KIM LAWRENCE ANDERSON
Engineers in Corvallis, OR

License number
Pennsylvania PE077404
Category
Engineers
Type
Professional Engineer
Address
Address 2
Corvallis, OR 97330
Pennsylvania

Personal information

See more information about KIM LAWRENCE ANDERSON at radaris.com
Name
Address
Phone
Kim Anderson, age 53
5001 S Pioneer Rd, Gibsonia, PA 15044
(724) 443-1965
Kim Anderson, age 64
5117 Cole Rd, Murrysville, PA 15668
(724) 327-2958
Kim Anderson, age 59
470 Mount Zion Rd, Dillsburg, PA 17019
(717) 432-4177
Kim Anderson, age 67
4504 Miller Hill Rd, Russell, PA 16345
(814) 757-5784
Kim Anderson
4730 Pine St APT A5, Philadelphia, PA 19143

Professional information

Kim Anderson Photo 1

Project Engineer At Ch2M Hill

Position:
Project Engineer at CH2M HILL
Location:
Corvallis, Oregon Area
Industry:
Design
Work:
CH2M HILL since Jun 1998 - Project Engineer
Education:
University of Nevada-Reno 1989 - 1994


Kim Anderson Photo 2

Professor At Osu

Position:
Professor at OSU
Location:
Corvallis, Oregon Area
Industry:
Research
Work:
OSU - Professor


Kim Anderson Photo 3

Method For Analyzing Foods

US Patent:
2009004, Feb 12, 2009
Filed:
Oct 21, 2008
Appl. No.:
12/255571
Inventors:
Kim A. Anderson - Corvallis OR, US
Brian W. Smith - Corvallis OR, US
International Classification:
G01N 33/02
US Classification:
436 20
Abstract:
A method for using stable isotope profiling and optionally trace element profiling to differentiate the origin of commodities, such as pistachios (), or salmon, is disclosed. Isotope ratios can be determined using any suitable method, such as stable isotope mass spectrometer. Geographic regions were well separated based on isotope ratios. Seasonal effects were found to affect some isotopes for some regions.


Kim Anderson Photo 4

Method Of Isolating Shikimic Acid From A Plant

US Patent:
8203020, Jun 19, 2012
Filed:
Aug 30, 2007
Appl. No.:
11/897970
Inventors:
Kim A. Anderson - Corvallis OR, US
International Classification:
C07C 61/00
US Classification:
562510
Abstract:
The present invention provides a method of isolating shikimic acid from a plant. First, a plant is provided. Next, the plant is grown in the absence of glyphosate for a first time period. The plant is then treated with glyphosate for a second time period. This second time period is sufficient for the glyphosate to increase the amount of shikimic acid in the plant. The plant with increased amounts of shikimic acid is then harvested and the shikimic acid is isolated from the plant.