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Josh A Pihl

from Knoxville, TN
Age ~49
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Also known as:
Josh Alexander Pihl, Josh Busick Deanna Pihl, Josh A Phil, Josh A Piul
Phone and address:
2722 Ed Stallings Ln, Knoxville, TN 37931
(865) 357-2365
Related to:
Kevin Pihl, 29Collin Pihl, 26Walter Pihl, 52Leona PihlMartin Smith, 54Philip Zhang, 46
Connected to:
Helena J Pihl, 38Henrik Pihl, 52Justin M Pihl, 34Sean T Pihl, 30Beau S Pihlaja, 45George C Pihlgren, 85Dewey R Pihlman, 85Zane R Pihlstrom, 44Frank W Pihoker, 61Michael P Pihonak, 79

Josh Pihl Phones & Addresses

  • 2722 Ed Stallings Ln, Knoxville, TN 37931 (865) 357-2365
  • 5379 Temple Ct, Madison, WI 53705 (608) 238-7982
  • 10414 Huntley Ave, Silver Spring, MD 20902 (301) 649-1893
  • 208 Park Ave, Gaithersburg, MD 20877
  • Los Alamos, NM
  • Belmont, CA
  • San Diego, CA

Work

Company: Oak ridge national laboratory Feb 2007 Position: Senior r and d staff member

Education

Degree: Master of Science, Masters School / High School: University of Wisconsin - Madison 2003 to 2005 Specialities: Chemical Engineering

Industries

Research

Resumes

Resumes

Josh Pihl Photo 1

Group Leader

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Location:
Knoxville, TN
Industry:
Research
Work:
Oak Ridge National Laboratory
Senior R and D Staff Member
Oak Ridge National Laboratory Oct 2005 - Jan 2007
Postgraduate Research Associate
Sentech 2001 - 2003
Research Scientist
Sri International 2000 - 2001
Chemist
2000 - 2001
Group Leader
Education:
University of Wisconsin - Madison 2003 - 2005
Master of Science, Masters, Chemical Engineering Uc San Diego 1994 - 1999
Bachelors, Bachelor of Science, Chemistry

Publications

Us Patents

Hydrothermally Stable Methane Oxidation Catalyst

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US Patent:
20220362747, Nov 17, 2022
Filed:
May 9, 2022
Appl. No.:
17/739263
Inventors:
- Oak Ridge TN, US
Sreshtha Sinha Majumdar - Oak Ridge TN, US
Josh A. Pihl - Oak Ridge TN, US
International Classification:
B01J 23/44
B01J 21/10
B01J 29/70
B01J 37/02
B01J 37/08
B01J 35/10
B01J 35/04
C01B 39/48
Abstract:
A method of manufacturing a methane oxidation catalyst and methane oxidation catalysts formed by the method are provided. The method includes providing a palladium (Pd)-based catalyst including Pd dispersed onto a support. A magnesium (Mg) precursor is introduced to the Pd-based catalyst by one of ion exchange or incipient wetness impregnation. After introducing the magnesium precursor to the Pd-based catalyst, the catalyst is dried and subjected to a final heat treatment that includes hydrothermal calcination. A method of methane oxidation in a lean exhaust environment via the methane oxidation catalyst is also provided.

Monolithic Gas Trap Adsorber For High Efficiency, Cost Effective, Low-Emission Condensing Furnace

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US Patent:
20210325038, Oct 21, 2021
Filed:
Apr 16, 2021
Appl. No.:
17/232274
Inventors:
- Oak Ridge TN, US
Ayyoub M. Momen - Oak Ridge TN, US
Josh A. Pihl - Oak Ridge TN, US
Timothy J. LaClair - Oak Ridge TN, US
Bo Shen - Oak Ridge TN, US
Xiaobing Liu - Oak Ridge TN, US
Kyle R. Gluesenkamp - Oak Ridge TN, US
Puxian Gao - Oak Ridge TN, US
Alex E. Pawlowski - Oak Ridge TN, US
Kashif Nawaz - Oak Ridge TN, US
International Classification:
F23J 3/04
F23J 15/02
Abstract:
An improved method and system for treating flue gases from a natural gas furnace are provided. The method and system include an acidic gas trap (AGT) adsorber which enables the continuous adsorption and storage of SOx, NOx redox, and formic acid/CO/HC/CHoxidation, with a negligible pressure drop. The AGT adsorber includes a catalyst coating having a nanotube structure (e.g., a uniform nanostructure forest coating) or a uniform porous nanostructure of various low-cost oxides through scalable low temperature solution processes, including oxides of Ti, Cu, Ba, Mn, Zr, Zn, Sr, Ca, Li, K, Na, Al, or Ce.
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Josh A Pihl from Knoxville, TN, age ~49 Get Report