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[1] »ÆÖÐΰ����£¬Ñîî£ÔÂ����£¬ÎäÏþ¹â����£¬µÈ. ÒºµªÉäÁ÷Ó¦Óûù´¡Ñо¿. ¿Æѧ³öÊéÉç. 2022.
[2] Sheng Mao, Wang Haizhu, Yang Ruiyue, Yang Bing. Experimental methods in fracturing mechanics focused on minimizing their environmental footprint. David A. Wood (Ed.), Sustainable Natural Gas Reservoir and Production Engineering, Elsevier, 2021.
[3] Yang Ruiyue, Li Gensheng, Qin Xiaozhou, et al. Productivity enhancement in multilayered coalbed methane reservoirs by radial borehole fracturing[J]. Petroleum Science, 2022. £¨TOPÆÚ¿¯����£¬ÖпÆÔº´óÀà1Çø£©
[4] Yang Ruiyue, Qin Xiaozhou, Liu Wei, Huang Zhongwei, Shi Yu, Pang Zhaoyu, Zhang Yiqun, Li Jingbin, Wang Tianyu. A Physics-Constrained Data-Driven Workflow for Predicting Coalbed Methane Well Production Using Artificial Neural Network. SPE Journal. 2022, 27 (03): 1531¨C1552. SPE-205903-PA.£¨IF: 3.602����£¬Ê¯Ó͹¤³Ì¶¥¼¶ÆÚ¿¯£©
[5] Yang Ruiyue, Hong Chunyang, Liu Wei, Wu Xiaoguang, Wang Tianyu, Huang Zhongwei. Non-contaminating cryogenic fluid access to high-temperature resources: Liquid nitrogen fracturing in a lab-scale Enhanced Geothermal System. Renewable Energy, 2021, 165 (part 1): 125-138. £¨IF:8.634����£¬TOPÆÚ¿¯����£¬ÖпÆÔº´óÀà2Çø£©
[6] Yang Ruiyue, Hong Chunyang, Huang Zhongwei, Wen Haitao, Li Xiaojiang, Huang Pengpeng, Liu Wei, Chen Jianxiang. Liquid nitrogen fracturing in boreholes under true triaxial stresses: laboratory investigation on fractures initiation and morphology. SPE Journal. 2021, 26 (01): 135¨C154. £¨IF: 3.602����£¬Ê¯Ó͹¤³Ì¶¥¼¶ÆÚ¿¯£©.
[7] Yang Ruiyue, Hong Chunyang, Huang Zhongwei, Song Xianzhi, Zhang Shikun, Wen Haitao. Coal breakage using abrasive liquid nitrogen jet and its implications for coalbed methane recovery. Applied Energy, 2019, 253, 113485. £¨IF: 11.446����£¬TOPÆÚ¿¯����£¬ÖпÆÔº´óÀà1Çø£©
[8] Yang Ruiyue, Huang Zhongwei, Hong Chunyang, Sepehrnoori Kamy, Wen Haitao. Modeling fishbones in coalbed methane reservoirs using a hybrid model formulation: gas/water production performance in various lateral-cleat-network geometries. Fuel,2019, 244:592-612. £¨IF:8.035����£¬TOPÆÚ¿¯����£¬ÖпÆÔº´óÀà2Çø£©
[9] Yang Ruiyue, Huang Zhongwei, Shi Yu, Huang Pengpeng. Laboratory investigation on cryogenic fracturing of hot dry rock under triaxial-con?ning stresses. Geothermics, 2019,79:46-60.£¨IF: 4.566����£¬ÖпÆÔº´óÀà3Çø£©
[10] Yang Ruiyue, Huang Zhongwei, Yu Wei, Lashgari Hamid R, Sepehrnoori Kamy. A semianalytical method for modeling two-phase flow in coalbed-methane reservoirs with complex fracture networks. SPE Reservoir Engineering and Evaluation,2018, 21(03):719-732, SPE-189459-PA.
[11] Yang Ruiyue, Huang Zhongwei, Li Gensheng, Shi huaizhong, Song Xianzhi, Shi Yu. An integrated workflow to design screen/slotted liners in geothermal wells. Geothermics, 2018,72:277-287. £¨IF: 4.566����£¬ÖпÆÔº´óÀà3Çø£©
[12] Yang Ruiyue, Huang Zhongwei, Li Gensheng, Yu Wei, Sepehrnoori Kamy, Lashgari Hamid R, Tian Shouceng, Song Xianzhi, Sheng Mao. A semianalytical approach to model two-phase flowback of shale-gas wells with complex-fracture-network geometries. SPE Journal, 2017,2(06):1808-1833, SPE-181766-PA. £¨Ê¯Ó͹¤³Ì¶¥¼¶ÆÚ¿¯����£¬ TOP 50 most popular articles in SPE Onepetro£©
[13] Yang Ruiyue, Huang Zhongwei, Li Gensheng, Sepehrnoori Kamy, Lin Qing, Cai Chengzheng. Integrity testing of a polyvinyl chloride slotted liner for horizontal coalbed-methane wells. SPE Drilling and Completion, 017,32(02):86-96, SPE-185958-PA.
[14] Yang Ruiyue, Liu Wei, Qin Xiaozhou, Huang Zhongwei, Shi Yu, Pang Zhaoyu, Zhang Yiqun, Li Jingbin, Wang Tianyu. A Physics-Constrained Data-Driven Workflow for Predicting Coalbed Methane Well Production Using A Combined Gated Recurrent Unit and Multi-Layer Perception Neural Network Model.SPE-205903-MS. Presented at SPE Annual Technical Conference and Exhibition, Dubai, UAE, 21 - 23 September 2021.£¨SPEÄê»á����£¬EI£©
[15] Yang Ruiyue, Huang Zhongwei, Li Gensheng, Yu Wei, Sepehrnoori Kamy, Tian Shouceng, Song Xianzhi, Sheng Mao. An innovative approach to model two-phase flowback of shale gas wells with complex fracture networks. SPE-181766-MS. Presented at the SPE Annual Technical Conference and Exhibition, Dubai, UAE, 26-28 September 2016. (TOP 50 most popular articles in SPE Onepetro). £¨SPEÄê»á����£¬EI£©
[16] »ÆÖÐΰ,Àî¹ú¸»,Ñîî£ÔÂ.ÎÒ¹úú²ãÆø¿ª·¢ÊÖÒÕÏÖ×´ÓëÉú³¤Ç÷ÊÆ[J/OL].ú̿ѧ±¨,2022:1-26. http://kns.cnki.net/kcms/detail/11.2190.TD.20220822.1808.008.html
[17] Ñîî£ÔÂ,»ÆÖÐΰ,Àî¸ùÉú,³Â½¡Ïè,κ£ÌÎ,ÇØСÖÛ.ú²ãÆøˮƽ¾®Ë®Á¦ÅçÉä·Ö¶ÎÔìѨÊÖÒÕ̽Ë÷[J/OL].ú̿ѧ±¨,2022:1-15. DOI:10.13225/j.cnki.jccs.SS22.0665.
[18] ³Â½¡Ïè,Ñîî£ÔÂ,»ÆÖÐΰ,Àî¸ùÉú,ÇØСÖÛ,Àî¾´±ò,ÎäÏþ¹â.»ùÓÚÊèÉ¢ÎÐÄ£ÄâµÄÐýתÉäÁ÷Á÷³¡½á¹¹ÌØÕ÷ÆÊÎö[J].ʯÓÍ¿±Ì½Ó뿪·¢,2022,49(04):806-817.
[19] Ñîî£ÔÂ, ´ÔÈÕ³¬, ÁõêÏ, »ÆÖÐΰ, κ£ÌÎ, ºé´¿Ñô. ÒºµªÀä¹¥»÷×÷ÓöÔúÑÒ΢ÄÉÃ×±ê×¼¿×϶½á¹¹¼°Á¦Ñ§ÐÔ×ÓµÄÓ°Ïì[J]. ×ÔÈ»Æø¹¤Òµ, 2021, 41(07): 82-92.£¨EI����£¬ÖÐÎĽ¹µã£©
[20] Ñîî£ÔÂ, ³Â½¡Ïè, »ÆÖÐΰ, Ðܳ¬, κ£ÌÎ, ÕÅÊÀÀ¥. ú²ãÆøˮƽ¾®ÉÈÐÎÄ¥ÁÏÉäÁ÷ÔìѨÅç×ì½á¹¹Éè¼Æ[J]. ʯÓÍ»úе, 2021, 49(03): 102-10.£¨ÖÐÎĽ¹µã£©
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