Search

Janardhan N Davalath

from Spring, TX
Age ~61
Get Report
Also known as:
Janardhan C Davalath, Janard Davalath, Davalath Janardhan, Davalath Janard, Janardhan H
Phone and address:
1475 Sawdust Rd, Spring, TX 77380
(832) 813-5604
Related to:
Charulatha DavalathDeepika DavalathCharulatha B Davalath, 56
Connected to:
Ronald L Davalbiss, 78Edgar N Davall, 111Paul A Davalli, 77Paul H Davallou, 92Rasaura V Davalo, 38Adelin O Davalos, 41Agueda Davalos, 53Alexis Davalos, 36Biridiana Davalos, 37Carlin C Davalos, 28

Janardhan Davalath Phones & Addresses

  • 1475 Sawdust Rd, Spring, TX 77380 (832) 813-5604
  • 26 Evening Song Ct, Spring, TX 77380 (832) 813-5604
  • The Woodlands, TX
  • 13018 Belmont St, Houston, TX 77065 (281) 477-3414 (281) 477-6452
  • 10 Nightwind Pl, Spring, TX 77381 (281) 467-4794

Work

Company: Fmc technologies Jan 2006 Position: Product manager - subsea process systems

Education

Degree: Master of Science School / High School: Rice University 1984 to 1986 Specialities: Mechanical Engineering

Skills

Subsea Engineering • Flow Assurance • Field Development • Petroleum • Upstream • Engineering • Gas • Oil/Gas • Project Engineering • Pipelines • Oil and Gas Industry • Engineering Design • Energy • Leadership • Oilfield • Drilling • Business Development • Subsea Processing • Sales Management • Business Strategy • Multiphase Flow

Industries

Oil & Energy

Resumes

Resumes

Janardhan Davalath Photo 1

Product Marketing Manager

View page
Location:
4844 County Rd, Pleasanton, TX
Industry:
Oil & Energy
Work:
FMC Technologies since Jan 2006
Product Manager - Subsea Process Systems
Mentor Subsea Mar 1995 - Oct 1997
Flow Assurance Engineer
Exxon Production Research Company Jan 1986 - Sep 1994
Senior Research Engineer
Education:
Rice University 1984 - 1986
Master of Science, Mechanical Engineering Lamar University 1980 - 1983
Bachelor of Science, Mechanical Engineering
Skills:
Subsea Engineering
Flow Assurance
Field Development
Petroleum
Upstream
Engineering
Gas
Oil/Gas
Project Engineering
Pipelines
Oil and Gas Industry
Engineering Design
Energy
Leadership
Oilfield
Drilling
Business Development
Subsea Processing
Sales Management
Business Strategy
Multiphase Flow

Publications

Us Patents

Method For Separation Of Solids From Drilling Fluids By Magnetic Separation And Centrifugation

View page
US Patent:
59441950, Aug 31, 1999
Filed:
Jul 3, 1996
Appl. No.:
8/675470
Inventors:
Pin Y. Huang - Houston TX
Yuh-Hwang Tsao - Houston TX
Janardhan Davalath - Houston TX
Assignee:
Exxon Production Research Company - Houston TX
International Classification:
B03C 130
C09K 700
US Classification:
209 39
Abstract:
A method is disclosed for treating drilling mud discharged from a well wherein the mud contains drill cuttings and paramagnetic materials such as hematite. The drilling mud is first passed through a high-gradient magnetic separator to separate the paramagnetic materials from the drilling mud. The drilling mud is then passed through a centrifuge separator to remove the drill cuttings from the drilling mud.

Subsea Seawater Filtration Apparatus

View page
US Patent:
20220241729, Aug 4, 2022
Filed:
Apr 18, 2022
Appl. No.:
17/723355
Inventors:
- Houston TX, US
Janardhan Davalath - Spring TX, US
Abhishek Shah - Cypress TX, US
Loreen Ople Villacorte - Velp, NL
Paul Verbeek - Voorhout, NL
Thomas Krebs - Doorwerth, NL
Vivek Mehrotra - Simi Valley CA, US
Rahul Ganguli - Oak Park CA, US
International Classification:
B01D 63/06
B01D 61/02
B01D 61/08
B01D 65/02
B01D 65/08
C02F 1/44
C02F 1/76
Abstract:
A filtration apparatus includes a tubular casing having a longitudinal axis and first and second casing ends, a plurality of partition plates positioned in the casing and sealed thereto to thereby define an intake collection chamber between a first of said partition plates and the first casing end, a discharge collection chamber between a second of said partition plates and the second casing end, and a reject collection chamber opposite the second partition plate from the second casing end, a plurality of elongated filtration membrane stacks positioned side-by-side in the casing generally parallel to the longitudinal axis, each filtration membrane stack comprising an intake end fluidly connected to the intake collection chamber, a discharge end fluidly connected to the reject collection chamber, and a permeate channel extending between the first and second ends and fluidly connected to the discharge collection chamber. The filtration apparatus also includes an intake pipe connected to the intake collection chamber, a discharge pipe connected to the discharge collection chamber, and a reject pipe connected to the reject collection chamber. Each filtration membrane stack is made of a plurality of filtration membranes which are each sealed to a corresponding hole in a corresponding partition plate, each filtration membrane having an inlet end and an outlet end and being sealed to the corresponding hole between the inlet and outlet ends, and the outlet end being spaced apart from an adjacent partition plate located closer to the second casing end.

Subsea Seawater Filtration Apparatus

View page
US Patent:
20230098796, Mar 30, 2023
Filed:
Apr 18, 2022
Appl. No.:
17/723287
Inventors:
- Houston TX, US
Janardhan Davalath - Spring TX, US
Abhishek Shah - Cypress TX, US
Loreen Ople Villacorte - Velp, NL
Paul Verbeek - Voorhout, NL
Thomas Krebs - Doorwerth, NL
International Classification:
B01D 63/06
B01D 61/02
B01D 61/08
B01D 65/02
B01D 65/08
C02F 1/44
C02F 1/76
Abstract:
A filtration apparatus includes a tubular casing having a longitudinal axis and first and second casing ends, a plurality of partition plates positioned in the casing and sealed thereto to thereby define a plurality of axially successive chambers within the casing, including an intake collection chamber between a first of the partition plates and the first casing end, a discharge collection chamber between a second of the partition plates and the second casing end, and a reject collection chamber opposite the second partition plate from the second casing end. A plurality of elongated filtration membrane stacks are positioned side-by-side in the casing generally parallel to the longitudinal axis. Each filtration membrane stack includes an intake end which is fluidly connected to the intake collection chamber, a discharge end which is fluidly connected to the reject collection chamber, and a permeate channel which extends between the intake and discharge ends and is fluidly connected to the discharge collection chamber, an end of the permeate channel located adjacent the intake end being sealed from the intake collection chamber. The filtration apparatus also includes an intake pipe having a first end fluidly connected to the intake collection chamber and a second end fluidly connected to a first connector located proximate the second casing end; a discharge pipe having a first end fluidly connected to the discharge collection chamber and a second end fluidly connected to a second connector located proximate the first connector; and a reject pipe having a first end fluidly connected to the reject collection chamber and a second end fluidly connected to a third connector located proximate the first and second connectors. Each filtration membrane stack includes a plurality of filtration membranes, and the plurality of filtration membrane stacks together define a plurality of axially successive sets of radially adjacent filtration membranes. Also, each filtration membrane of each of the sets of filtration membranes is sealed to a corresponding hole in a respective one of the partition plates.

Subsea Seawater Filtration Apparatus

View page
US Patent:
20200094192, Mar 26, 2020
Filed:
Jun 22, 2017
Appl. No.:
16/619072
Inventors:
- Houston TX, US
Janardhan Davalath - Spring TX, US
Abhishek Shah - Cypress TX, US
Loreen Ople Villacorte - Velp, NL
Paul Verbeek - Voorhout, NL
Thomas Krebs - Doorwerth, NL
Vivek Mehrotra - Simi Valley CA, US
Rahul Ganguli - Oak Park CA, US
International Classification:
B01D 63/06
B01D 61/02
B01D 61/08
B01D 65/02
B01D 65/08
C02F 1/44
C02F 1/76
Abstract:
A filtration apparatus includes a tubular casing having a longitudinal axis and first and second casing ends. A plurality of partition plates are positioned in the casing and sealed thereto to thereby define an intake collection chamber between a first of the partition plates and the first casing end, a discharge collection chamber between a second of the partition plates and the second casing end, and a reject collection chamber opposite the second partition plate from the second casing end. A plurality of elongated filtration membrane stacks are positioned side-by-side in the casing generally parallel to the longitudinal axis. Each filtration membrane stack includes an intake end which is fluidly connected to the intake collection chamber, a discharge end which is fluidly connected to the reject collection chamber, and a permeate channel which extends between the first and second ends and is fluidly connected to the discharge collection chamber.
Control profile
Janardhan N Davalath from Spring, TX, age ~61 Get Report