[1]焦　侃 张　磊 胡志新.基于双阀板式的新型井下安全阀设计[J].大众科技,2022,24(03):19-23.

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基于双阀板式的新型井下安全阀设计()

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[1] 白洪胜. 论我国石油工程技术的现状与发展[J]. 化工管理，2015(23): 148. [2] McRae S. Crude oil price differentials and pipeline infrastructure[R]. Cambridge: National Bureau of Economic Research, 2018. [3] 张晓宇. 井下作业井控的发展研究方向[J]. 中国石油石化，2017(11): 172-173. [4] 武玉贵. 井口安全系统设计与研究[D]. 青岛: 中国石油大学(华东)，2013. [5] 刘威，杨松，买煜，等. 井下安全阀国内外研究现状与国产化思考[J]. 西南石油大学学报(自然科学版)，2018，40(3): 164-174. [6] Weatherford. Ultra-deep-set safety valve[EB/OL]. https://www.weatherford.com/en/products-and-services/completions/safety-systems/tubing-retrievable-safety-valves/ultra-deep-set-safety-valve, 2019-07-15. [7] Schlumberger. Trmaxx series safety valves [EB/OL]. https://www.slb.com/-/media/files/co/product-sheet/trmaxx-series-safety-valves.ashx, 2020-06-15. [8] Haliburton. Subsurface safety valves(SSSV)-catalog [EB/OL]. https://cdn.brandfolder.io/OUSGG99Q/as/ jp2jpj82s8mh 5cwq9wsw4/Subsurface_Safety_Valves__Equipment.pdf, 2019-06-30. [9] Baker Hughes. DeepShield deepwater subsurface safety valve[EB/OL]. https://www.bakerhughes.com/sites/ bakerhughes/files/2020-11/DeepShield%20Safety%20Valve%20-%20Sell%20Sheet.PDF, 2020-07-08. [10] 李常友，孙宝全，董社霞，等. SC35-120A型井下安全阀的研制[J]. 石油机械，2005(1): 43-44，3. [11] 浙江惟其信石油机械有限公司. 208W TRSSV-7.5型油管可回收式井下安全阀[EB/OL]. http://www.weiqixin. com/productinfo/1185440.html?templateId=1133605, 2020-03-18. [12] 李林涛，万小勇，李渭亮，等. 高压井下安全阀的研制及性能评价[J]. 重型机械，2018(6): 12-16. [13] Wagner A N. Capillary based surface controlled subsurface safety valve systems solution for problematic wells[C]. SPE Middle East Oil and Gas Show and Conference, 2017. [14] Thai D, Orzechowski D, Pinaed G. Case study: deepwater design verification and validation testing for subsurface safety valves for HDPHT environments[C]. Offshore Technology Conference, 2018. [15] Gao C, Cai B, Sheng C, et al. Design and development of all-electric surface-controlled subsurface safety valve system[J]. SPE Journal, 2021, 2: 1-15. [16] Charpentiertv J, Baraka-Lokmane S, Neville A, et al. Comparison of characteristic of anti-scaling coating for subsurface safety valve for use in oil and gas industry[C]. International Petroleum Technology Conference, 2014. [17] 邹剑，韩晓冬，王秋霞，等. 海上热采井耐高温井下安全控制技术研究[J]. 特种油气藏，2018，25(4): 154-157，163. [18] Scott B, Joseph J C, Penman I. Innovative all-electric tubing retrievable downhole safety valve[C]. Conference: SPE Asia Pacific Oil and Gas Conference and Exhibition, 2018. [19] Pilone S, Luppina S, Ricci Maccarini G, et al. Insert sucker rod surface controlled subsurface safety valve: a step ahead to improve the well integrity for the sucker rod artificial lift retrofitting[C]. Abu Dhabi International Petroleum Exhibition and Conference, 2020. [20] Wagner A N. Capillary based surface controlled subsurface safety valve systems solution for problematic wells[C]. Conference: SPE Middle East Oil & Gas Show and Conference, 2017. [21] 孔学云，李宝龙，齐海涛，等. 88.9 mm油管携带式井下安全阀研制[J]. 石油矿场机械，2016，45(9): 49-52. [22] 李美求，阳康，周思柱，等. 自平衡井下安全阀动态平衡响应分析[J]. 液压与气动，2017(6): 70-74． [23] 李林涛，万小勇，李渭亮，等. 高压井下安全阀的研制及性能评价[J]. 重型机械，2018(6):12-16. [24] 姚智翔. 井下安全阀检测设备及应用[J]. 中国石油和化工标准与质量，2021，41(9): 53-54. [25] 李英松，董社霞，付强，等. 井下安全阀启闭阀板流场及应力场有限元分析[J]. 钻采工艺，2017，40(1): 61-64，8-9. [26] 黎伟，宋伟，李乃禾，等. 滑套式井下安全阀设计及动态特性分析[J]. 中国安全生产科学技术，2017，13(2): 159-163. [27] 刘鹏，罗建伟，王新涛. 井下安全阀力学性能分析[J]. 石油矿场机械，2020，49(4): 36-39. [28] 牛贵锋，万有. 高温高压井下安全阀阀板优化研究[J]. 石油矿场机械，201746(2): 11-16.