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Brian L Slusar

from Winfield, IL
Age ~68
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Also known as:
Brian Sluzar
Phone and address:
27W234 Churchill Rd, Winfield, IL 60190
(630) 682-5332
Related to:
Michael Slusar, 55Michael Slusar, 42Karen J Slusar, 71
Connected to:
Bettina A Slusar, 61Curtis A Slusar, 83Jerzy Slusarczyk, 66Raymond J Slusarczyk, 34Lidia Slusarek, 79Olivia Slusarek, 30Tyson N Slusarenko, 40Frank H Slusark, 66John J Slusark, 61Krista M Slusark, 43

Brian Slusar Phones & Addresses

  • 27W234 Churchill Rd, Winfield, IL 60190 (630) 682-5332

Work

Company: Bp Jan 2018 Position: Process safety technical authority

Education

Degree: Bachelors, Bachelor of Science School / High School: Illinois Institute of Technology 1975 to 1980 Specialities: Chemical Engineering

Skills

Process Optimization • Chemical Engineering • Petrochemical • Process Safety • Hazop • Process Simulation • Process Engineering • Process Design • Polymers • R&D • Energy • Manufacturing • Catalysis • Refining • Gas • Six Sigma • Factory • Process Control • Chemistry • Technology Transfer • Characterization • Research and Development • Pipelines

Industries

Oil & Energy

Resumes

Resumes

Brian Slusar Photo 1

Process Safety Technical Authority

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Location:
27w234 Churchill Rd, Winfield, IL 60190
Industry:
Oil & Energy
Work:
Bp
Process Safety Technical Authority
Bp Jan 2005 - Jan 2017
Px Plant Optimization Manager
Bp Apr 2001 - Jan 2005
Research Associate
Nova Chemicals Jan 1999 - Mar 2001
Senior Process Engineer
Huntsman Dec 1996 - Dec 1998
Process Optimization Engineer
Education:
Illinois Institute of Technology 1975 - 1980
Bachelors, Bachelor of Science, Chemical Engineering
Skills:
Process Optimization
Chemical Engineering
Petrochemical
Process Safety
Hazop
Process Simulation
Process Engineering
Process Design
Polymers
R&D
Energy
Manufacturing
Catalysis
Refining
Gas
Six Sigma
Factory
Process Control
Chemistry
Technology Transfer
Characterization
Research and Development
Pipelines

Publications

Us Patents

Liquid-Phase Xylene Isomerization

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US Patent:
49622587, Oct 9, 1990
Filed:
Dec 15, 1988
Appl. No.:
7/285105
Inventors:
Jeffrey A. Amelse - Batavia IL
John A. Donohue - Elmhurst IL
Nancy A. Kutz - Wheaton IL
Judith B. Melville - Downers Grove IL
Brian L. Slusar - Winfield IL
Assignee:
Amoco Corporation - Chicago IL
International Classification:
C07C 522
US Classification:
585480
Abstract:
Gallium-containing, crystalline silicate molecular sieves in which substantially all of the gallium occupies molecular sieve lattice positions or is intimately associated with the crystal lattice of the silicate sieve when composited into a silica matrix are shown to form catalyst compositions having superior properties for the catalytic, liquid-phase isomerization of a xylene-containing stream containing a minor amount of ethylbenzene to a product mixture rich in paraxylene.

Heat Integration In Disproportionation Or Transalkylation Processes

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US Patent:
20170152198, Jun 1, 2017
Filed:
Aug 5, 2015
Appl. No.:
15/322335
Inventors:
- Naperville IL, US
Brian Slusar - Winfield IL, US
Assignee:
BP Corporation North American Inc. - Naperville IL
International Classification:
C07C 6/06
C07C 4/14
B01D 3/14
Abstract:
Toluene disproportionation and C9/C10 transalkylation are a significant source of xylenes in a modern aromatics complex. Methods and apparatuses for improving the energy efficiency of these disproportionation and transalkylation processes are provided.

Process For Recovering Paraxylene From At Least Two Feedstreams Containing Xylene Isomers

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US Patent:
20160031772, Feb 4, 2016
Filed:
Mar 14, 2014
Appl. No.:
14/777077
Inventors:
Brian SLUSAR - Naperville IL, US
Craig COLLING - Naperville IL, US
Richard WILSAK - Naperville IL, US
Steven NORWOOD - Naperville IL, US
Chyau LIN - Naperville IL, US
Jeffrey Allen AMELSE - Naperville IL, US
Scott Alan ROBERTS - Mail Code 200-1W IL, US
Assignee:
BP Corporation North America Inc. - Houston TX
International Classification:
C07C 7/14
C07C 7/12
Abstract:
Processes for recovering paraxylene from at least two feedstreams containing xylene isomers. The process includes directing to a paraxylene recovery zone comprising at least one crystallization zone, a paraxylene-lean feedstream having a paraxylene to total xylene isomer ratio of 0.50 or less, and also directing to the paraxylene recovery zone, a paraxylene-rich feedstream having a paraxylene to total xylene isomer ratio of greater than 0.50. A paraxylene-containing product stream is recovered from the paraxylene recovery zone having a paraxylene to total xylene isomer ratio greater than that of the paraxylene-rich feedstream. The process provides improvements in paraxylene recovery efficiency and/or cost effectiveness.
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Brian L Slusar from Winfield, IL, age ~68 Get Report