BRENT R PHILLIPS
Electrician at Woodland West Dr, Houston, TX
License number
Texas 203457
Expiration Date
Aug 10, 2017
Category
Master Electrician
Address
Address
7426 Woodland West Dr WEST, Houston, TX 77040
Phone
(713) 937-6618
Professional information
Principal Mechanical Designer At Halliburton
Position:
Principle Mechanical Designer at Pinnacle / Halliburton Energy Services
Location:
Houston, Texas Area
Industry:
Oil & Energy
Work:
Pinnacle / Halliburton Energy Services
- Houston, Texas Area since Jan 2008
-
Principle Mechanical Designer
Pathfinder Energy Services
- Houston, Texas Area 2006 - 2008
-
Senior Mechanical Designer
Halliburton Energy Services
- Houston, Texas Area 2002 - 2006
-
Senior Mechanical Designer
Halliburton Energy Services
- Houston, Texas Area 1998 - 2002
-
Senior Mechanical Designer
TAM International Inc.
- Houston, Texas Area 1992 - 1998
-
Mechanical Design Drafter
Education:
Houston Community College 1986 - 1987
San Jacinto College 1984 - 1986
San Jacinto College 1984 - 1986
Skills:
Mechanical Engineering, Drilling, Modeling, Petroleum, Machine Design, CAD, Product Design, Oil/Gas, PDM, Hydraulics, Wireline Tools, Well Monitoring, Well Completions
Method And Apparatus For Removing Cuttings From A Deviated Wellbore
US Patent:
7114582, Oct 3, 2006
Filed:
Oct 1, 2003
Appl. No.:
10/676858
Inventors:
Jay M. Eppink - Spring TX, US
Brent E. Phillips - Houston TX, US
James W. Estep - Houston TX, US
Brent E. Phillips - Houston TX, US
James W. Estep - Houston TX, US
Assignee:
Halliburton Energy Services, Inc. - Houston TX
International Classification:
E21B 21/06
US Classification:
175 61, 175207, 166313
Abstract:
Apparatus and methods for diverting a portion of the drilling fluid that flows into a drilling assembly comprise diverting the drilling fluid into the annulus of a deviated wellbore at a flow rate corresponding to a velocity that is sufficient to transport cuttings to the surface while drilling progresses. The diverted drilling fluid is directed into the annulus at an angle to prevent erosion of the wellbore wall. The flow rate of the diverted drilling fluid is controlled to establish a fixed flow rate, or alternatively, a variable flow rate. Pressure is dissipated and fluid velocity is reduced as the diverted drilling fluid flows between a high fluid pressure within the drilling assembly to a lower pressure in the wellbore annulus.