[1] 路甬祥.仿生学的意义与发展[J].科学中国人,2004(4):22-24.
Lu Yongxiang.Significance and development of bionics[J].Scientific Chinese,2004(4):22-24.
[2] 陈朝伟,张辉,申彪,等.水平井安全和危险钻井方位[J].石油学报,2013,34(1):164-168.
Chen Zhaowei,Zhang Hui,Shen Biao,et al.A study on safe and dangerous drilling azimuths of horizontal well[J].Acta Petrolei Sinica,2013,34(1):164-168.
[3] 宣扬,蒋官澄,李颖颖,等.基于仿生技术的强固壁型钻井液体系[J].石油勘探与开发,2013,40(4):497-501.
Xuan Yang,Jiang Guancheng,Li Yingying,et al.A biomimetic drilling fluid for wellbore strengthening[J].Petroleum Exploration & Development,2013,40(4):497-501.
[4] 蒋官澄,宣扬,王金树,等.仿生固壁钻井液体系的研究与现场应用[J].钻井液与完井液,2014,31(3):1-5.
Jiang Guancheng,Xuan Yang,Wang Jinshu,et al.Study and application of bionic borehole wall strengthening agent[J].Drilling Fluid & Completion Fluid,2014,31(3):1-5.
[5] 郑力会.仿生绒囊钻井液煤层气钻井应用现状与发展前景[J].石油钻采工艺,2011,33(3):78-81.
Zheng Lihui.Application state and prospects of bionic fuzzy-ball drilling fluids for coalbed methane drilling[J].Oil Drilling & Production Technology,2011,33(3):78-81.
[6] 田家林,庞小林,梁政,等.旋风状井底模型的新型钻头运动特性[J].石油学报,2013,34(6):1163-1167.
Tian Jialin,Pang Xiaolin,Liang Zheng,et al.Kinematic features of a new drill bit of the tornado-like bottom-hole model[J].Acta Petrolei Sinica,2013,34(6):1163-1167.
[7] 高科,李梦,董博,等.仿生耦合聚晶金刚石复合片钻头[J].石油勘探与开发,2014,41(4):485-489.
Gao Ke,Li Meng,Dong Bo,et al.Bionic coupling polycrystalline diamond composite Bit[J].Petroleum Exploration and Development,2014,41(4):485-489.
[8] 徐良,孙友宏,李治文,等.仿生孕镶金刚石钻头在山东玲珑金矿的试验[J].地质与勘探,2008,44(4):79-82.
Xu Liang,Sun Youhong,Li Zhiwen,et al.Experiment of bionics impregnated diamond bit in the Linglong gold mine,Shandong Province[J].Geology and Prospecting,2008,44(4):79-82.
[9] 徐良,孙友宏,高科.仿生孕镶金刚石钻头高效碎岩机理[J].吉林大学学报:地球科学版,2008,38(6):1015-1019.
Xu Liang,Sun Youhong,Gao Ke.Efficient rock fragmentation mechanism analysis of impregnated diamond bionics bit[J].Journal of Jilin University:Earth Science Edition,2008,38(6):1015-1019.
[10] 刘国强,张乐民.关于改进仿生水草海底管道悬空治理效果的探讨[J].工程质量,2014,32(10):38-41.
Liu Guoqiang,Zhang Lemin.Discussion on improved treatment effects on suspended sector of submarine pipeline by bionic aquatic plants[J].Construction Quality,2014,32(10):38-41.
[11] 刘锦昆,张宗峰.仿生水草在海底管道悬空防护中的应用[J].石油工程建设,2009,35(3):20-22.
Liu Jinkun,Zhang Zongfeng.Application of bionic aquatic weed for scour prevention of subsea pipeline[J].Petroleum Engineering Construction,2009,35(3):20-22.
[12] 蒋习民,陈同彦.仿生水草治理海底管道悬空情况探查及改进措施[J].石油工程建设,2013,39(5):15-18.
Jiang Ximin,Chen Tongyan.Investigation on application of bionic aquatic grass for treating subsea pipeline suspension and improvement measure[J].Petroleum Engineering Construction,2013,39(5):15-18.
[13] 刘兆芝.2008年国外石油科技十大进展之一:"血小板"技术解决油气田集输管道泄漏定位与修复难题[J].特种油气藏,2009,16(1):70.
Liu Zhaozhi.One of the ten overseas petroleum technological advancements in 2008:"Platelets" technology help locates and repairs pipeline leaks[J].Special Oil & Gas Reservoirs,2009,16(1):70.
[14] Pei Xiaohan,Shi Bairu,Chen Lin,et al.Metal foam sand control screen[R].SPE 165829,2013.
[15] Shi Bairu,Pei Xiaohan,Wei Songbo,et al.Application of bionic non-smooth theory in solid expandable tubular technology[J].Applied Mechanics and Materials,2014,461:476-481.
[16] Zheng Lichen,Sun Fuchao,Pei Xiaohan,et al.Vibration wave communication-realise remote control for zonal production[R].SPE 171442,2014.
[17] Saggaf M M.A vision for future upstream technologies[R].SPE 109323,2008.
[18] Sanni M L,Kamal R A,Kanj M Y.Reservoir nanorobots[J].Saudi Aramco Journal of Technology,2008,Spring:44-52.
[19] Kimbrell G,Hanson J.Nanotechnology[J].National Geographic,2006,210(4):98-119.
[20] Liu He,Shi Bairu,Zheng Lichen,et al.Prospects of using bionic technologies in oil/gas development[J].Applied Mechanics and Materials,2013,461:524-530.
[21] O'malley E J,Richard B M.Packer sealing element with shape memory material:US,7743825[P].2010-06-29.
[22] 王守觉.仿生模式识别(拓扑模式识别)——一种模式识别新模型的理论与应用[J].电子学报,2002,30(10):1417-1420.
Wang Shoujue.Bionic(Topological) pattern recognition-a new model of pattern recognition theory and its applications[J].Acta Electronica Sinica,2002,30(10):1417-1420.
[23] 余东亮,张来斌,梁伟,等.仿生模式识别在油气管道工况识别中的应用[J].振动与冲击,2008,27(增刊):176-179.
Yu Dongliang,Zhang Laibin,Liang Wei,et al.Bionic pattern recognition for oil & gas pipeline condition recognition[J].Journal of Vibration and Shock,2008,27(S):176-179.
[24] 孙久荣,戴振东.动物行为仿生学[M].北京:科学出版社,2013:9.
Sun Jiurong,Dai Zhendong.Bio-inspiration from animal behaviour[M].Beijing:The Science Press,2013:9.
[25] 岑海堂,陈五一.仿生学概念及其演变[J].机械设计,2007,24(7):1-2.
Cen Haitang,Chen Wuyi.Conception and evolvement of bionics[J].Journal of Machine Design,2007,24(7):1-2.
[26] 任露泉,梁云虹.耦合仿生学[M].北京:科学出版社,2011.
Ren Luquan,Liang Yunhong.Coupling bionics[M].Beijing:Science Press,2011.
[27] Jin Xu,Shi Bairu,Zheng Lichen,et al.Bio-inspired multifunctional metallic foams through the fusion of different biological solutions[J].Advanced Functional Materials, 2014,24(18):2721-2726.
[28] 孙久荣,戴振东.仿生学的现状和未来[J].生物物理学报,2007,23(2):109-115.
Sun Jiurong,Dai Zhendong.Bionics today and tomorrow[J].Acta Biophysica Sinica,2007,23(2):109-115.
[29] 何传启.第六次科技革命的战略机遇[M].北京:科学出版社,2011.
He Chuanqi.Strategic opportunities on the sixth revolution of science and technology[M].Beijing:Science Press,2011. |