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Vijay R Balse

from Chatham, NJ
Age ~59
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Also known as:
Vijay Balsa
Phone and address:
420 River Rd, Chatham Township, NJ 07928
(973) 635-2691
Connected to:
Anika Balse, 27Darby L Balseca, 32Oscar Balseca, 51Rafael A Balseirolorenzana, 68Rafael A Balseiro, 46Carlos R Balsells, 66Hugo I Balsells, 45Brandon R Balser, 36Carmen D Balser, 69Gene D Balser, 84

Vijay Balse Phones & Addresses

  • 420 River Rd, Chatham, NJ 07928 (973) 635-2691
  • New Providence, NJ
  • 1415 Engineering Dr, Madison, WI 53706
  • 420 River Rd APT H3, Chatham, NJ 07928 (973) 635-2691

Work

Company: Perception partners, inc. 2010 Position: Intellectual property analytics consultant

Education

Degree: Doctorates, Doctor of Philosophy School / High School: University of Wisconsin - Madison 1985 to 1992 Specialities: Chemical Engineering

Industries

Oil & Energy

Resumes

Resumes

Vijay Balse Photo 1

Intellectual Property Analytics Consultant

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Location:
420 River Rd, Chatham, NJ 07928
Industry:
Oil & Energy
Work:
Perception Partners, Inc.
Intellectual Property Analytics Consultant
The Linde Group 2006 - 2009
Senior Project Manager
Boc Uk & Ireland 1992 - 2006
Senior and Lead Engineer
Education:
University of Wisconsin - Madison 1985 - 1992
Doctorates, Doctor of Philosophy, Chemical Engineering University of Bombay 1981 - 1985
Bachelors, Chemical Engineering

Publications

Us Patents

Treatment Of Gas Streams Containing Hydrogen Sulphide

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US Patent:
6517801, Feb 11, 2003
Filed:
Apr 5, 2001
Appl. No.:
09/827223
Inventors:
Richard William Watson - Near Ilkley, GB
Stephen Rhys Graville - Sheffield, GB
Vijay Ramanand Balse - Chatham NJ
Assignee:
The BOC Group plc - Windlesham
International Classification:
B01D 5348
US Classification:
4235741, 423220, 423228, 423237, 4232421, 4235731, 4235762, 4235768
Abstract:
A feed gas stream containing hydrogen sulphide is subjected in a furnace to reactions in which part of the hydrogen sulphide is burned to form sulphur dioxide, and is which the sulphur dioxide reacts with residual hydrogen sulphide to form sulphur vapor. The sulphur vapor is condensed from the gas stream exiting the furnace in a sulphur condenser. Residual sulphur dioxide is reduced back to hydrogen sulphide by hydrogen in a reactor. Water vapor is removed from the reduced gas in a quench tower to form a water vapor-depleted gas stream. One part of the water vapor-depleted gas stream is sent to an adsorber vessel in which hydrogen sulphide is absorbed in an absorbent. The resulting hydrogen sulphide-depleted gas stream is vented from the vessel as a purge stream. Another part of the water vapor-depleted gas stream and a hydrogen sulphide-rich gas formed by desorbing hydrogen sulphide from the absorbent in a vessel are returned as recycle streams to the furnace.

Preparation Of Ion-Exchanged Zeolites

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US Patent:
59325097, Aug 3, 1999
Filed:
Jun 18, 1996
Appl. No.:
8/665714
Inventors:
Vijay Ramanand Balse - Chatham NJ
Martin Bulow - Basking Ridge NJ
Philip Connolly - Little Falls NJ
Frank Fitch - Bedminster NJ
Adeola Florence Ojo - Chatham NJ
Assignee:
The BOC Group, Inc. - Murray Hill NJ
International Classification:
B01J 2906
US Classification:
502 65
Abstract:
Zeolites in particulate form that are uniformly exchanged with both lithium ions and trivalent cations are produced by first partially ion-exchanging the zeolite in powdered form with one or more selected trivalent ions, then agglomerating and calcining the partially trivalent cation-exchanged zeolite, then ion-exchanging the calcined agglomerate with lithium ions, and finally activating the trivalent cation- and lithium ion-exchanged zeolite.

Removal Of Carbon Dioxide From Gas Streams

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US Patent:
63094452, Oct 30, 2001
Filed:
Nov 18, 1999
Appl. No.:
9/442973
Inventors:
Craig S. Gittleman - Fanwood NJ
Adeola Florence Ojo - Scotch Plains NJ
Frank R. Fitch - Bedminster NJ
Martin Bulow - Basking Ridge NJ
Vijay R. Balse - Chatham NJ
Philip Connolly - Philadelphia PA
Assignee:
The BOC Group, Inc. - Murray Hill NJ
International Classification:
B01D 5304
B01D 5326
US Classification:
95 96
Abstract:
Carbon dioxide is removed from gas streams comprised predominantly of gases that are less strongly adsorbed than is carbon dioxide by passing the gas stream through a bed of type X zeolite having a silicon to aluminum atomic ratio not greater than about 1. 15 and at least 75% of the exchangeable cations of which are potassium ions, thereby adsorbing the carbon dioxide from the gas stream. The process is particularly advantageous when applied to the removal of low levels of carbon dioxide from gas streams at temperatures of about 0 to 80. degree. C.
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Vijay R Balse from Chatham, NJ, age ~59 Get Report