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Sam O Colgate

from Gainesville, FL
Age ~91
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Also known as:
Sam Oran Colgate, Samuel Oran Colgate, Samuel O Colgate, Oran S Colgate, Sam E
Phone and address:
4132 38Th St, Gainesville, FL 32606
(352) 375-0424
Related to:
Chris Colgate, 51Jocylene Macaisa, 56Kathy Fitzgerald, 69William Colgate, 40Shane A Fitzgerald, 50
Connected to:
Jacqueline A Colgate, 30Tammy C Colgate, 54Tina Colgate, 53Carlen M Colgett, 73Kindra D Colgin, 63Andrew J Colglazier, 40Duane F Colglazier, 59Joyce Colglazier, 66Judith A Colglazier, 79Ryan K Colglazier, 38

Sam Colgate Phones & Addresses

  • 4132 38Th St, Gainesville, FL 32606 (352) 375-0424
  • Ocala, FL
  • Alachua, FL

Work

Company: University of florida Position: Manager or supervisor

Education

Degree: Graduate or professional degree

Skills

Teaching • Analytical Chemistry • Lifesciences • Chromatography • Hydrates • Physical Chemistry • Organic Chemistry • Research • Spectroscopy • Science • Mass Spectrometry • Flow Assurance • Chemistry • R&D • Hplc • Nmr

Emails

s***[email protected]

Industries

Research

Resumes

Resumes

Sam Colgate Photo 1

Sam Colgate

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Location:
Gainesville, FL
Industry:
Research
Work:
University of Florida
Manager Or Supervisor
Galigani Law Firm
Professor
Skills:
Teaching
Analytical Chemistry
Lifesciences
Chromatography
Hydrates
Physical Chemistry
Organic Chemistry
Research
Spectroscopy
Science
Mass Spectrometry
Flow Assurance
Chemistry
R&D
Hplc
Nmr

Publications

Wikipedia

Samuel Colgate

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Samuel Colgate (18221897), son of William Colgate (17831857), was an American manufacturer and philanthropist, born in New York City. ...

Us Patents

Methods For Controlling Temperatures In The Environments Of Gas And Oil Wells

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US Patent:
20100200237, Aug 12, 2010
Filed:
Feb 11, 2010
Appl. No.:
12/704526
Inventors:
Sam O. Colgate - Gainesville FL, US
Robert L. Horton - Sugar Land TX, US
International Classification:
E21B 43/24
US Classification:
166302, 166 57
Abstract:
Methods and apparatus are provided for controlling temperatures in the environments of oil, gas condensate, or gas wells. Methods are provided for reducing the melting of glaciers and ice dams through the deployment of hydrate-forming substances. Active methods involve employing a vapor-compression refrigerator/heat pump cycle in an annulus lying between the relatively hot production string and the relatively cold outer pipe. Passive methods include: deploying cold hydrate-forming fluids into the external ice-laden environment of an oil, gas condensate, or gas well in a permafrost area and allowing those hydrate forming fluids to mix with any melt-water that may be present or that may subsequently form due to the loss of heat from the oil, gas condensate, or gas well. Mixtures of the hydrate forming fluids and the melt-water will set up into a solid having a much higher melting point and a much lower thermal conductivity than those of ice.
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Sam O Colgate from Gainesville, FL, age ~91 Get Report