Christopher Alan Brydon
Land Surveyors in Salt Lake City, UT
License number
Utah 4769295-E202
Category
Engineer/Land Surveyor
Type
Engineer Exam - Obsolete
Address
Address
Salt Lake City, UT
Personal information
See more information about Christopher Alan Brydon at radaris.comName
Address
Phone
6361 Boxwood Rd, Salt Lake City, UT 84121
2611 6600, Salt Lake City, UT 84121
2611 6600 S, Salt Lake City, UT 84121
7811B Chadbourne Dr, Salt Lake City, UT 84121
Professional information
See more information about Christopher Alan Brydon at trustoria.com
Christopher Brydon - Holladay, UT
Christopher Brydon - Holladay, UT
Work:
Brydon Engineering
Senior Contract Engineer Trulite, Inc - El Dorado Hills, CA
Sr. Design Engineer/Product Development Team Lead Raytheon-Sarcos - Salt Lake City, UT
Design Engineer
Senior Contract Engineer Trulite, Inc - El Dorado Hills, CA
Sr. Design Engineer/Product Development Team Lead Raytheon-Sarcos - Salt Lake City, UT
Design Engineer
Education:
University of Utah - Salt Lake City, UT
M.S. in Mechanical Engineering - Fluid Mechanics University of Utah - Salt Lake City, UT
B.S. in Mechanical Engineering
M.S. in Mechanical Engineering - Fluid Mechanics University of Utah - Salt Lake City, UT
B.S. in Mechanical Engineering
Skills:
CAD Design, GD&T-Solidworks; FEA/CFD-Solidworks Simulation; CNC Machine (Mill, Lathe) Operation and Programming; MS Office, Excel, Powerpoint, Project, Visio; Graphic Design-Photoshop, Illustrator; Technical/Proposal Writing; Electronics Prototyping, Assembly and Troubleshooting, Firmware/Software
Method And Apparatus For Reducing Free Flow Risk
Method And Apparatus For Reducing Free Flow Risk
US Patent:
2006018, Aug 17, 2006
Filed:
Feb 16, 2005
Appl. No.:
11/059832
Inventors:
Stephen Jacobsen - Salt Lake City UT, US
Jon Beck - Salt Lake City UT, US
Christopher Brydon - Salt Lake City UT, US
Jon Beck - Salt Lake City UT, US
Christopher Brydon - Salt Lake City UT, US
International Classification:
F04B 49/00
US Classification:
417053000, 417297000
Abstract:
A technique for reducing the risk of free flow through a pump is disclosed. The technique includes sensing a pressure difference between the pump inlet and outlet. The pressure difference is mechanically communicated to a flow restricting element. The flow restricting element increases resistance to flow exiting the pump outlet in a relation to the pressure difference present between the pump inlet and pump outlet.