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David Christine Bluck

from Yorba Linda, CA
Age ~74
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Also known as:
David B Luck, Dave Bluck
Phone and address:
17311 Majestic Cypress Way, Yorba Linda, CA 92886
(714) 572-1006
Related to:
Mark David Sanders, 66Morgan L Russell, 33Thomas Bluck, 44Christine M Bluck, 72Samuel Bluck, 46Thomas Bluck, 51
Connected to:
George A Bluck, 81Gayle E Bludau, 61Kenneth L Bludau, 77Peter Bludau, 86John H Bludorn, 70Mekala Bludsworth, 39Devon J Bludworth, 35Patricia A Bludworth, 75Peter J Bludworth, 60Adrianna Blue, 36

David Bluck Phones & Addresses

  • 17311 Majestic Cypress Way, Yorba Linda, CA 92886 (714) 572-1006
  • Saint Louis, MO
  • Fullerton, CA
  • Irvine, CA
  • Orange, CA
  • Placentia, CA
  • 17311 Majestic Cypress Way, Yorba Linda, CA 92886

Work

Position: Professional/Technical

Education

Degree: High school graduate or higher

Resumes

Resumes

David Bluck Photo 1

Chief Technologist At Invensys

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Industry:
Industrial Automation
Work:
Simulation Sciences
Chief Technologist
Invensys
Chief Technologist at Invensys
Education:
Teesside Polytechnic (U. of Teesside) 1971 - 1974
Doctorates, Doctor of Philosophy, Business
David Bluck Photo 2

David Bluck

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David Bluck Photo 3

David Bluck

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Publications

Us Patents

Thermodynamic Process Control Based On Pseudo-Density Root For Equation Of State

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US Patent:
8165860, Apr 24, 2012
Filed:
Aug 25, 2009
Appl. No.:
12/547145
Inventors:
Gang Xu - Irvine CA, US
David Bluck - Yorba Linda CA, US
David J. Van Peursem - Irvine CA, US
Ian H. Boys - Vista CA, US
Assignee:
Invensys Systems, Inc - Foxboro MA
International Classification:
G06F 9/455
US Classification:
703 12
Abstract:
A system for thermodynamic modeling is provided. The system comprises a computer having a processor, a thermodynamic process simulation application, and a thermodynamic equation of state application. When executed by the processor, the thermodynamic equation of state application determines a density root based on a first and second point of departure from an equation of state and based on a first and a second extrapolation equation. The first departure point satisfies the equation.

Thermodynamic Phase Equilibrium Analysis Based On A Reduced Composition Domain

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US Patent:
8364316, Jan 29, 2013
Filed:
Sep 15, 2009
Appl. No.:
12/560134
Inventors:
Gang Xu - Irvine CA, US
David Bluck - Yorba Linda CA, US
Assignee:
Invensys Systems, Inc. - Foxboro MA
International Classification:
G01N 15/06
G01N 33/00
G01N 33/48
US Classification:
700270, 700 1, 700266, 702 22, 702 30, 702 31, 702127
Abstract:
A method of modeling phase characteristics of thermodynamic systems utilizing pseudo-properties strategy and a reduced number of variables is disclosed herein. The method describes a means of determining the probability of phase splitting of mixtures of materials at a given temperature, pressure, and composition by characterizing the functions that describe the system via pseudo-properties, and also by describing the system in n−1 or fewer variables, where n represents the number of components in the system of interest. In an embodiment, a multi-component system is characterized in one variable, thereby providing simplified thermodynamic models in a time-efficient manner. In addition, the information generated by this reduced-variable calculation can further be used as a starting point for calculations of equations of state.

System And Method For Process Predictive Simulation

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US Patent:
20120095808, Apr 19, 2012
Filed:
Oct 15, 2010
Appl. No.:
12/906070
Inventors:
James Kattapuram - Trabuco Canyon CA, US
David Bluck - Yorba Linda CA, US
Assignee:
INVENSYS SYSTEMS INC. - Foxboro MA
International Classification:
G06Q 10/00
US Classification:
705 737
Abstract:
A system for process control is provided. The system comprises a computer system, a data store comprising a plurality of data sets, each data set associated with operating conditions of a plant at a particular time, a first application, and a second application, the first and second applications executed by the computer system. The first application simulates operation of the plant in accordance with first principles and based on one of the data sets. The second application receives plant simulation data from the first application, aggregates plant historical data about the plant from a plurality of sources, associates the plant simulation data and the plant historical data to components of the plant, analyzes the plant simulation data and the plant historical data, and visually presents an information produced by the analysis of the plant simulation data and the plant historical data.

Simulated Fermentation Process

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US Patent:
20120310413, Dec 6, 2012
Filed:
Jun 4, 2011
Appl. No.:
13/153393
Inventors:
David Bluck - Yorba Linda CA, US
Wen-Jing Lin - Sugar Land TX, US
Assignee:
INVENSYS SYSTEMS INC. - Foxboro MA
International Classification:
G06F 19/00
G06G 7/58
US Classification:
700266, 703 11
Abstract:
A method of modeling a fermentation process comprises providing a first principles model of a fermentation process; determining the concentration of at least one substrate in a fermentation composition at a first time; and predicting the concentration of at least one component of the fermentation composition at a second time using the first principles model, wherein the second time is after the first time.

Thermodynamic Phase Equilibrium Analysis Based On A Reduced Composition Domain

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US Patent:
20140081607, Mar 20, 2014
Filed:
Sep 20, 2012
Appl. No.:
13/623203
Inventors:
David Bluck - Yorba Linda CA, US
Assignee:
INVENSYS SYSTEMS, INC. - Foxboro MA
International Classification:
G06F 17/13
US Classification:
703 2
Abstract:
A method of modeling phase characteristics of thermodynamic systems utilizing pseudo-properties strategy and a reduced number of variables is disclosed herein. The method describes a means of determining the probability of phase splitting of mixtures of materials at a given temperature, pressure, and composition by characterizing the functions that describe the system via pseudo-properties, and also by describing the system in n−1 or fewer variables, where n represents the number of components in the system of interest. In an embodiment, a multi-component system is characterized in one variable, thereby providing simplified thermodynamic models in a time-efficient manner. In addition, the information generated by this reduced-variable calculation can further be used as a starting point for calculations of equations of state.
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David Christine Bluck from Yorba Linda, CA, age ~74 Get Report