[1] Can Cai, Bo Feng, Rock Breakage and Temperature Rising of Rock Cutting after High Temperature Treatment, International Journal of Rock Mechanics and Mining Sciences, 2024,03. (Accept) [2] Can Cai, Quangong Xie, et al., Investigation on Rock-breaking and Debris Flow of High-pressure CO2 Jet Drilling Using Discrete Element Methods (DEM), Geothermics, 2024.01, GEOT_102936. (Accept) [3] Can Cai*, Pei Zhang, et al., Rock breakage and temperature variation of naturally worn PDC tooth during cutting of hard rock and soft rock, Journal of Petroleum Science and Engineering, 2023,229: 212042.(中科院工程大类2区,石油TOP) [4] Can Cai*, Xie Quangong, Liehui Zhang, Yulong Zhang,et al., The Thermal-Fluid-Mechanical (TFM) Coupling Method based on Discrete Element Method (DEM) and the Application of CO2 Fracturing Analysis, Geoenergy Science and Engineering, 2024,232,Part A:212443. [5] Can Cai*, Pei Zhang,Daping Xue, Xianpeng Yang,Yingfang Zhou. Composite rock-breaking of high-pressure CO2 jet & polycrystalline-diamond-compact (PDC) cutter using a coupled SPH/FEM Model, International Journal of Mining Science and Technology, 2022,32 (5), 1115-1124 (中科院SCI工程技术1区,TOP) [6] Xian-Peng Yang, Can Cai*, Xiao-Hua Chen, Pei Zhang, Xin Zeng, Chi Peng, Ying-Fang Zhou, Theoretical Calculation of High-Pressure CO2 Jet under Composite Rock-Breaking Based on Span-Wagner State Equation, Journal of Hydrodynamic, 2022,34 (5), 948-964 ( 中科院工程3区). [7] Can CAI, Xian-Peng YANG*, Cao GAO, Zhi-Cheng PU, Pei ZHANG, Zheng-Bo TAN . Intense Cooling during Composite Rock Breaking of High-Pressure CO2 Jet-Polycrystalline Diamond Cutter, SPE Journal,2022, 27 (04): 2525–2540. Paper Number: SPE-209603-PA. (SCI石油Top) [8] Can Cai*, Bang-run Li, Yi-yao Zhang et al., Fracture propagation and the Induced Strain Response during Supercritical CO2 Jet Fracturing[J], Petroleum Science, 2022,19(4),1682-1699. (中科院工程大类1区,石油TOP) [9] Cai C*, Xie S, Liu Q, Kang Y, Lian D, Li B. The Flow Characteristics of Supercritical Carbon Dioxide (SC-CO2) Jet Fracturing in Limited Perforation Scenarios[J]. Energies. 2020 Jan;13(10):2627. (SCI, 中科院大类3区) [10] Can Cai*, Yong Kang, Yingxin Yang, Xiaochuan Wang, Yang Li, Man Huang, Jiwei Wu, The Effect of Shale Bedding on Supercritical CO2 Jet Fracturing: A Experimental Study[J], Journal of Petroleum Science and Engineering, 2020, 195, 107798. (石油1区 Top, 中科院大类2区) [11] Can Cai*, Yong Kang, Yinxin Yang, Feilong Liao, Yunfei Chen, Man Huang, Hao Chen, Experimental Investigation on Flow Field and Induced Strain Response During SC-CO2 Jet Fracturing[J], Journal of Petroleum Science and Engineering, 2020, 195, 107795. (石油Top, 中科院2区) [12] Cai Can, Yong Kang*, Xiaochuan Wang, Yi Hu, Man Huang, Yiwei Liu, Jiawei Liu, Hao Chen, Xiaohong Li, Experimental Study on Shale Fracturing Enhancement by Using Multi-times Pulse Supercritical Carbon Dioxide (SC-CO2) Jet. Journal of Petroleum Science and Engineering, 2019, 178C: 948-963. (石油1区 Top, 中科院大类3区) [13] Cai Can, Wang Xiao-chuan*, Yuan Xiao-hong, Kang Yong, Wang Zefeng, Huang Man, Chen Hao, Experimental Investigation on Perforation of Chinese Shale with Ultra-High Pressure Abrasive Water Jet: Shape, Mechanism and Sensitivity, Journal of Natural Gas Science and Engineering, 2019, 67: 196-213. (中科院大类2区) [14]Cai C, Kang Y*, Wang X, Hu Y, Chen H, Yuan X, Cai Y, Mechanism of supercritical carbon dioxide (SC-CO2) hydro-jet fracturing[J]. Journal of CO2 Utilization, 2018, 26:575–587. (被引50次, SCI中科院工程大类1区,Top期刊)) [15] 蔡灿*;曾浪;刘家炜 等,油气井井下切割技术发展现状及趋势,西安石油大学学报,2024,01(39): 89-96+113. [16] 陈浩, 蒲治成, 蔡灿*, 张沛, 谭政博. 高温损伤岩石高压CO2射流-PDC齿联合破岩研究.地下空间与工程学报, 2023, 19(6): 1841-1850 [17] 蔡灿*,曹文洋,高压射流辅助钻井的研究现状及发展趋势,天然气工业,2023,43(08),116-126.. [18] 蔡 灿*, 谭政博, 玄令超, 等,分离式冲击-刮切复合钻头破岩机理及钻进破岩研究[J]. 振动与冲击,2022,41(16):232-241. [19] 蔡 灿*,高超,王海柱,等,高压CO2射流—PDC齿复合破岩流场及携岩增强机理分析[J].天然气工业,2021,41(10):92-99. [20] 蔡 灿*,张沛, 等. 油气钻井中的分离式冲击-切削复合破岩机理研究[J]. 岩土力学, 2021, 42(9) : 2535-2544. *近五年组织及参与的学术会议---------------------------------- [1] 蔡灿,地热井高压气体射流-PDC齿复合破岩机理及携岩特性研究, 第六届地热青年论坛会议,湖北武汉,2024-01.(特邀报告,会议组委会成员) [2] 蔡灿,地热井高压CO射流-pdc齿协同破碎高温岩石的离散元数值分析,2024年中国深部地热论坛,2023-03,中科院岩土所,中国武汉。(特邀报告,会议组委会成员) [3] 蔡灿,高压射流辅助钻井破岩机理及水力携岩特性研究,首届国际绿色矿山学术年会,2024-01,中国北京。(会议组织委员,特邀报告); [4] 蔡灿,高压水射流-PDC齿协同破岩机理研究,第二十二届全国探矿工程学术交流年会 中国地质学会 2023/10/17-20,中国威海。(特邀报告,会议组委会成员) [5] 蔡灿,高压CO2射流钻井携岩试验研究,第四届复杂油气工程科技创新论坛,长江大学,2023/6/23-25,中国荆州。(特邀报告,会议组委会成员) [6] Can Cai, Dr Can Cai, The Thermal-Fluid-Mechanical Coupling Method based on Discrete Element Method (DEM) and the Application of CO2 Fracturing, 6th InterPore UK Conference Brunel Universit, London, U.K., 12th – 13th September 2022. [7] 蔡灿,高超,水平井密切割多段压裂的投球暂堵过程分析及工艺优化建议,第三届复杂油气工程科技创新论坛,中国石油学会,中国 武汉,2021/12/28-30. [8] 蔡灿,张沛,油气钻井中的分离式冲击-切削复合破岩机理研究,2021年全国岩石动力学学术会议暨高端论坛,中国岩石力学学会,中国 徐州,2021/08. [9] 蔡灿,李邦润,高超,杨显鹏,超临界CO2射流增强PDC齿切削破碎高温岩石数值模拟研究,2020年第三十二届天然气学术年会,中国石油学会,重庆,2020-11. [10] 蔡灿, 超临界CO2射流高速摄影及诱导应变响应的检测方法探索与应用, 复杂油气工程科技创新论坛,中国石油大学(北京), 中国, 北京, 2019/12/28-30. [11] 蔡灿, 康勇, 杨迎新,李扬; 超临界CO2循环喷射压裂增强技术,中国石油学会第十一届青年学术会议, ,中国石油学会,中国, 武汉, 2019/11/23-24. [12]蔡灿, 康勇, 杨迎新;超临界CO2射流及循环喷射压裂增强机理研究,第三十一届天然气年会,中国石油学会,中国,合肥,2019/10/31-11.1. *近五年部分专利---------------------------------- [1] 智能钻头钻进检测及智能分析软件V1.0,软件著作专利,登记号:2022SR0533727,(授权). [2] 一种刀翼上具有可调节喷嘴的PDC钻头,发明专利,CN2022103507027,(实审). [3] 一种井下高压脉冲水力喷射压裂工具,实用新型,CN202122347738.3,(授权). [4] 一种提升岩屑能力的流线型PDC钻头,发明专利,CN2021104322964,(授权). [5] 一种部分刀翼可动的PDC钻头,发明专利,CN2022100759717,(实审). [6] 一种可控电磁驱动式冲击-刮切复合钻头及方法,发明专利,CN202010052493.9,(授权). [7] 一种钻井切削力学实时监测的智能钻头及其工作方法,发明专利,CN202010525525.2,(实审). [8] 一种具有双层结构的异形结构暂堵球,发明专利,CN2022103051048,(实审). [9] 一种具有摆动喷嘴的钻头,发明专利,CN2022102708391,(实审). [10] 一种具有高压喷嘴的复合PDC钻头,发明专利,CN2022102708368,(实审). |