH.Finite element analysis of controlled low strength materials[J].Frontiers of Structural and Civil Engineering,2019,13(5):1243-1250. 被引量：2
5Guan Yanzhi,Yan Yu,Wang Haibo.FEM simulation of flexible roll forming based on different material models[J].High Technology Letters,2018,24(4):434-439. 被引量：1
6Yang WANG,Yanping CHEN,Yunqing HUANG,Ying LIU.Two-grid methods for semi-linear elliptic interface problems by immersed finite element methods[J].Applied Mathematics and Mechanics(English Edition),2019,40(11):1657-1676. 被引量：2
7Hassan ABEDI SARVESTANI.Parametric study of hexagonal castellated beams in post-tensioned self-centering steel connections[J].Frontiers of Structural and Civil Engineering,2019,13(5):1020-1035.
8Shuiqiang ZHANG,Aijun LI,Yuqin ZHENG,Dongsheng ZHANG.Mechanical analysis of C/C composite grids in ion optical system[J].Applied Mathematics and Mechanics(English Edition),2019,40(11):1589-1600. 被引量：1
9Yun-xin Fang,Jing-an Lu,Jin-qiang Liang,Zeng-gui Kuang,Yun-cheng Cao,Duo-fu Chen.Numerical studies of gas hydrate evolution time in Shenhu area in the northern South China Sea[J].China Geology,2019,2(1):49-55. 被引量：7
10Mohammad HANIFEHZADEH,Bora GENCTURK.An investigation of ballistic response of reinforced and sandwich concrete panels using computational techniques[J].Frontiers of Structural and Civil Engineering,2019,13(5):1120-1137. 被引量：1

China Geology

2019年第3期

浏览历史

内容加载中请稍等...