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Michael J Zetlmeisl

from Saint Louis, MO
Age ~83
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Also known as:
Michael Joseph Zetlmeisl, Michael C Zetlmeisl, Michael W Zetlmeisl, Mary W Zetlmeisl, Mary E Zetlmeisl, Michael J Zetlmisl, Mike Zetlmeisl
Phone and address:
12161 Hibler Dr, Saint Louis, MO 63141
(314) 392-9251
Related to:
Mary J Zetlmeisl, 78Tom Zetlmeisl, 49Matt S Zetlmeisl, 46Maureen W Zetlmeisl, 51Mary W ZetlmeislMary W Zetlmeisl, 76Elizabeth S Zetlmeisl, 44Kristina T Zetlmeisl, 52Ciezl G Willis, 67
Connected to:
Paul L Zetlmeisl, 55Ellen M Zetmeir, 62Dawn M Zeto, 63Michael J Zeto, 79Paul N Zeto, 73Trisha Zetocka, 52Steven P Zetouna, 39Orit A Zetouni, 51Dolor Zetrenne, 47

Michael Zetlmeisl Phones & Addresses

  • 12161 Hibler Dr, Saint Louis, MO 63141 (314) 392-9251
  • 7237 Maryland Ave, Saint Louis, MO 63130
  • University City, MO
  • 22419 Silvermist Ln, Park Row, TX 77494 (281) 240-5648 (281) 693-2341 (281) 693-2350
  • Katy, TX
  • 5010 Grove West Blvd W, Stafford, TX 77477 (281) 240-5648

Work

Company: Baker hughes Jan 1971 to Oct 2009 Position: Middle management

Education

Degree: Doctorates, Doctor of Philosophy School / High School: Saint Louis University 1967 to 1971 Specialities: Chemistry

Skills

Oilfield • Petroleum • Corrosion • Chemistry • Chemical Engineering • Gas • Petroleum Engineering • Upstream • Characterization • Oil and Gas Industry • Energy • Process Engineering • Petrochemical • Oil and Gas • Water Treatment • Engineering • Refining • Process Safety • Oil/Gas

Industries

Chemicals

Resumes

Resumes

Michael Zetlmeisl Photo 1

Part Time Council Member

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Location:
St, Louis, MO
Industry:
Chemicals
Work:
Baker Hughes Jan 1971 - Oct 2009
Middle Management
Germanischer Lloyd Jan 1971 - Oct 2009
Part Time Council Member
Education:
Saint Louis University 1967 - 1971
Doctorates, Doctor of Philosophy, Chemistry Marquette University 1966 - 1967
Master of Science, Masters, Chemistry
Skills:
Oilfield
Petroleum
Corrosion
Chemistry
Chemical Engineering
Gas
Petroleum Engineering
Upstream
Characterization
Oil and Gas Industry
Energy
Process Engineering
Petrochemical
Oil and Gas
Water Treatment
Engineering
Refining
Process Safety
Oil/Gas

Publications

Us Patents

Method For Chemical Addition Utilizing Adaptive Optimization

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US Patent:
6535795, Mar 18, 2003
Filed:
Aug 9, 1999
Appl. No.:
09/370311
Inventors:
Myron E. Schroeder - Tomball TX
Marilyn W. Blaschke - Richmond TX
Michael J. Zetlmeisl - Stafford TX
David M. Fischer - Richmond TX
Kenneth J. Tacchi - Houston TX
Assignee:
Baker Hughes Incorporated - Houston TX
International Classification:
G05B 2100
US Classification:
700266, 700265, 210739, 210709, 210 85, 210 961, 210143, 210704, 210705, 210723, 210726, 210727, 210728, 210749, 706 15, 706 23, 706273
Abstract:
The present invention provides a method for chemical addition utilizing adaptive process control optimizations having a combination of expert system(s), neural network(s) and genetic algorithm(s).

Multi-Amine Neutralizer Blends

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US Patent:
7381319, Jun 3, 2008
Filed:
Aug 31, 2004
Appl. No.:
10/930876
Inventors:
Joel E. Lack - Sugar Land TX, US
George G. Duggan - Katy TX, US
Michael J. Zetlmeisl - Katy TX, US
Assignee:
Baker Hughes Incorporated - Houston TX
International Classification:
C10G 7/10
C23F 11/14
US Classification:
208 47, 252390, 508545, 508561, 508562, 585950
Abstract:
Amine and amine blend compositions neutralize acid environments in distillation overheads of hydrocarbon processing facilities. The neutralizers are composed of certain combinations of amines which are relatively stronger bases and more resistant to hydrochloride salt formation. The amines, when blended together, provide greater neutralization of condensed water present without increased potential for corrosive hydrochloride salt formation.

Method For Improving Liquid Yield During Thermal Cracking Of Hydrocarbons

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US Patent:
7416654, Aug 26, 2008
Filed:
Jul 18, 2005
Appl. No.:
11/183731
Inventors:
Joseph L. Stark - Richmond TX, US
Thomas Falkler - Missouri City TX, US
Jerry J. Weers - Richmond TX, US
Michael J. Zetlmeisl - Katy TX, US
Assignee:
Baker Hughes Incorporated - Houston TX
International Classification:
C10G 9/26
US Classification:
208125, 208131
Abstract:
Metal additives to hydrocarbon feed streams give improved hydrocarbon liquid yield during thermal cracking thereof. Suitable additives include metal overbases and metal dispersions and the metals suitable include, but are not necessarily limited to, magnesium, calcium, barium, strontium, aluminum, boron, zinc, silicon, cerium, titanium, zirconium, chromium, molybdenum, tungsten, and/or platinum, overbases and dispersions. Coker feedstocks and visbreaker feeds are particular hydrocarbon feed streams to which the method can be advantageously applied, but the technique may be used on any hydrocarbon feed that is thermally cracked.

Method For Improving Liquid Yield During Thermal Cracking Of Hydrocarbons

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US Patent:
7935246, May 3, 2011
Filed:
Aug 25, 2008
Appl. No.:
12/197791
Inventors:
Joseph L. Stark - Richmond TX, US
Thomas Falkler - Missouri City TX, US
Jerry J. Weers - Richmond TX, US
Michael J. Zetlmeisl - Katy TX, US
Assignee:
Baker Hughes Incorporated - Houston TX
International Classification:
C10G 11/02
US Classification:
208121, 208122, 208123, 208124
Abstract:
Metal additives to hydrocarbon feed streams give improved hydrocarbon liquid yield during thermal cracking thereof. Suitable additives include metal overbases and metal dispersions and the metals suitable include, but are not necessarily limited to, magnesium, calcium, barium, strontium, aluminum, boron, zinc, silicon, cerium, titanium, zirconium, chromium, molybdenum, tungsten, and/or platinum, overbases and dispersions. Particularly useful metals include magnesium alone or magnesium together with calcium, barium, strontium, boron, zinc, silicon, cerium, titanium, zirconium, chromium, molybdenum, tungsten, and/or platinum. In one non-limiting embodiment, no added hydrogen is employed. Coker feedstocks and visbreaker feeds are particular hydrocarbon feed streams to which the method can be advantageously applied, but the technique may be used on any hydrocarbon feed that is thermally cracked.

Corrosion Inhibitor

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US Patent:
20070119747, May 31, 2007
Filed:
Nov 17, 2006
Appl. No.:
11/601402
Inventors:
Bradley Harrell - Pearland TX, US
David Pollard - Liverpool, GB
Michael Zetlmeisl - Katy TX, US
Joseph Stark - Richmond TX, US
Robert Ziegler - Houston TX, US
Michael McElhinney - Liverpool, GB
Assignee:
Baker Hughes Incorporated - Houston TX
International Classification:
C10G 7/10
US Classification:
208047000, 252387000
Abstract:
A composition and method of inhibiting corrosion caused by naphthenic acid in fluids includes using a combination of a thiophosphorus compound and a hydrogen sulfide scavenging compound. The hydrogen sulfide scavenging compound significantly enhances the performance of the thiophosphorus compound and may be included at relatively low levels in the composition. The treatment may be applied to fluids including crude oils and lighter fractions thereof.

Method And Compositions For Inhibition Of Naphthenic Acid Induced Corrosion

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US Patent:
20080001125, Jan 3, 2008
Filed:
Nov 17, 2006
Appl. No.:
11/601401
Inventors:
Michael J. Zetlmeisl - Katy TX, US
Bradley G. Harrell - Pearland TX, US
Bradley G. Borgard - Cedar Park TX, US
Scott Bieber - Katy TX, US
Assignee:
Baker Hughes Incorporated - Houston TX
International Classification:
C10G 17/00
C09K 3/00
C23F 11/00
US Classification:
252388, 208256, 25238921, 252391, 252394, 252395
Abstract:
Corrosion induced by the presence of naphthenic acids in hydrocarbon fluids, particularly where such fluids are at elevated temperatures, may be inhibited or controlled through use of corrosion inhibiting compositions comprising a combination of a minor portion of a phosphorus-based constituent and a major portion of a sulfur-based constituent, nitrogen-based constituent, or combination thereof. In another embodiment the sulfur-based constituent and/or nitrogen-based constituent may be used without any phosphorus-based constituent. Where the compounds are appropriately selected, the compositions may inhibit corrosion to a degree comparable or nearly comparable to the inhibition provided by an equal amount of some conventional phosphorus-based compounds alone, but are significantly less likely to impair catalyst activity in downstream cracking and refinery operations.

Additives For Reduction Of Exhaust Emissions From Compression Ignition Engines

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US Patent:
20080295395, Dec 4, 2008
Filed:
May 29, 2008
Appl. No.:
12/128918
Inventors:
Bradley G. Harrell - Pearland TX, US
Michael J. Zetlmeisl - Katy TX, US
Christopher Gallagher - Broken Arrow OK, US
Jianzhong Yang - Houston TX, US
Andrew J. McCallum - Katy TX, US
Assignee:
Baker Hughes Incorporated - Houston TX
International Classification:
C10L 1/18
US Classification:
44322
Abstract:
Exhaust emissions resulting from the combustion of hydrocarbon fuels in compression ignition engines may be reduced using a homopolymer that may be polyisobutylene, polypropylene, and/or hyperbranched polyalpha-olefins. Optionally, an alkyl nitrate such as 2-ethylhexylnitrate (2EHN), and/or a peroxide, such as hydrogen peroxide, may also be used together with the homopolymer. Both NOx and particulate matter emissions (PM) may be reduced using ppm quantities of the additive compositions; alternatively, NOx emissions may be lowered or reduced while PM emissions do not substantially increase.

Method For Reducing Acids In Crude Or Refined Hydrocarbons

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US Patent:
20090236263, Sep 24, 2009
Filed:
Mar 23, 2009
Appl. No.:
12/409179
Inventors:
Joseph L. Stark - Richmond TX, US
Michael J. Zetlmeisl - Katy TX, US
Bradley G. Harrell - Pearland TX, US
Lawrence N. Kremer - The Woodlands TX, US
Assignee:
Baker Hughes Incorporated - Houston TX
International Classification:
C10G 45/00
C09K 3/00
US Classification:
208 14, 208263, 25218828
Abstract:
Total acid number and/or corrosiveness of a crude or refined hydrocarbon, where the total acid number and/or corrosiveness is due to the presence of acid compounds such as carboxylic acid (naphthenic acid), may be reduced by treating the hydrocarbon with a metallic overbase. The effect of this treatment may be substantially enhanced by the presence of a hydrogen transfer agent. The abstract is submitted with the understanding that it will not be used to interpret or limit the scope or meaning of the claims. 37 CFR 1.72(b)
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Michael J Zetlmeisl from Saint Louis, MO, age ~83 Get Report