1994年毕业于美国密苏里大学，获博士学位。之后在美国克拉科森大学（Clarkson University）从事博士后研究2年, 先后在美国世界500强 罗地亚，联合利华，贝克休斯等公司任高级技术专家15年，中石油勘探开发研究院特聘专家，具有产学研一体化经验，所开发的新产品创造产值累计上亿美元。

油气田开发中压裂酸化液，提高采收率，腐蚀，结垢，污水处理等。

《Natural Gas Industry B》编委（Engineering Index Journal）

博士，硕士

1.国家自然科学基金:粘弹性表面活性剂用于油气增产压裂液的应用基础研究。
2.中国石油天然气集团公司项目:非常规油气开发压裂体系开发。
3.国家863项目: 致密砂岩气高效钻井与压裂改造关键技术。

获贝克休斯公司个人杰出科技成就奖

国家“千人计划”特聘专家；
陕西省“三秦学者”特聘教授

《油气田开采化学技术》石油工业出版社（在版）

1. Yang, J.；Jiang W. et al, Optimizing Nanoemulsions as Fluid Flowback Additives in Enhancing Tight Gas Production, J. Petroleum Sci. Eng. 2014, 121,122-125 (SCI摘录)
2. Yang, J. Instant Gel Formation of Viscoelastic Surfactant Fracturing Fluids by Diluting Through Lamellar Liquid Crystal, J. Petroleum Sci. Eng. In press (SCI摘录)
3. Yang, J.; Jiang W. et al, Preparation of D-limonene Oil in Water Nanoemulsion from Optimum Formulation, J. Oleo Science, 2014, 63 (11) (SCI Expanded摘录)
4. Yang, J. Nanotechnologies for petroleum engineering, Nanotechnol Rev, 2014, in press (SCI Expanded摘录)
5. Yang, J. Effect of Hydrocarbon Structure on Phase Behavior of
Dihydrogenated Tallowalkyl Dimethyl Ammonium Chloride and Water J. Phys. Chem. in press (SCI摘录)
6. Qin, W., Liu, X., Yang, J. Amperometric Sensors for Detection of Phenol in Oilfield Wastewater Using Electrochemical Polymerization of Zincon Film, Anal. Methods, 2014, 6, 5734-5740. (SCI摘录)
7. Li, R; Pan, J; Qin, W.; Yang, J. Effect of pH on Characterization and Coagulation Performance of Poly-silicic-cation Coagulant, Desalination, 2014, 351, 37-42. (SCI摘录)
8. Yang, J., Yang, Z., Lu, Y., Rheological Properties of Zwitterionic Wormlike Micelle in Presence of Solvents and Cosurfactant at High Temperature， J. Dispersion Sci. Tech. 34 (2013)8: 1124-1129 (SCI摘录)。
9. Jiang W. Yang, J.；et al, Environment Friendly Nanoemulsion as Fluid Flowback Additives in Unconventional Gas Production, International Academic Conference on the Environment, Energy and Power Engineering, Jun 14-15, 2014, Changsha, China. (EI摘录 )
10. Yang, J.; Zhou, Y.N.; Lu, Y.J. et al, Novel Thermo Thickening Smart Gel with Interpenetrating Polymer and Surfactant Network, Advanced Materials Research, 983(2014) 7-10. (EI摘录)
11. Yang, J., Wang, X., Lu, Y., Effect of Dynamic Surface Activity of Surfactant on Performance of Foam for Gas Well Deliquification. SPE Western Regional & AAPG Pacific Section Meeting, 2013 Joint Technical Conference 19−25 April 2013, Monterey, CA, USA. Paper #165366. (EI摘录)
12. Yang, J., Lu, Y., Guan, B., Effect of Liquid Crystal on Gel Formation Rate of Viscoelastic Surfactant for Hydraulic Fracturing, SPE Western Regional & AAPG Pacific Section Meeting, 2013 Joint Technical Conference 19−25 April 2013, Monterey, CA, USA. Paper #165366. (EI 摘录)
13. Yang, J., Lu, Y., Guan, B., Viscoelastic Evaluation of Gemini Surfactant Gel for Hydraulic Fracturing, SPE European Formation Damage Conference, Noordwijk, Netherlands, 5–7 June 2013. paper #165177。 (EI 摘录)
14. Yang, J.; Jovancicevic, V.; Mancuso, S. High Performance Batch Treating Corrosion Inhibitor”, NACE 2007 , Paper #07693. (EI 摘录)
15. Orta, D.; Ramanchandran, S.; Yang, J. A Novel Foamer for Deliquification of Condensate Loaded Wells, SPE Rocky Mountain Oil & Gas Technology Symposium held in Denver, Colorado, U.S.A., 16–18 April 2007, Paper #107980. (EI 摘录)
16. Yang, J.; Jovancivic, V. Foam for Gas Well Deliquification, Colloid and Surface A, 309 (2007) 177-181. (SCI摘录)
17. J. Yang, Application of surfactant phase behavior in developing oilfield products”, Journal of Dispersion Science and Technology 27 (2006) 745. (SCI摘录)
18. Yang, J.; Ramachandran S.; Li, W. Protecting and Increasing Production of Gas Wells Using Corrosion Inhibitors and Foamers”, 16th International Corrosion Congress, Beijing, China, Paper #17-14, September 2005. (EI摘录)
19. Yang, J. Interaction of Surfactants and Aminoindophenol Dye, J. Colloid Interface Science, 271(2004) 237-243. (SCI摘录)
20. Yang, J. Viscoelastic Wormlike Micelle and Their Applications”, Current Opinion in Colloid and Surface Science, 7 (2002), 276-281. (SCI摘录)
21. 周逸凝，杨江，等，一种新型超分子复合压裂液性能研究，油田化学, 已接受， 在版。
22. 秦文龙，杨江，等，高密度粘弹性表面活性剂入井液的性能研究，钻井液完井液，已接受， 在版。
23. 秦文龙，杨江，纳米技术在提高采收率化学中的应用新进展, 断块油气田，2013，20(1), 10-13。
24. 杨江，秦文龙，陈军斌等，纳米技术在油气田开发中复变流体的应用，应用化工，2013, 42(4)， 717-719。
25. 杨珍，秦文龙，杨江，一种阳离子双子表面活性剂压裂液的研究及应用，钻井液完井液，2013, 30（6）64-67。
26. 姜伟，管保山，杨江，煤层气压裂用解吸附的研制与应用，钻井液完井液，2013, 30（6）61-63。
27. 杨冠科，杨江，管保山 秦文龙, 耐高温低伤害VES-HT01压裂液的性能评价，油田化学，2014, 31(1), 29-32.
28. 秦文龙，杨江，长链酰胺基磺酸盐型双子表面活性剂的合成及性能研究;日用化学工业; 2014, 44(6-9), 18.

1. 超低渗透气井纳米微乳液助排剂，申 请 号: 201410025814.0
2. 一种纳米复合压裂液及其制备方法与应用，申 请 号: 201310372987.5
3. 粘弹性表面活性剂压裂液及其制备方法与应用，申 请 号: 201210533642.9
4. 含多个亲水和疏水基表面活性剂自转向酸化液，申 请 号: 201310101432.7
5. 石油生产用新型特种缓蚀剂 中国专利号：200910080533.4
6. 石油天然气增产用缓蚀发泡剂，中国专利号：200910080534.9
7. 压裂地下岩层的方法，中国专利公开号：CN1389538
8. 包含粘弹性表面活性剂的液体和其使用方法” 中国专利公开号CN1263481
9. Microemulsion Containing Oil Field Chemicals Useful for Oil and Gas Field Applications”, US Patent 7851414(2010).
10. Process for Foaming A Wet Hydrocarbon Composition”, US Patent US 7823647 (2010)
11. Corrosion Inhibitors For Oilfield Applications”, US Patent Application No 20090181867.
12. Microemulsion Containing Oil Field Chemicals Useful for Oil and Gas Field Applications”, US Patent 7615516(2009).
13. Viscoelastic Surfactant and Related Methods of Use，US Patent 7238648(2007)
14. Method and Apparatus for Preventing Slug Flow in Pipeline, US Patent No 7,395,864（2008）
15. High Performance Foamer for Unloading Gas Well, US Patent No 7422064(2008)
16. Polymeric Nanoemulsions Drag Reducer for Multiphase Flow，US Patent 7,468,402(2008).
17. “Viscoelastic Surfactant and Related Methods of Use” US Patent No:6,831,108 (2004).