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[1]韩笑 刘姝 万青翠 陈玲玲 张郑挥 李波.热激法开采天然气水合物研究进展[J].油气储运,2019,38(08):849-855.
 HAN Xiao,LIU Shu,WAN Qingcui,et al.Research progress on the exploitation of natural gas hydrate by thermal stimulation method[J].Oil & Gas Storage and Transportation,2019,38(08):849-855.
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热激法开采天然气水合物研究进展

参考文献/References:

[1] BOSWELL R,COLLETT T S. Current perspective on gas hydrate resources[J]. Energy & Environmental Science,2011, 4(4):1206-1215.
[2] 江怀友,乔卫杰,钟太贤,等. 世界天然气水合物资源勘探开发 现状与展望[J]. 中外能源,2008,20(6):19-25. JIANG H Y,QIAO W J,ZHONG T X,et al. Status and forecast of world’s natural gas hydrate exploration & development[J]. Sino-Global Energy,2008,20(6):19-25.
[3] 思娜,安雷,邓辉,等. 天然气水合物开采技术研究进展及思 考[J]. 中国石油勘探,2016,21(5):52-61. SI N,AN L,DENG H,et al. Discussion on natural gas hydrate production technologies[J]. China Petroleum Exploration,2016, 21(5):52-61.
[4] WANG Y,FENG J C,LI X S,et al. Large scale experimental evaluation to methane hydrate dissociation below quadruple point in sandy sediment[J]. Applied Energy,2016,162:372-381.
[5] LI B,LI X S,LI G,et al. Depressurization induced gas production from hydrate deposits with low gas saturation in a pilot-scale hydrate simulator[J]. Applied Energy,2014,129:274-286.
[6] ZHAO J F,YU T,SONG Y C,et al. Numerical simulation of gas production from hydrate deposits using a single vertical well by depressurization in the Qilian Mountain permafrost,Qinghai- Tibet Plateau,China[J]. Energy,2013,52:308-319.
[7] LI B,LIANG Y P,LI X S,et al. Numerical analysis of methane hydrate decomposition experiments by depressurization around freezing point in porous media[J]. Fuel,2015,159:925-934.
[8] ZHAO J F,ZHU Z H,SONG Y C,et al. Analyzing the process of gas production for natural gas hydrate using depressurization[J]. Applied Energy,2015,142:125-134.
[9] MORIDIS G J,SILPNGARMLERT S,REAGAN M T,et al. Gas production from a cold,stratigraphically-bounded gas hydrate deposit at the Mount Elbert Gas Hydrate Stratigraphic Test Well,Alaska North Slope:implications of uncertainties[J]. Marine and Petroleum Geology,2011,28(2):517-534.
[10] SONG Y C,CHENG C X,ZHAO J F,et al. Evaluation of gas production from methane hydrates using depressurization, thermal stimulation and combined methods[J]. Applied Energy, 2015,145:265-277.
[11] KOH D Y,KANG H,LEE J W,et al. Energy-efficient natural gas hydrate production using gas exchange[J]. Applied Energy, 2016,162:114-130.
[12] ORS O,SINAYUC C. An experimental study on the CO2-CH4 swap process between gaseous CO2 and CH4 hydrate in porous media[J]. Journal of Petroleum Science and Engineering,2014, 119:156-162.
[13] BREWER P G,PELTZER E T,WALZ P M,et al. Deepsea field test of the CH4 hydrate to CO2 hydrate spontaneous conversion hypothesis[J]. Energy & Fuels,2014,28(11): 7061-7069.
[14] 赵欣,邱正松,江琳,等. 动力学抑制剂作用下天然气水合物生 成过程的实验分析[J]. 天然气工业,2014,34(2):105-110. ZHAO X,QIU Z S,JIANG L,et al. An experimental analysis of nature gas hydrate formation at the presence of kinetic hydrate inhibitors[J]. Natural Gas Industry,2014,34(2): 105-110.
[15] LEE J. Experimental study on the dissociation behavior and productivity of gas hydrate by brine injection scheme in porous rock[J]. Energy & Fuels,2009,24(1):456-463.
[16] WANG Y,LI X S,LI G,et al. A three-dimensional study on methane hydrate decomposition with different methods using five-spot well[J]. Applied Energy,2013,112:83-92.
[17] SCHICKS J M,SPANGENBERG E,GIESE R,et al. A countercurrent heat-exchange reactor for the thermal stimulation of hydrate-bearing sediments[J]. Energies,2013,6(6):3002-3016.
[18] LI G,LI X S,LI B,et al. Methane hydrate dissociation using inverted five-spot water flooding method in cubic hydrate 韩笑,等:热激法开采天然气水合物研究进展 simulator[J]. Energy,2014,64:298-306.
[19] FITZGERALD G C,CASTALDI M J. Thermal stimulation based methane production from hydrate bearing quartz sediment[J]. Industrial & Engineering Chemical Research, 2013,52(19):6571-6581.
[20] 宋永臣,阮徐可,梁海峰,等. 天然气水合物热开采技术研究进 展[J]. 过程工程学报,2009,9(5):1035-1040. SONG Y C,RUAN X K,LIANG H F,et al. Research advance in thermal recovery of natural gas hydrate[J]. The Chinese Journal of Process Engineering,2009,9(5):1035-1040.
[21] 杨林,孙友宏,陈晨,等. 注蒸汽法开采天然气水合物的数值模 拟及试验研究[C]. 哈尔滨:第十八届全国探矿工程(岩土钻掘 工程)技术学术交流年会,2015:608-616. YANG L,SUN Y H,CHEN C,et al. The numerical simulation and experimental study of exploiting gas hydrate with steam injection method[C]. Harbin:The 18th National Exploration Engineering Technology Academic Exchange Annual Conference,2015:608-616.
[22] 李淑霞,曹文,李杰,等. 天然气水合物注热水开采热前缘移动 规律实验研究[J]. 现代地质,2014,28(3):659-662. LI S X,CAO W,LI J,et al. Experimental study on thermal front movement of natural gas hydrate by injecting hot water[J]. Geoscience,2014,28(3):659-662.
[23] 冯景春,李小森,王屹,等. 三维实验模拟双水平井联合法开采 天然气水合物[J]. 现代地质,2016,30(4):929-936. FENG J C,LI X S,WANG Y,et al. Three-dimension experimental investigation of hydrate dissociation by the combined method with dual horizontal wells[J]. Geoscience, 2016,30(4):929-936.
[24] 杨兆中,朱静怡,李小刚,等. 微波加热技术在非常规油资源中 的研究现状与展望[J]. 化工进展,2016,35(11):3478-3483. YANG Z Z,ZHU J Y,LI X G,et al. Progress in researches on microwave heating in unconventional oil resources[J]. Chemical Industry and Engineering Progress,2016,35(11):3478-3483.
[25] SONG Y C,LI H,MU H. Method and device used for exploiting natural gas hydrate by utilizing solar energy heating: 101037938-A[P]. 2007-09-19.
[26] ZHAO J F,SONG Y C,WANG J Q,et al. Analysis of heat transfer effects on gas production from methane hydrate by thermal stimulation[J]. International Journal of Heat and Mass Transfer,2015,87:145-150.
[27] SONG Y C,KUANG Y M,FAN Z,et al. Analysis of heat transfer influences on gas production from methane hydrates using a combined method[J]. International Journal of Heat and Mass Transfer,2016,92:766-773.
[28] FENG J C,WANG Y,LI X S,et al. Large scale experimental evaluation to methane hydrate dissociation below quadruple point by depressurization assisted with heat simulation[C]. Cardiff:9th International Conference on Applied Energy,2017: 4117-4123.
[29] WANG Y,FENG J C,LI X S,et al. Fluid flow mechanisms and heat transfer characteristics of gas recovery from gas-saturated and water-saturated hydrate reservoirs[J]. International Journal of Heat and Mass Transfer,2018,118:1115-1127.
[30] 陈花,关富佳,张杰,等. 间壁换热开采天然气水合物注入温度 优化[J]. 天然气与石油,2019,37(2):91-95. CHEN H,GUAN F J,ZHANG J,et al. Temperature optimization of gas hydrate injection in inter-wall heat exchange recovery[J]. Natural Gas and Oil,2019,37(2):91-95.
[31] 孙致学,朱旭晨,刘垒,等. 联合深层地热甲烷水合物开采方 法及可行性评价[J]. 海洋地质与第四纪地质,2019,39(2): 146-156. SUN Z X,ZHU X C,LIU L,et al. Exploitation method and feasibility evaluation of combined deep geothermal methane hydrate[J]. Marine Geology & Quaternary Geology,2019, 39(2):146-156.
[32] 李淑霞,张孟琴,李杰. 不同水合物饱和度下注热水开采实验 研究[J]. 实验力学,2012,27(4):448-453. LI S X,ZHANG M Q,LI J. Experimental investigation of hot-brine injection to dissociate nature gas hydrate at different hydrate saturation[J]. Journal of Experimental Mechanics, 2012,27(4):448-453.
[33] 刘丽国. 不同饱和度水合物开采实验研究[D]. 大连:大连理 工大学,2012:1-73. LIU L G. Experimental study of different saturated methane hydrate exploitation[D]. Dalian:Dalian University of Technology,2012:1-73.
[34] WANG B,FAN Z,ZHAO J F,et al. Gas production from methane hydrate deposits induced by depressurization in conjunction with thermal stimulation[J]. Energy Procedia, 2017,105:4713- 4717.
[35] PRAVEEN L,GIRISH A P,YANG M J,et al. Methane hydrate formation in excess water simulating marine locations and the impact of thermal stimulation on energy recovery[J]. Applied Energy,2016,177:409-421.
[36] CHONG Z R,YANG S H B,BABU P,et al. Review of natural gas hydrates as an energy resource:Prospects and challenges[J]. Applied Energy,2015,162:1633-1652.
[37] LI B,LIU S D,LIANG Y P,et al. The use of electrical heating for the enhancement of gas recovery from methane hydrate in porous media[J]. Applied Energy,2017,227:694-702.
[38] HIDEKI M,TAKUMA I,SHO K,et al. Depressurization and electrical heating of methane hydrate sediment for gas production:Laboratory-scale experiments[J]. Journal of Natural Gas Science and Engineering,2018,50:147-156.
[39] LI B,LIU S D,LIANG Y P. Experimental study of methane hydrate dissociation by depressurization and electrical heating[J]. Energy Procedia,2017,105:5018-5025.
[40] FALSER S,UCHIDA S,SOGA K,et al. Increased gas production from hydrates by combining depressurization with heating of the wellbore[J]. Energy & Fuels,2012,26(10): 6259-6267.
[41] FITZGERALD G C,CASTALDI M J. Thermal stimulation based methane production from hydrate bearing quartz sediment[J]. Industrial & Engineering Chemistry Research, 2013,52(19):6571-6581.
[42] 杨兆中,齐双瑜,李小刚,等. 电磁加热技术在石化能源中的应 用进展[J]. 世界科技研究与发展,2017,39(2):159-163. YANG Z Z,QI S Y,LI X G,et al. Application of electromagnetic heating technology in petrochemical energy[J]. World Sci-Tech R & D,2017,39(2):159-163.
[43] ENGLISH N J,MAC ELROY J M D. Theoretical studies of the kinetics of methane hydrate crystallization in external electromagnetic fields[J]. The Journal of Chemical Physics, 2004,120(21):10247-10256.
[44] ROGERS R E. Natural gas hydrates storage project[M]. Starkville:Mississippi State University Press,1999:1-57.
[45] LI D L,LIANG D Q,FAN S S,et al. In situ hydrate dissociation using microwave heating:Preliminary study[J]. Energy Conversion and Management,2008,49(8):2207-2213.
[46] 何松,梁德青,李栋梁,等. 微波强化分解甲烷水合物的研究[J]. 石油化工,2011,40(7):700-704. HE S,LIANG D Q,LI D L,et al. Intensification of methane hydrate dissociation by microwave radiation[J]. PetrochemicalTechnology,2011,40(7):700-704.
[47] 宋永臣,李红海,王志国. 太阳能加热开采天然气水合物研究[J].大连理工大学学报,2009,49(6):827-831.SONG Y C,LI H H,WANG Z G. Study of natural gas production from hydrate with solar energy heating[J]. Journal of Dalian University of Technology,2009,49(6):827-831.

相似文献/References:

[1]韩笑 刘姝 万青翠 陈玲玲 张郑挥 李波.热激法开采天然气水合物研究进展[J].油气储运,2019,38(05):1.
 HAN Xiao,LIU Shu,WAN Qingcui,et al.Research progress on the exploitation of natural gas hydrate by thermal stimulation method[J].Oil & Gas Storage and Transportation,2019,38(08):1.

备注/Memo

基金项目:国家自然科学基金资助项目“低渗双重介质中水合物相变动力学及其控制机制研究”,51876017;国家自然科学基金资助项目“含裂隙多孔介质中天然气水合物分解动力学机理研究”,51506016;重庆市基础与前沿研究计划“冰点以下天然气水合物降压分解过程影响因素研究”,cstc2016jcyjA0034。
作者简介:韩笑,女,1994 年生,在读硕士生,2017 年毕业于山东科技大学安全工程专业,现主要从事水合物开采相关技术研究。地址:重庆市沙坪坝区沙正街174 号,400044。电话:15086934397。Email:707716275@qq.com
编辑:杜娟

更新日期/Last Update: 2019-08-25