JAMES R MEYER
Engineering in Plano, TX

License number
Massachusetts 45930
Issued Date
Jul 8, 2004
Expiration Date
Jun 30, 2018
Type
Mechanical Engineer
Address
Address
Plano, TX 75074

Personal information

See more information about JAMES R MEYER at radaris.com
Name
Address
Phone
James Meyer, age 72
4905 39Th St, Lubbock, TX 79414
(806) 797-8339
James Meyer, age 65
5002 Thorncliffe Dr, Arlington, TX 76016
(817) 357-0575
James Meyer
505 Olive Ave, Dalhart, TX 79022
James Meyer
501 Atchley Dr, Granbury, TX 76048
(817) 573-3182
James Meyer, age 67
4635 Sugar Mill Rd, Dallas, TX 75244
(972) 490-5038

Professional information

James Meyer Photo 1

Information Technology And Services Professional

Position:
Technical Support Engineer at Amazon
Location:
Plano, Texas
Industry:
Information Technology and Services
Work:
Amazon - Plano, Texas since Jun 2012 - Technical Support Engineer Davis and Larson - Denver, CO Feb 2011 - Apr 2011 - Tax Preparer Denver Asset Coalition - Greater Denver Area Jan 2011 - Apr 2011 - Volunteer Tax Preparer Hawaii Pacific University Jul 2009 - Sep 2009 - Technical Analyst II Heald College May 2002 - Feb 2003 - IT Student Intern Auto Choice Feb 2000 - Apr 2001 - General Office Clerk The Salvation Army Jan 1999 - Nov 1999 - Assistant Manager Enchanted Waters Jan 1998 - Jan 1999 - Assistant Sales Manager
Education:
Hawaii Pacific University 2008 - 2009
Master of Science in Information Technology, Software Engineering, Telecommunications Security
Hawaii Pacific University 2006 - 2008
Bachelor of Science in Business Administration, Accounting
Heald College 2001 - 2003
Associate in Applied Science, Computer Technology


James Meyer Photo 2

Method For Measuring Particle Size Of A Dispersed Phase In A Fluid Stream

US Patent:
5377005, Dec 27, 1994
Filed:
Sep 1, 1993
Appl. No.:
8/115386
Inventors:
James P. Meyer - Plano TX
Assignee:
Atlantic Richfield Company - Los Angeles CA
International Classification:
G01N 1502
US Classification:
356335
Abstract:
The mean particle size of a dispersed phase, such as a liquid dispersed in a carrier liquid, is determined by selecting a particulate solids material which, when dispersed in the carrier liquid, has the same refractive index as the dispersed liquid in the carrier liquid, measuring the turbidity of selected particle sizes of the particulate solid for different concentrations of each particle size in the carrier liquid and developing a relationship of the ratio of the turbidity to the concentration for each particle size as a function of particle size which may be referenced when measuring the turbidity and concentration of the dispersed liquid in the carrier liquid to determine the actual particle size of the dispersed liquid.


James Meyer Photo 3

Gas Treatment Method

US Patent:
5693297, Dec 2, 1997
Filed:
Dec 22, 1995
Appl. No.:
8/577741
Inventors:
Harry M. Turner - Dallas TX
Jeffrey M. Bigger - Dallas TX
James P. Meyer - Plano TX
Assignee:
Atlantic Richfield Company - Los Angeles CA
International Classification:
B01D 5314, C01B 1716, C01B 3120, C01B 1720
US Classification:
423210
Abstract:
A system and method for injecting a gaseous contaminant absorbent through at least one spray nozzle into a pipe transporting gas to a contacting vessel wherein the gas is contacted with a liquid absorbent to remove at least one gaseous contaminant from the gas is provided. The injection of the absorbent through the spray nozzles augments the efficiency of the contacting vessel by removal of a quantity of the gaseous contaminant from the gas prior to charging the gas to the contacting vessel. Water vapor is removed using a glycol absorbent and acidic gases are removed using an amine solution as an absorbent. A system and method for the removal of both water vapor and acidic gases is provided.


James Meyer Photo 4

Method For Removing Small Gas Bubbles From A Liquid Stream

US Patent:
H1839, Aug 4, 1992
Filed:
Oct 15, 1991
Appl. No.:
7/776944
Inventors:
James P. Meyer - Plano TX
Lloyd A. Baillie - Plano TX
International Classification:
G01N 1100
US Classification:
73 6141
Abstract:
A method for removing small gas bubbles from a liquid stream to produce a liquid stream having a reduced number of gas bubbles by increasing the pressure on the liquid stream.