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David A Wavrek

from Salt Lake City, UT
Age ~65

David Wavrek Phones & Addresses

  • 283 H St, Salt Lake Cty, UT 84103 (801) 363-4980 (801) 532-4391
  • 461 E 200 S STE 103, Salt Lake Cty, UT 84111
  • Salt Lake City, UT
  • Novi, MI
  • Humble, TX
  • 283 H St, Salt Lake City, UT 84103 (801) 363-4980

Work

Position: Professional/Technical

Education

Degree: Graduate or professional degree

Professional Records

License Records

David Allen Wavrek

Address:
Salt Lake City, UT
License #:
5353971-2250 - Active
Category:
Geologist
Issued Date:
Jul 15, 2003
Expiration Date:
Mar 31, 2017
Type:
Professional Geologist

Resumes

Resumes

David Wavrek Photo 1

President

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Location:
Salt Lake City, UT
Industry:
Oil & Energy
Work:
University of Utah 1998 - 2003
Research Associate Professor, Chemical Fuels and Engineering

University of Utah 1994 - 2003
Research Associate Professor, Civil and Environmental Engineering

Petroleum Systems International 1994 - 2003
President

Humble Geochemical Services 1998 - 1999
Vice President

University of Utah 1994 - 1998
Team Leader, Petroleum Systems Group, Egi
Education:
The University of Tulsa 1987 - 1992
Doctorates, Doctor of Philosophy, Geology, Philosophy
The University of Toledo 1985
Masters, Geology
University of Mount Union 1982
Bachelors, Geology, Chemistry
Skills:
Geology
Petroleum Geology
Petroleum
Earth Science
Upstream
Gas
Energy Industry
Natural Gas
Geochemistry
Energy
Oil and Gas Industry
Geophysics
Seismology
Oil/Gas
Oil and Gas
Onshore
Offshore Drilling
Petroleum Engineering
Oilfield
Modeling
Pipelines
Minerals
Certifications:
Certified Petroleum Geologist
Certified Professional Geologist
Certified Professional Geoscientist
License #5833
License #5353971-2250
License #2559
Aapg, License #5833
State of Utah, License #5353971-2250
State of Texas, License #2559
David Wavrek Photo 2

David Wavrek

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Location:
Salt Lake City, UT

Business Records

Name / Title
Company / Classification
Phones & Addresses
Dr David A. Wavrek
President
Petroleum Systems International, Inc.
Petroleum. Engineers - Professional
461 E 200 S STE 103, Salt Lake City, UT 84111
(801) 322-2915, (801) 322-2916
David Wavrek
President
Petroleum Systems Intl
Testing Laboratories
461 E 200 S, Salt Lake City, UT 84111
(801) 322-2915
David A Wavrek
Director, President, All Positions, All Postions
PETROLEUM SYSTEMS INTERNATIONAL, INC
Testing Laboratory
461 E 200 S STE 103, Salt Lake City, UT 84111
(801) 322-2915, (801) 322-2916

Publications

Us Patents

Degradation Of Polycyclic Aromatic Hydrocarbons

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US Patent:
8298814, Oct 30, 2012
Filed:
Nov 6, 2000
Appl. No.:
10/129354
Inventors:
P. K. Andy Hong - Salt Lake City UT, US
David A. Wavrek - Salt Lake City UT, US
Jiun-Chi Chao - Salt Lake City UT, US
Yu Zeng - San Diego CA, US
Assignee:
University of Utah - Salt Lake City UT
International Classification:
A62D 3/00
A62D 3/02
B09B 3/00
B09C 1/10
C02F 1/02
C02F 3/00
C02F 3/34
C10G 32/00
US Classification:
435262, 4352625, 435281, 435809, 210600, 210601, 210634
Abstract:
A method for the degradation of polycyclic aromatic compounds is disclosed that involves dissolving ozone in a bipolar solvent comprising a non-polar solvent in which is of sufficiently non-polar character to solubilized the polycyclic aromatic compounds, and a polar-water-compatible solvent which is fully miscible with the non-polar solvent to form a single phase with the non-polar solvent. The bipolar solvent with dissolved ozone is contacted with the polycyclic aromatic compounds to solubilize the polycyclic aromatic compounds and react the dissolved polycyclic aromatic compounds with the ozone to degrade the dissolved polycyclic aromatic compounds to oxygenated intermediates. The bipolar solvent is then mixed with sufficient water to form separate non-polar and polar phases, the non-polar phase comprising the non-polar solvent and the polar phase comprising the non-polar solvent and the oxygenated intermediates. The polar phase is then diluted and incubated with bacteria to biodegrade the oxygenated intermediates.

Degradation Of Polycyclic Aromatic Hydrocarbons To Render Them Available For Biodegradation

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US Patent:
8557565, Oct 15, 2013
Filed:
Mar 24, 2008
Appl. No.:
12/053980
Inventors:
David Wavrek - Salt Lake City UT, US
P. K. Andy Hong - Salt Lake City UT, US
Jiun-Chi Chao - Salt Lake City UT, US
Yu Zeng - Foothill Ranch CA, US
International Classification:
A62D 3/00
A62D 3/02
B09B 3/00
B09C 1/10
C02F 1/00
C02F 1/02
C02F 3/34
C10G 32/00
US Classification:
435262, 210600, 210767, 4352625, 435281
Abstract:
A method for the degradation of polycyclic aromatic compounds is disclosed that involves dissolving ozone in a bipolar solvent comprising a non-polar solvent in which is of sufficiently non-polar character to solubilized the polycyclic aromatic compounds, and a polar-water-compatible solvent which is fully miscible with the non-polar solvent to form a single phase with the non-polar solvent. The bipolar solvent with dissolved ozone is contacted with the polycyclic aromatic compounds to solubilize the polycyclic aromatic compounds and react the dissolved polycyclic aromatic compounds with the ozone to degrade the dissolved polycyclic aromatic compounds to oxygenated intermediates. The bipolar solvent is then mixed with sufficient water to form separate non-polar and polar phases, the non-polar phase comprising the non-polar solvent and the polar phase comprising the non-polar solvent and the oxygenated intermediates. The polar phase is then diluted and incubated with bacteria to biodegrade the oxygenated intermediates.
David A Wavrek from Salt Lake City, UT, age ~65 Get Report