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Ray P Bourne

from Eugene, OR
Age ~75
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Also known as:
Ray B Bourne, Ray Bourne Palmer, Roy P Bourne
Phone and address:
2152 Brookhaven Way, Eugene, OR 97401
(541) 517-2670
Connected to:
Alexa D Bourne, 93Andre Bourne, 34Anjeh G Bourne, 34Beth E Bourne, 43Blake B Bourne, 38Bryce Bourne, 29Desiree Bourne, 39Ezra R Bourne, 54Harvey W Bourne, 60Jared L Bourne, 44

Ray Bourne Phones & Addresses

  • 2152 Brookhaven Way, Eugene, OR 97401 (541) 517-2670
  • 2565 Chaucer Ct, Eugene, OR 97405 (541) 349-1696
  • University Place, WA
  • Jefferson, OR
  • Lakewood, WA
  • 2152 Brookhaven Way, Eugene, OR 97401 (541) 349-1696

Work

Position: Machine Operators, Assemblers, and Inspectors Occupations

Education

Degree: High school graduate or higher

Resumes

Resumes

Ray Bourne Photo 1

Ray Bourne

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Location:
2152 Brookhaven Way, Eugene, OR 97401
Industry:
Chemicals
Education:
University of Massachusetts Boston 1967 - 1971
Bachelors, Bachelor of Arts, Biology University of Massachusetts
Bachelors, Bachelor of Arts, Biology
Ray Bourne Photo 2

Ray Bourne

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Location:
Eugene, OR
Industry:
Chemicals
Work:
Georgia-Pacific Llc 1974 - 2006
Senior .Dev.cem
Education:
University of Massachusetts Boston 1967 - 1971
Bachelors, Bachelor of Arts, Biology
Ray Bourne Photo 3

Ray Bourne

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Publications

Us Patents

Vanadia-Titania Metal Molybdate Dual Catalyst Bed System And Process Using The Same For Methanol Oxidation To Formaldehyde

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US Patent:
6930072, Aug 16, 2005
Filed:
Mar 12, 2003
Appl. No.:
10/385708
Inventors:
Israel E. Wachs - Bridgewater NJ, US
Ray P. Bourne - Eugene OR, US
Assignee:
Lehigh University - Bethlehem PA
International Classification:
B01J021/06
B01J023/28
B01J023/22
US Classification:
502307, 502353, 502350, 502313, 502321, 502308, 502322, 502319, 502324, 422188, 422211
Abstract:
A process and a catalyst reaction zone comprising one or more fixed bed reactors for oxidizing methanol in a reactant gas feed stream to formaldehyde. According to one embodiment, the process comprises introducing the reactant gas feed stream into an upstream region containing a vanadia-titania first catalyst (substantially free of a volatile MoOspecies) under oxidizing conditions to form a partially oxidized reactant gas feed stream which is then introduced under oxidizing conditions into a downstream region containing a metal molybdate second catalyst to further oxidize any residual methanol contained therein. According to another embodiment, a fixed bed reactor comprising an upstream region and a downstream region containing the aforementioned vanadia-titania and metal molybdate catalysts, respectively, is utilized to implement the inventive process to yield a product gas stream containing formaldehyde preferably at a conversion of 85% or more and a selectivity of 90% or more.

Vanadia-Titania/Metal-Molybdate Dual Catalyst Bed System And Process Using The Same For Methanol Oxidation To Formaldehyde

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US Patent:
20020055659, May 9, 2002
Filed:
Sep 13, 2001
Appl. No.:
09/950833
Inventors:
Israel Wachs - Bridgewater NJ, US
Ray Bourne - Eugene OR, US
International Classification:
C07C045/27
US Classification:
568/487000
Abstract:
A process and a catalyst reaction zone comprising one or more fixed bed reactors for oxidizing methanol in a reactant gas feed stream to formaldehyde. According to one embodiment, the process comprises introducing the reactant gas feed stream into an upstream region containing a vanadia-titania first catalyst (substantially free of a volatile MoOspecies) under oxidizing conditions to form a partially oxidized reactant gas feed stream which is then introduced under oxidizing conditions into a downstream region containing a metal molybdate second catalyst to further oxidize any residual methanol contained therein. According to another embodiment, a fixed bed reactor comprising an upstream region and a downstream region containing the aforementioned vanadia-titania and metal molybdate catalysts, respectively, is utilized to implement the inventive process to yield a product gas stream containing formaldehyde preferably at a conversion of 85% or more and a selectivity of 90% or more.
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Ray P Bourne from Eugene, OR, age ~75 Get Report