Rajendra D. Kulkarni
Engineering in Houston, TX
License number
Louisiana PE.0018296
Issued Date
Jul 24, 1979
Expiration Date
Mar 31, 2002
Category
Civil Engineer
Type
Chemical Engineer
Address
Address
PO Box 890343, Houston, TX 77289
Professional information
Sr. System Specialist At Enterprise Products
Position:
Sr. System Specialist at Enterprise Products
Location:
Houston, Texas Area
Industry:
Oil & Energy
Work:
Enterprise Products
since Feb 2011
-
Sr. System Specialist
Complete-Solutions
Mar 2000 - Feb 2011
-
Sr. Consultant
HCCS
Aug 2009 - Jan 2010
-
Share Point Consultant
Spectra Energy
Jun 2007 - Sep 2009
-
Sr. Consultant
Litton Loan Servicing
Feb 2003 - Mar 2007
-
Sr Consultant
Guardian Life Insurance
Sep 2002 - Mar 2003
-
Sr.Consultant
Adelphia Communications
Aug 2000 - Sep 2002
-
Sr System analyst
Zurich Insurance
Mar 2000 - Aug 2000
-
Consulting Programmer
VHL Pune
Feb 1999 - Mar 2000
-
Consulatnt
Suvi Information Systems
1998 - 2000
-
Programmer Analyst
Link System software Pune
1998 - 2000
-
Sr System Analyst
Diaspark Inc
1998 - 1998
-
Programmer
Education:
Karnatak University 1985 - 1991
B.E., E&C
B.E., E&C
Skills:
PowerBuilder, .NET, Microsoft SQL Server, Oracle, SharePoint
Principal Engineer At Bechtel
Position:
Principal Engineer at Bechtel
Location:
Houston, Texas Area
Industry:
Oil & Energy
Work:
Bechtel
- Houston, Texas Area since Sep 2011
-
Principal Engineer
Bechtel
Sep 2006 - Sep 2011
-
Environmental Chief
Education:
University of Houston
M.S., Environmental Engineering University of Pune
M.S., Environmental Engineering University of Pune
Method Of Refining Liquified Petroleum Gases Into Aerosol Propellants
US Patent:
5191149, Mar 2, 1993
Filed:
Jul 12, 1991
Appl. No.:
7/729285
Inventors:
Rajendra D. Kulkarni - Houston TX
International Classification:
C07C 700, C07C 712, C07C 717, C01B 1716
US Classification:
585802
Abstract:
A method for refining liquified petroleum gases so that gases can be treated to reduce odor, olefins, moisture and wherein side reactions are minimized to produce stable aerosol by multistage liquid-liquid extraction of the aerosol using electrolyte solutions at controlled pH, chemically treating, drying and finishing by using molecular sieves and metal sulfides.