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Greg A Lisewsky

from Houston, TX
Age ~57
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Also known as:
Greg Allen Lisewsky, Teresa Lisewsky, Lisewsky Greg Allen
Phone and address:
420 W 15Th St, Houston, TX 77008
(972) 985-9011
Related to:
Thomas Seward AllenBonnie AllenSeward Allen, 67Gary Slater, 62Juanita Palmer, 83Jarrell Slater, 30
Connected to:
Jason W Lisewski, 54Harvey N Lisgar, 76Alex Lish, 40Daniel Lish, 37Davina L Lish, 48Donna J Lish, 80Enoch E Lish, 50Erin D Lish, 43Henya Lish, 124Krystal G Lish, 39

Greg Lisewsky Phones & Addresses

  • 420 W 15Th St, Houston, TX 77008 (972) 985-9011
  • 2400 Old South Dr S, Richmond, TX 77469 (281) 238-4948
  • 2400 Old South Dr #2021, Richmond, TX 77406 (281) 238-4948
  • 2922 Ocean Mist Ct, Seabrook, TX 77586 (281) 326-3425
  • 4029 Saltburn Dr, Plano, TX 75093
  • 2600 Preston Rd, Plano, TX 75093
  • Rowlett, TX
  • League City, TX

Work

Company: Bhpbilliton Jan 2013 Position: Process engineering manager

Education

Degree: BS School / High School: Texas A&M University 1985 to 1990 Specialities: Chemical Engineering

Industries

Oil & Energy

Resumes

Resumes

Greg Lisewsky Photo 1

Process Engineering Manager At Bhpbilliton

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Position:
Process Engineering Manager at BHPBilliton
Location:
Houston, Texas Area
Industry:
Oil & Energy
Work:
BHPBilliton since Jan 2013
Process Engineering Manager
Marathon Oil Corporation - Houston, Texas Area Sep 2011 - Jan 2013
New Technologies Manager
Marathon Oil Company - Houston, Texas Area 2007 - Sep 2011
Manager, Gas Utilization
Marathon Oil Corporation - Houston, Texas Area 2002 - 2007
Advanced Senior Process Engineer
Valspar 2000 - 2002
Engineering Manager
Education:
Texas A&M University 1985 - 1990
BS, Chemical Engineering

Publications

Us Patents

Processes For Converting Gaseous Alkanes To Liquid Hydrocarbons Using Microchannel Reactor

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US Patent:
8642822, Feb 4, 2014
Filed:
May 27, 2011
Appl. No.:
13/117785
Inventors:
Raymond T. Brickey - Houston TX, US
Greg A. Lisewsky - Seabrook TX, US
John J. Waycuilis - Cypress TX, US
Stephen D. York - Catoosa OK, US
Assignee:
Marathon GTF Technology, Ltd. - Houston TX
International Classification:
C07C 1/00
US Classification:
585408, 585603, 585359, 585642, 585733
Abstract:
A process for converting gaseous alkanes to olefins, higher molecular weight hydrocarbons or mixtures thereof wherein a gaseous feed containing alkanes may be thermally or catalytically reacted with a dry bromine vapor to form alkyl bromides and hydrogen bromide. Poly-brominated alkanes present in the alkyl bromides may be further reacted with methane over a suitable catalyst to form mono-brominated species. The mixture of alkyl bromides and hydrogen bromide may then be reacted over a suitable catalyst at a temperature sufficient to form olefins, higher molecular weight hydrocarbons or mixtures thereof and hydrogen bromide. Various methods and reactions are disclosed to remove the hydrogen bromide from the higher molecular weight hydrocarbons, to generate bromine from the hydrogen bromide for use in the process, to store and subsequently release bromine for use in the process, and to selectively form mono-brominated alkanes in the bromination step. One or more of the reactions of the processes of the present invention may be conducted in a microchannel reactor.

Conversion Of Hydrogen Bromide To Elemental Bromine

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US Patent:
20110015458, Jan 20, 2011
Filed:
Jun 2, 2010
Appl. No.:
12/792335
Inventors:
John J. Waycuilis - Cypress TX, US
Patrick K. Moore - Lake Jackson TX, US
Greg A. Lisewsky - Seabrook TX, US
Assignee:
Marathon GTF Technology, Ltd. - Houston TX
International Classification:
C07C 2/00
C01B 7/09
US Classification:
585310, 423502
Abstract:
A method is provided for converting hydrogen bromide to elemental bromine. A portion of an initial hydrogen bromide-rich gas is thermally oxidized at a thermal oxidation temperature to produce a first fraction of elemental bromine and a remainder of the initial hydrogen bromide-rich gas. At least a portion of the remainder of the initial hydrogen bromide-rich gas is catalytically oxidized at a lower catalytic oxidation temperature to produce a second fraction of elemental bromine.

Extended Catalyst Life Fischer-Tropsch Process

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US Patent:
62391844, May 29, 2001
Filed:
Sep 22, 1999
Appl. No.:
9/401420
Inventors:
Gary L. Beer - Plano TX
James F. Leahy - Plano TX
Greg A. Lisewsky - Plano TX
Kernan J. McHugh - Allen TX
Michael D. Briscoe - McKinney TX
Assignee:
Syntroleum Corporation - Tulsa OK
International Classification:
C07C 2700
US Classification:
518709
Abstract:
A process for extending the life of a Fisher-Tropsch catalyst in a process for converting synthesis gas produced in an autothermal reactor by the substoichiometric oxidation of a light hydrocarbon gas by removing ammonia from the synthesis gas prior to passing the synthesis gas to a Fischer-Tropsch reactor.

Dual Reactor For Improved Conversion Of Heavy Hydrocarbons

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US Patent:
20140110307, Apr 24, 2014
Filed:
Mar 15, 2013
Appl. No.:
13/841596
Inventors:
MARATHON OIL CANADA CORPORATION - , US
CHRISTOPHER ARD - SPARKS NV, US
MAHENDRA JOSHI - KATY TX, US
GREG LISEWSKY - SEABROOK TX, US
Assignee:
MARATHON OIL CANADA CORPORATION - CALGARY
International Classification:
C10G 69/06
B01J 19/00
US Classification:
208 61, 422128
Abstract:
An improved hydrocarbon cracking process includes a first reactor such as a nozzle reactor positioned in series with a second reactor such as a tubular reactor. A cracking fluid such as steam or natural gas is reacted with heavy hydrocarbon material in the first reactor. The first reactor may provide a tremendous amount of thermal and kinetic energy that initiates cracking of heavy hydrocarbon materials. The second reactor provides sufficient residence time at high temperature to increase the conversion of heavy hydrocarbon materials to the desired level. The cracking fluid functions as a hydrogen donor in the cracking reactions so that very little of the heavy hydrocarbon material becomes hydrogen depleted and forms coke even if the heavy hydrocarbon material is repeatedly recycled through the process.
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Greg A Lisewsky from Houston, TX, age ~57 Get Report