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Jun T Tian

from Katy, TX
Age ~57
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Also known as:
Jason Jun Tian, Jun T Ian
Phone and address:
3711 Monarch Grove Ln, Katy, TX 77494
(832) 607-7691
Related to:
Michael Z Tian, 27Yin Tian
Connected to:
Amanda Y Tian, 30Chi Tian, 61Chunying Tian, 48David Tian, 32Dequan Tian, 58Dezhi Tian, 51E Tian, 61Eric Tian, 32Fang M Tian, 69Gao C Tian, 69

Jun Tian Phones & Addresses

  • 3711 Monarch Grove Ln, Katy, TX 77494 (832) 607-7691
  • 6157 Darlington Ct, League City, TX 77573 (281) 557-7612
  • La Porte, TX
  • 134 Graham Rd, Ithaca, NY 14850 (607) 257-9309
  • Galveston, TX

Work

Company: Multi-chem, a halliburton service - Houston, TX Jul 2012 Position: Director of flow assurance technology

Education

School / High School: Texas A&M University Apr 2013 Specialities: Business Leadership Development II

Resumes

Resumes

Jun Tian Photo 1

Scientist

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Work:
Hd Biosciences Co., Ltd.
Scientist
Jun Tian Photo 2

Scientist At Bristol-Myers Squibb, Syracuse, Ny

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Position:
Scientist at Bristol-Myers Squibb, Syracuse, New York
Location:
East Syracuse, New York
Industry:
Pharmaceuticals
Work:
Bristol-Myers Squibb, Syracuse, New York since Nov 2011
Scientist
Life Technologies Jun 2010 - Oct 2011
Staff Scientist
State University of New York at Buffalo Aug 2004 - May 2010
Graduate Research Associate
Zhejiang Jiayuan Pharmaceutical Industry Co., Ltd. 2003 - 2004
Development Scientist
Hangzhou Professional College of Computer Science 2002 - 2004
Instructor
Education:
State University of New York at Buffalo 2004 - 2010
PhD, Molecular/Cellular Biology, Cell-based Therapies, Stem Cells, High Throughput Screening Zhejiang University 2001 - 2004
MS, Biochemical Engineering-Cell Culure and Process Development Zhejiang University 1997 - 2001
BS, Chemical & Biological Engineering
Skills:
Cell Culture
Cell Therapy
Cell Signaling
Molecular & Cellular Biology
ELISA
Western Blotting
Stem Cells
Cell
Molecular Biology
Protein Purification
Cell Biology
Flow Cytometry
Languages:
English
Chinese Mandarian
Jun Tian Photo 3

Jun Tian Katy, TX

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Work:
Multi-Chem, A Halliburton Service
Houston, TX
Jul 2012 to May 2013
Director of Flow Assurance Technology
Baker Hughes
Sugar Land, TX
Feb 2005 to Jun 2012
Team Lead - Hydrate Control, Fluid Conditioning Group
Total Petrochemicals, Inc
Houston, TX
Jan 2001 to Dec 2005
Staff Chemist
Cornell University

Jan 1999 to Dec 2000
Professor Geoffrey Coates
University of Waterloo

Jan 1996 to Dec 1998
Professor Scott Collins
Chinese Academy of Sciences

Dec 1994 to Dec 1995
Assistant Professor of Polymer Science
Education:
Texas A&M University
Apr 2013
Business Leadership Development II
Chinese Academy of Sciences
Changchun, CN
Sep 1989 to Nov 1994
Ph.D. in Polymer Science
Dalian University of Technology
Dalian, CN
Sep 1985 to Jul 1989
B.Eng. in Chemical Engineering

Publications

Us Patents

Controlled Comonomer Distribution Along A Reactor For Copolymer Production

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US Patent:
7053163, May 30, 2006
Filed:
Feb 22, 2005
Appl. No.:
11/063028
Inventors:
Jun Tian - La Porte TX, US
David Rauscher - Angleton TX, US
William Gauthier - Houston TX, US
Mark C. Douglass - League City TX, US
Nelson Black - Pasadena TX, US
Ronald Tharappel - Missouri City TX, US
Assignee:
Fina Technology, Inc. - Houston TX
International Classification:
C08F 210/06
C08F 2/34
US Classification:
526348, 526 64, 526 87, 526901
Abstract:
The tendency of copolymer fluff grains of propylene and ethylene to agglomerate is reduced by injecting at least one olefin comonomer, such as ethylene monomer, into more than one point along the length of the reactor, rather than injecting all of the ethylene at one point. This process reduces the tendency of copolymer fluff grains to agglomerate and cause processing problems as compared with injecting the comonomer at only one point. Copolymer made by this process is expected to have lower substantially amorphous polypropylene content and better organoleptics than copolymer made where the ethylene is injected at only one point. In one non-limiting embodiment the copolymerization reactor is a loop-type reactor.

Kinetic Gas Hydrate Inhibitors In Completion Fluids

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US Patent:
7638465, Dec 29, 2009
Filed:
Aug 2, 2007
Appl. No.:
11/832741
Inventors:
Gordon T. Rivers - Houston TX, US
Jun Tian - League City TX, US
John B. Trenery - Sugar Land TX, US
Assignee:
Baker Hughes Incorporated - Houston TX
International Classification:
C09K 8/52
E21B 43/16
E21B 21/00
US Classification:
507 90, 1663051, 175 65
Abstract:
Gas hydrate formation in a well completion fluid in the annular space of a hydrocarbon producing well may be controlled by the incorporation of effective amounts of one or more low dose gas hydrate inhibitors, including but not limited to, low dosage hydrate inhibitors (LDHIs), kinetic hydrate inhibitors, dendrimeric or branched compounds, linear polymers and copolymers and onium compounds.

Oxazolidinium Compounds And Use As Hydrate Inhibitors

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US Patent:
7662970, Feb 16, 2010
Filed:
Oct 16, 2007
Appl. No.:
11/872887
Inventors:
Gordon T. Rivers - Houston TX, US
Jun Tian - League City TX, US
James A. Hackerott - Houston TX, US
Assignee:
Baker Hughes Incorporated - Houston TX
International Classification:
C07D 263/04
US Classification:
548215, 585899
Abstract:
Oxazolidinium compounds are formed by the reaction of a halohydrin or an epoxide with a secondary amine and an aldehyde or a ketone. The oxazolidinium compounds are formed directly and do not require the reaction of a pre-formed oxazolidine with an alkylating agent. The compounds are useful as gas hydrate inhibitors in oil and gas production and transportation.

Transition Metal Catalyst And Formation Thereof

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US Patent:
7683002, Mar 23, 2010
Filed:
Jul 25, 2006
Appl. No.:
11/492351
Inventors:
Jun Tian - League City TX, US
William Gauthier - Hoeilaart, BE
Joseph Thorman - League City TX, US
Shady Henry - Seabrook TX, US
Assignee:
Fina Technology, Inc. - Houston TX
International Classification:
C08F 4/642
C08F 4/6592
B01J 31/14
B01J 31/22
US Classification:
502104, 502110, 502152, 502154
Abstract:
Catalyst systems and methods of forming the catalyst systems are described herein. The methods generally include contacting a support material with an activator to form a support composition, contacting a component with at least a portion of an aluminum containing compound including TIBAl, wherein the component is selected from the support composition, the transition metal catalyst compound and combinations thereof and contacting the support composition with a transition metal catalyst compound to form a supported catalyst system.

Transition Metal Catalyst Systems And Formation Thereof

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US Patent:
7973113, Jul 5, 2011
Filed:
Dec 21, 2009
Appl. No.:
12/642896
Inventors:
Jun Tian - League City TX, US
William Gauthier - Hoeilaart, BE
Joseph Thorman - League City TX, US
Shady Henry - League City TX, US
Assignee:
Fina Technology, Inc. - Houston TX
International Classification:
C08F 4/642
C08F 4/6592
B01J 31/14
B01J 31/22
US Classification:
526160, 526129, 526165, 526943, 502104, 502110, 502152, 502154
Abstract:
Catalyst systems and methods of forming the catalyst systems are described herein. The methods generally include contacting a support material with an activator to form a support composition, contacting a component with at least a portion of an aluminum containing compound including TIBAl, wherein the component is selected from the support composition, the transition metal catalyst compound and combinations thereof and contacting the support composition with a transition metal catalyst compound to form a supported catalyst system.

Multi-Component Catalyst Systems And Polymerization Processes For Forming In-Situ Heterophasic Copolymers And/Or Varying The Xylene Solubles Content Of Polyolefins

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US Patent:
8003739, Aug 23, 2011
Filed:
Oct 17, 2007
Appl. No.:
11/975014
Inventors:
Tim J. Coffy - Houston TX, US
Michel Daumerie - Houston TX, US
Kenneth P. Blackmon - Houston TX, US
William J. Gauthier - Hoeilaart, BE
Jun Tian - League City TX, US
Joseph L. Thorman - League City TX, US
Assignee:
Fina Technology, Inc. - Houston TX
International Classification:
C08F 4/653
C08F 4/6592
C08F 210/02
C08F 210/06
B01J 31/22
US Classification:
526113, 526160, 526165, 526348, 526943
Abstract:
Embodiments of the invention generally include multi-component catalyst systems, polymerization processes and heterophasic copolymers formed by the processes. The multi-component catalyst system generally includes a first catalyst component selected from Ziegler-Natta catalyst systems including a diether internal electron donor and a metallocene catalyst represented by the general formula XCpCpMA, wherein X is a structural bridge, Cpand Cpeach denote a cyclopentadienyl group or derivatives thereof, each being the same or different and which may be either substituted or unsubstituted, M is a transition metal and A is an alkyl, hydrocarbyl or halogen group and n is an integer between 0 and 4. The multi-component catalyst system further includes a second catalyst component generally represented by the formula XCpCpMA, wherein X is a structural bridge, Cpand Cpeach denote a cyclopentadienyl group or derivatives thereof, each being the same or different and which may be either substituted or unsubstituted, M is a transition metal and A is an alkyl, hydrocarbyl or halogen group and n is an integer between 0 and 4 and wherein the second catalyst component exhibits a higher ethylene response than the first catalyst component.

Method Of Transitioning To Kinetic Hydrate Inhibitors In Multiple Tie-In Well Systems

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US Patent:
8047296, Nov 1, 2011
Filed:
Jul 22, 2009
Appl. No.:
12/507341
Inventors:
Jun Tian - League City TX, US
Timothy Z. Garza - Dickinson TX, US
Assignee:
Baker Hughes Incorporated - Houston TX
International Classification:
E21B 41/00
E21B 43/01
C09K 8/52
US Classification:
166366, 137 13, 1662441, 166310, 507 90, 507266
Abstract:
The technical challenges for a smooth transition between using both a thermodynamic hydrate inhibitor (THI) and a kinetic hydrate inhibitor (KHI) to simply using only the KHI in multiple tie-in gas natural gas production systems is solved by adding more THI in a first pipeline leg of the production system while ceasing adding THI in a second pipeline leg of the system. Further, more KHI is added into the second leg of the system, and subsequently THI is gradually and/or slowly reduced in the remaining legs of the system until only KHI is being injected, after which the KHI amount in all legs may be reduced to the equilibrium or steady-state levels.

Kinetic Gas Hydrate Inhibitors In Completion Fluids

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US Patent:
8048827, Nov 1, 2011
Filed:
Dec 18, 2009
Appl. No.:
12/641526
Inventors:
Gordon T. Rivers - Houston TX, US
Jun Tian - League City TX, US
John B. Trenery - Sugar Land TX, US
Assignee:
Baker Hughes Incorporated - Houston TX
International Classification:
C09K 8/82
E21B 43/25
E21B 43/16
US Classification:
507 90, 1663051, 175 65
Abstract:
Gas hydrate formation in a well completion fluid in the annular space of a hydrocarbon producing well may be controlled by the incorporation of effective amounts of one or more low dose gas hydrate inhibitors, including but not limited to, low dosage hydrate inhibitors (LDHIs), kinetic hydrate inhibitors, dendrimeric or branched compounds, linear polymers and copolymers, grafted or branched linear polymers and copolymers, and onium compounds.
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Jun T Tian from Katy, TX, age ~57 Get Report