Ajay N Badhwar from 11112 Zimmerman Ln #24, Austin, TX 78726, age 48

Resumes

Business Director

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Location:

Austin, TX

Industry:

Oil & Energy

Work:

The Dow Chemical Company May 2008 - Mar 2018
Market Manager
Thermo Fisher Scientific May 2008 - Mar 2018
Business Director
The Dow Chemical Company Oct 2007 - May 2008
New Business Development Manager
The Dow Chemical Company Jun 2006 - Sep 2007
Senior Engineer
The Dow Chemical Company Mar 2004 - Jun 2006
Development Engineer

Education:

Executive Education / Stanford Graduate School of Business 2017 - 2017
University of Michigan, Ann Arbor Apr 2007
Master of Business Administration, Masters University of Michigan - Stephen M. Ross School of Business 2004 - 2007
Master of Business Administration, Masters, Finance University of Waterloo 1995 - 2000
Bachelors, Bachelor of Arts, Chemical Engineering, Engineering, International Studies Meito Senior High School Jun 1995
Northern Collegiate Institute & Vocational School
University of Michigan
Master of Business Administration, Masters, Finance

Skills:

Polymers
Chemical Engineering
Cross Functional Team Leadership
Coatings
Process Engineering
Strategy
Process Optimization
Market Development
Commercialization
Six Sigma
Chemistry
Adhesives
R&D
Plastics
Polymer Chemistry
Process Simulation
Additives
Polyurethane

Publications

Us Patents

Method To Selectively Remove Hydrogen Sulfide From A Gas Stream Using A Functionalized Cross-Linked Macroporous Polymer

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US Patent:

20180001299, Jan 4, 2018

Filed:

Feb 23, 2016

Appl. No.:

15/540476

Inventors:

- Midland MI, US
Ajay N. BADHWAR - Houston TX, US
H. Robert GOLTZ - Midland MI, US
Gerardo PADILLA - Lake Jackson TX, US

Assignee:

Dow Global Technologies LLC - Midland MI

International Classification:

B01J 20/26
C10L 3/10
B01D 53/047
B01J 20/28
B01D 53/04

Abstract:

A process is disclosed for the removal of hydrogen sulfide (HS) from natural. This process provides for passing a natural gas feedstream comprising HS though a regenerable adsorbent media which adsorbs HS to provide an HS-lean natural gas product and HS. The regenerable adsorbent media of the present invention is a tertiary amine functionalized cross-linked macroporous polymeric adsorbent media.

Temperature Controlled Adsorption Process For Recovering Condensable Components From A Gas Stream

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US Patent:

20170233669, Aug 17, 2017

Filed:

Oct 20, 2015

Appl. No.:

15/514908

Inventors:

- Midland MI, US
Ajay N. Badhwar - Houston TX, US

Assignee:

Dow Global Technologies LLC - Midland MI

International Classification:

C10L 3/10
B01D 53/04
B01J 20/26
B01D 53/047

Abstract:

Disclosed is an improved process for recovering condensable components from a gas stream, in particular, hydrocarbons from a gas stream such as natural gas. The present process uses solid adsorbent media to remove said hydrocarbons wherein the adsorbent media is regenerated in a continuous fashion in a heated continuous counter-current regeneration system, wherein said heated regenerated adsorbent media is cooled prior to reuse.

Process For Carbon Dioxide Recovery From A Gas Stream Containing Carbon Dioxide And Hydrocarbons

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US Patent:

20170216759, Aug 3, 2017

Filed:

Aug 5, 2014

Appl. No.:

15/328546

Inventors:

- Midland MI, US
Ajay N. Badhwar - Houston TX, US
H. Robert Goltz - Midland MI, US
Jonathan W. Leister - Manvel TX, US
Nicholas J. Shurgott - Rosharon TX, US

Assignee:

Dow Global Technologies LLC - Midland MI

International Classification:

B01D 53/04
B01J 20/28
B01J 20/20
E21B 43/16
B01J 20/34
C07C 7/12
E21B 43/40
B01J 20/26
B01J 20/30

Abstract:

The present invention relates to a process for purification of a carbon dioxide feedstock, for example from a production well, which comprises carbon dioxide and gaseous and liquid C+ hydrocarbons. Specifically, a carbon dioxide feedstream is passed through one or more separation unit wherein each separation unit removes one or more C+ hydrocarbon from the carbon dioxide feedstream to provide a richer carbon dioxide gas stream. The process comprises one or more separation unit which employs an adsorption media and has an adsorption step and a media regeneration step wherein the regeneration step may be operated as a batch process, a semi-continuous process, or a continuous process. One embodiment of this method provides for the use of a different regenerable adsorbent media in two or more separation units.

Improved Adsorption Process For Recovering Condensable Components From A Gas Stream

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US Patent:

20170066987, Mar 9, 2017

Filed:

Aug 5, 2014

Appl. No.:

15/303580

Inventors:

- Midland MI, US
Ajay N. Badhwar - Houston TX, US
Ross E. Dugas - Pearland TX, US
H. Robert Goltz - Midland MI, US
Scott T. Matteucci - Midland MI, US

Assignee:

Dow Global Technologies LLC - Midland MI

International Classification:

C10L 3/10
B01D 53/047
C10G 5/06
B01D 53/00
C10G 5/02
B01D 53/04
B01D 5/00

Abstract:

Disclosed is an improved process for recovering condensable components from a gas stream, in particular, heavier hydrocarbons from a gas stream. The present process uses solid adsorbent media to remove said heavier hydrocarbons wherein the adsorbent media is regenerated in a continuous fashion in a continuous adsorbent media counter-current regeneration system using a stripping gas to provide a regenerated adsorbent media and a product gas comprising heavier hydrocarbons from a loaded adsorbent media. The improvement is the use of a portion of the product gas from the regeneration unit as the stripping gas.

Co-Current Regeneration Process For Adsorption Media Used For Recovering Condensable Components From A Gas Stream

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US Patent:

20170066988, Mar 9, 2017

Filed:

Aug 5, 2014

Appl. No.:

15/303593

Inventors:

- Midland MI, US
Ajay N. Badhwar - Houston TX, US
Ross E. Dugas - Pearland TX, US
H. Robert Goltz - Midland MI, US
Scott T. Matteucci - Midland MI, US

Assignee:

Dow Global Technologies LLC - Midland MI

International Classification:

C10L 3/10
B01J 20/34
B01D 53/08

Abstract:

Disclosed is an improved process for recovering condensable components from a gas stream, in particular, heavier hydrocarbons from a gas stream. The present process uses solid adsorbent media to remove said heavier hydrocarbons wherein the adsorbent media is regenerated in a continuous fashion in a continuous adsorbent media co-current regeneration system using a stripping gas to provide a regenerated adsorbent media and a product gas comprising heavier hydrocarbons from a loaded adsorbent media.

Sequential Removal Of Ngls From A Natural Gas Stream

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US Patent:

20160340596, Nov 24, 2016

Filed:

Aug 5, 2014

Appl. No.:

15/114962

Inventors:

- Midland MI, US
H. Robert GOLTZ - Midland MI, US
Ajay N. BADHWAR - Houston TX, US
Nicholas J. SHURGOTT - Rosharon TX, US
Jonathan W. LEISTER - Manvel TX, US

Assignee:

Dow Global Technologies LLC - Midland MI

International Classification:

C10G 5/02
B01D 15/20
B01D 15/18
C10L 3/10

Abstract:

Disclosed is a method of sequentially separating and recovering one or more NGLs () from a natural gas feedstream (). Specifically, a raw natural gas feedstream () is passed through two or more NGLs separation unit () wherein each separation unit removes one or more NGLs from the natural gas feedstream to provide a methane-rich natural gas supply (). Each separation unit employs an adsorption media and has an adsorption step and a media regeneration step wherein the regeneration step may be operated as a batch process, a semi-continuous process, or a continuous process. One embodiment of this method provides for the use of a different regenerable adsorbent media in each separation unit.

Method To Provide Pipeline Quality Natural Gas

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US Patent:

20160333275, Nov 17, 2016

Filed:

Aug 5, 2014

Appl. No.:

15/107636

Inventors:

- Midland MI, US
Ajay N. Badhwar - Houston TX, US
Nicholas J. Shurgott - Rasharon TX, US
H. Robert Goltz - Midland MI, US

Assignee:

Dow Global Technologies LLC - Midland MI

International Classification:

C10G 5/02
B01D 53/04
B01J 20/34
B01J 20/26
B01J 20/28
B01D 53/08
C10L 3/10

Abstract:

The present invention relates to a method of separating and recovering NGLs from a natural gas feedstream. Specifically, the present method allows for the separation of ethane and heavier hydrocarbons and/or propane and heavier hydrocarbons from a raw natural gas feedstream to provide pipeline quality natural gas. One embodiment of this method provides for the use of a regenerable adsorbent media which is regenerated by a microwave heating system. Said regeneration step may be operated as a batch process, a semi-continuous process, or a continuous process.

Methane-Rich Natural Gas Supply For Stationary Combustion Systems

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US Patent:

20160319210, Nov 3, 2016

Filed:

Aug 5, 2014

Appl. No.:

15/104435

Inventors:

- Midland MI, US
Ajay N. Badhwar - Houston TX, US
Nicholas J. Shurgott - Rosharon TX, US
H. Robert Goltz - Midland MI, US

International Classification:

C10L 3/10
C10G 5/02
F02M 21/02
B01D 53/08

Abstract:

Disclosed is a method for running natural gas powered stationary combustion systems, such as an internal combustion engine, a furnace, a fired heater, a power plant, an incinerator, and the like. In one embodiment of the present method, ethane and heavier hydrocarbons or propane and heavier hydrocarbons () are removed () from a natural gas feedstream () to provide the methane-rich natural gas stream () used to fuel the stationary combustion system (). One embodiment of this method provides for the use of a regenerable adsorbent media to remove the higher hydrocarbons which is regenerated by a microwave heating system. Said regeneration step may be operated as a batch process, a semi-continuous process, or a continuous process.

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