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Tudor Constantin Ionescu

from Houston, TX
Age ~47
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Also known as:
Tudor C Ionescu, Tudor I Ionescu, Todor Ionescu, Ionescu Tudor
Related to:
Heather Lynn Granzin, 51Heather Turner, 47Tommy Turner, 37Cornelia IonescuMichael Curry, 55
Connected to:
Anca Ionescu, 53Catalin Ionescu, 66Elisabeta Ionescu, 75Gentiana Ionescu, 60Natalie M Ionescu, 32Serban I Ionescu, 57Simona Ionescu, 73Tira S Ionescu, 71Alexander Ionides, 51Tatyana Ionin, 47

Tudor Ionescu Phones & Addresses

  • Houston, TX
  • Sugar Land, TX
  • 12660 Stafford Rd, Stafford, TX 77477
  • Knoxville, TN
  • Nashville, TN

Work

Company: Fly records / lala music Feb 2005 Position: Co owner - fly records studios / fly records booking, composer, music producer

Skills

Music • Songwriting • Voice Over • Event Management • Public Relations

Industries

Music

Resumes

Resumes

Tudor Ionescu Photo 1

Managing Partner, Fly Records Studios / Fly Records Booking

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Position:
Co Owner - Fly Records Studios / Fly Records Booking, Composer, Music Producer at FLY RECORDS / LALA MUSIC
Location:
Bucharest, Romania
Industry:
Music
Work:
FLY RECORDS / LALA MUSIC since Feb 2005
Co Owner - Fly Records Studios / Fly Records Booking, Composer, Music Producer
Skills:
Music
Songwriting
Voice Over
Event Management
Public Relations

Publications

Us Patents

Process For Reducing The Concentration Of Hydrate Inhibitors In Water Used For Oil And Gas Production

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US Patent:
20120247972, Oct 4, 2012
Filed:
Mar 22, 2012
Appl. No.:
13/427540
Inventors:
Howard J. Spencer - Dukinfield, GB
Marc N. Lehmann - Houston TX, US
Tudor C. Ionescu - Houston TX, US
Timothy Z. Garza - Dickinson TX, US
Steven J. Jackson - Liverpool, GB
Assignee:
BAKER HUGHES INCORPORATED - HOUSTON TX
International Classification:
C02F 1/00
C02F 1/26
C02F 1/52
C02F 9/08
C02F 9/06
C02F 1/463
C02F 1/38
C02F 1/28
C02F 9/04
C02F 101/30
US Classification:
205742, 210691, 210634, 210702, 210661, 210660, 210663
Abstract:
Reducing the concentration of kinetic hydrate inhibitors in produced water may be accomplished by treating the produced water using a method selected from the group consisting of chemical adsorption, solvent extraction, chemical coagulation, electrochemical coagulation and combinations thereof. Such reductions may in some instances allow for the reuse of produced water for irrigation or recycle in oil and gas production.

System And Method For Downhole Inorganic Scale Monitoring And Intervention In A Production Well

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US Patent:
20190234210, Aug 1, 2019
Filed:
Apr 11, 2019
Appl. No.:
16/381786
Inventors:
Aurelie Duchene - Houston TX, US
Alessandro De Barros - Rio de Janeiro, BR
Hartley Downs - Houston TX, US
Eduardo Motta - Rio de Janeiro, BR
Potiani Maciel - Rio de Janeiro, BR
Ashwin Chandran - Spring TX, US
Thomas Scott - Cypress TX, US
Rocco DiFoggio - Houston TX, US
Tudor Ionescu - Houston TX, US
Eric Donzier - Houston TX, US
Assignee:
Baker Hughes, a GE company, LLC - Houston TX
International Classification:
E21B 49/08
E21B 37/06
E21B 47/06
Abstract:
An apparatus for estimating an ambient environment at which inorganic scale will form in a downhole fluid includes a stress chamber disposed in a borehole in a production zone at a location within a specified range of maximum pressure and configured to receive a sample of the fluid from the production zone and to apply an ambient condition to the sample that causes the formation of inorganic scale. An inorganic scale sensor is configured to sense formation of inorganic scale within the chamber and an ambient environment sensor is configured to sense an ambient environment within the chamber at which the formation of inorganic scale occurs. The apparatus further includes a processor configured to receive measurement data from the inorganic scale sensor and the ambient environment sensor and to identify the ambient environment at which the formation of inorganic scale occurs.

Method For Monitoring Quality Assurance Of Chemicals In Subsea Umbilical Systems To Avoid Blockage

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US Patent:
20190048712, Feb 14, 2019
Filed:
Aug 2, 2018
Appl. No.:
16/053087
Inventors:
- Houston TX, US
Paul Robert Stead - Sugar Land TX, US
Michael J. Deighton - Fulshear TX, US
Sunder Ramachandran - Sugar Land TX, US
Tudor C. Ionescu - Houston TX, US
Assignee:
Baker Hughes, a GE company, LLC - Houston TX
International Classification:
E21B 47/10
E21B 37/06
E21B 47/06
E21B 41/02
G01N 9/00
G01N 15/06
Abstract:
A method for monitoring the quality, stability, and potential deposition of process treatment fluids pumped into subsea umbilical systems includes monitoring a resonator sensor in the subsea umbilical system having a fluid flowing therethrough, where the resonator sensor can be a torsional resonator or a symmetrical sensor, and the method also includes detecting a change in resonance of the resonator sensor indicating the deposition of a chemical species on the resonator sensor or significant change in process treatment fluid physical viscosity and density properties. The resonator sensor can also measure the amount of chemical species deposited. The fluid may be an organic and/or aqueous based fluid. The method includes performing at least one action in response to detecting the change, which action prevents or inhibits blockage of the subsea umbilical system.

Method For Monitoring Deposition In Wells, Flowlines, Processing Equipment And Laboratory Testing Apparatus

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US Patent:
20190049361, Feb 14, 2019
Filed:
Aug 2, 2018
Appl. No.:
16/052993
Inventors:
- Houston TX, US
Michael J. Deighton - Fulshear TX, US
Brian B. Ochoa - Hannover, DE
Tudor C. Ionescu - Houston TX, US
Assignee:
Baker Hughes, a GE company, LLC - Houston TX
International Classification:
G01N 17/00
E21B 47/00
G01N 19/00
G01V 9/00
Abstract:
A method for measuring chemical species deposition in a well, flow line, or processing equipment includes monitoring a resonator sensor in a well, flow line, or processing equipment having a fluid flowing therethrough, where the resonator sensor can be a torsional resonator or a symmetrical sensor, and the method also includes detecting a change in resonance of the resonator sensor indicating the deposition of a chemical species on the resonator sensor. The resonator sensor can also measure the amount of chemical species deposited. The fluid may be an organic and/or aqueous fluid that comprises petroleum and/or produced water and the deposition chemical species include, but are not necessarily limited to, asphaltenes, wax, scale, gas hydrates, naphthenic acid salts, and combinations thereof.

Apparatus And Method For Mixing Hydrogen Sulfide Scavenger With Crude Oil Within A Pipeline

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US Patent:
20170335209, Nov 23, 2017
Filed:
Jan 3, 2017
Appl. No.:
15/397510
Inventors:
- Houston TX, US
PATRICK RODGERS - HOUSTON TX, US
TUDOR CONSTANTIN IONESCU - HOUSTON TX, US
Assignee:
BAKER HUGHES, A GE COMPANY, LLC - Houston TX
International Classification:
C10G 75/02
F17D 3/12
F15D 1/02
Abstract:
An apparatus and method for mixing a hydrogen sulfide scavenger with crude oil within a pipeline are disclosed. The hydrogen sulfide scavenger and the crude oil can be passed through a plurality of baffles disposed at spaced apart locations within the pipeline. The baffles can be used as an in-flow static mixer to produce increased circulation and flow speed which results in improved mixing of the hydrogen sulfide scavenger and crude oil.

System And Method For Downhole Inorganic Scale Monitoring And Intervention In A Production Well

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US Patent:
20160024915, Jan 28, 2016
Filed:
Jul 23, 2015
Appl. No.:
14/807287
Inventors:
Aurelie Duchene - Houston TX, US
Alessandro De Barros - Rio de Janeiro, BR
Hartley Downs - Houston TX, US
Eduardo Motta - Rio de Janeiro, BR
Potiani Maciel - Rio de Janeiro, BR
Ashwin Chandran - Spring TX, US
Thomas Scott - Cypress TX, US
Rocco DiFoggio - Houston TX, US
Tudor Ionescu - Houston TX, US
Eric Donzier - Houston TX, US
Assignee:
Baker Hughes Incorporated - Houston TX
International Classification:
E21B 49/08
E21B 47/06
Abstract:
An apparatus for estimating an ambient environment at which inorganic scale will form in a downhole fluid includes a stress chamber disposed in a borehole in a production zone at a location within a specified range of maximum pressure and configured to receive a sample of the fluid from the production zone and to apply an ambient condition to the sample that causes the formation of inorganic scale. An inorganic scale sensor is configured to sense formation of inorganic scale within the chamber and an ambient environment sensor is configured to sense an ambient environment within the chamber at which the formation of inorganic scale occurs. The apparatus further includes a processor configured to receive measurement data from the inorganic scale sensor and the ambient environment sensor and to identify the ambient environment at which the formation of inorganic scale occurs.

System And Method For Downhole Organic Scale Monitoring And Intervention In A Production Well

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US Patent:
20160024916, Jan 28, 2016
Filed:
Jul 23, 2015
Appl. No.:
14/807738
Inventors:
Geiza Esperandio de Oliveira - Rio de Janeiro, BR
Hartley Downs - Houston TX, US
Aurelie Duchene - Houston TX, US
Eduardo Motta - Rio de Janeiro, BR
Potiani Maciel - Rio de Janeiro, BR
Ashwin Chandran - Spring TX, US
Thomas Scott - Cypress TX, US
Rocco DiFoggio - Houston TX, US
Tudor Ionescu - Houston TX, US
Eric Donzier - Houston TX, US
Assignee:
BAKER HUGHES INCORPORATED - Houston TX
International Classification:
E21B 49/08
E21B 37/06
Abstract:
An apparatus for estimating an ambient environment at which organic scale will form in a downhole fluid includes a stress chamber disposed in a borehole in a production zone at a location of maximum pressure and configured to receive a sample of the fluid from the production zone and to apply an ambient condition to the sample that causes the formation of organic scale. A sensor is configured to sense formation of organic scale within the chamber and an ambient environment sensor is configured to sense an ambient environment within the chamber at which the formation of organic scale occurs. The apparatus further includes a processor configured to receive measurement data from the organic scaling sensor and the ambient environment sensor and to identify the ambient environment at which the formation of organic scale occurs using the organic scaling sensor measurement data and ambient environment sensor measurement data.
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Tudor Constantin Ionescu from Houston, TX, age ~47 Get Report