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Robert R Odle

from Elkton, MD
Age ~77
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Also known as:
Robert Julie Allen Odle, Robert M Odle, Robert Cole, Robert C Ole, Robert O Allen, Robert R Odel, Bob Odle, Rob Odle, Raymond Roe
Phone and address:
100 Wedgemont Dr, Elkton, MD 21921
(410) 392-9692
Related to:
Bernadette Herber Allen, 47Gary AllanSteven TarazonBrenda Riley, 62Erica Allen, 59Mystique Allen, 39
Connected to:
Adam C Odle, 37Alison C Odle, 61Anthony Odle, 57Brandi D Odle, 47Brandy N Odle, 39Carla A Odle, 73Cheryl Odle, 68David C Odle, 83Dillon C Odle, 32Emily Odle, 34

Robert Odle Phones & Addresses

  • 100 Wedgemont Dr, Elkton, MD 21921 (410) 392-9692 (443) 350-9222
  • 17 Birnam Ct, Greenville, SC 29615 (864) 234-0914 (864) 987-9316
  • Tucson, AZ
  • Corpus Christi, TX
  • Elkridge, MD
  • Sacramento, CA
  • Greer, SC

Work

Company: Metallurgical viability, inc 2013 Position: Mentoring the development

Education

School / High School: West Georgia College- Carrollton, GA 1978 Specialities: MBA

Professional Records

Lawyers & Attorneys

Robert Odle Photo 1

Robert C Odle Jr., Washington DC - Lawyer

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Address:
Weil, Gotshal & Manges
1300 I St Nw Ste 900, Washington, DC 20005
(202) 682-7180 (Office)
Licenses:
Dist. of Columbia - Active 1985
Robert Odle Photo 2

Robert C. Odle Jr., Washington DC - Lawyer

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Address:
Weil Gotshal & Manges LLP
1300 Eye St Nw Ste 900, Washington, DC 20005
(202) 682-7180 (Office)
Licenses:
Michigan - Active And In Good Standing 1969
Robert Odle Photo 3

Robert Odle, Washington DC - Lawyer

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Address:
1300 Eye St Nw, Washington, DC 20005
Phone:
(202) 682-7180 (Phone), (202) 682-7200 (Fax)
Specialties:
Environmental Law
Jurisdiction:
Michigan
Memberships:
Michigan State Bar

Resumes

Resumes

Robert Odle Photo 4

Robert Odle

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Robert Odle Photo 5

Robert Odle

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Robert Odle Photo 6

Robert Odle

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Location:
United States
Robert Odle Photo 7

Robert Odle Elkton, MD

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Work:
Metallurgical Viability, Inc

2013 to 2000
Mentoring the development
Metallurgical Viability, Inc

2013 to 2000
owner/ process consultant
Metallurgical Viability, Inc

2012 to 2000
corrosion consultant
Metallurgical Viability, Inc

1999 to 2000
Metallurgical Engineer
Metallurgical Viability, Inc

2012 to 2012
Metallurgical Viability, Inc

2012 to 2012
National Gypsum
Philadelphia, PA
2011 to 2011
Expert Witness
Avannaa Resources

2011 to 2011
Dresser-Rand Company

2005 to 2010
Principal Corrosion Engineer
Evaluation of a bearing failure in ventilation motors

2009 to 2009
Naramco Company

2008 to 2009
Confidential Client
Monterrey, N. L.
2008 to 2008
AMT Corporation

2008 to 2008
AMT Corporation

2007 to 2008
Shoreline Industries
Elkton, MD
2006 to 2007
Metallurgical Consultant
Metallurgical Viability, Inc

2005 to 2005
Wolf Eagle Environmental

2005 to 2005
Technical consultant on ASARCO permit for reopening
Confidential Client

2004 to 2005
Safe Hydrogen, Inc

2004 to 2005
Pildysh Technologies, Inc

2002 to 2002
Flehr Hohbach Test Albritton, Inc

2002 to 2002
Douglas G. Peterson & Associates

2002 to 2002
Alchemix Corp

2001 to 2002
Webster University

2001 to 2001
instructor for course entitled "Operations Management"
Magnesium Technologies Limited

2001 to 2001
Assisting client
Lone Wolf Technologies

2000 to 2001
Fluor Daniel

2000 to 2000
RF Weston

2000 to 2000
AMR

1999 to 2000
owner's representative
RF Weston

1999 to 1999
Magnesium Technology Limited
Elkton, MD
1999 to 1999
Metallurgical Consultant
Fluor Daniel (FD)

1995 to 1999
Principal Process Engineer
Southern Water Treatment Co

1991 to 1995
Technical Director
Encycle, Inc

1989 to 1991
Technical Director
CMS, Inc

1984 to 1989
Process Consultant/Software Business Owner
CMS, Inc

1984 to 1987
Senior Process Engineer
Anaconda Copper

1981 to 1984
Senior Research Engineer
AMAX Nickel Company

1978 to 1981
Senior Process Engineer
Copper Division of Southwire Company

1974 to 1978
Plant Metallurgist and Process Engineering Supervisor
Asarco Copper Smelter

1968 to 1970
Engineering Assistant
Education:
West Georgia College
Carrollton, GA
1978
MBA
Ohio State University
1974
Ph.D. in Metallurgical Engineering
University of Texas at El Paso
El Paso, TX
1970 to 1971
BS in Metallurgical Engineering

Publications

Wikipedia

Robert C. Odle Jr.

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Robert C. Odle, Jr. From Wikipedia, the free encyclopedia. Jump to: navigation, search. Robert C. Odle, Jr. is an American lawyer, based in Washington, D.C.. ...

Us Patents

Method For The Production Of Ammonia

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US Patent:
6620398, Sep 16, 2003
Filed:
Mar 6, 2001
Appl. No.:
09/800434
Inventors:
J. Kelly Kindig - Rapid City SD
Robert R. Odle - Greenville SC
Thomas E. Weyand - Beaver Falls PA
Boyd R. Davis - Kingston, CA
Assignee:
Alchemix Corporation - Carefree AZ
International Classification:
C01C 104
US Classification:
423359, 423657, 423658
Abstract:
A method for the production of ammonia. The method includes the reduction of steam using a metal species such as iron or tin to form pure hydrogen gas and the reaction of hydrogen gas with nitrogen gas to form ammonia. The nitrogen gas can be formed by extracting the oxygen from air through the oxidation of a metal, yielding nitrogen gas.

Method For The Production Of Hydrogen And Applications Thereof

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US Patent:
6663681, Dec 16, 2003
Filed:
Feb 28, 2002
Appl. No.:
10/085436
Inventors:
James Kelly Kindig - Phoenix AZ
Boyd R. Davis - Kingston, CA
Robert R. Odle - Greenville SC
Thomas E. Weyand - New Brighton PA
Assignee:
Alchemix Corporation - Carefree AZ
International Classification:
C01B 308
US Classification:
481275, 48210, 423359, 423657, 423658
Abstract:
A method for the production of hydrogen gas. The hydrogen gas is formed by steam reduction using a metal/metal oxide couple to remove oxygen from water. Steam is contacted with a molten metal mixture including a first reactive metal such as iron dissolved in a diluent metal such as tin. The reactive metal oxidizes to a metal oxide, forming a hydrogen gas and the metal oxide can then be reduced back to the metal for further production of hydrogen without substantial movement of the metal or metal oxide to a second reactor.

Method For The Production Of Hydrogen Gas

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US Patent:
6682714, Jan 27, 2004
Filed:
Mar 6, 2001
Appl. No.:
09/800769
Inventors:
J. Kelly Kindig - Rapid City SD
Robert R. Odle - Greenville SC
Thomas E. Weyand - Beaver Falls PA
Boyd R. Davis - Kingston, CA
Assignee:
Alchemix Corporation - Carefree AZ
International Classification:
C01B 310
US Classification:
423657, 423658
Abstract:
A method and apparatus for the production of hydrogen gas. The method includes the reduction of steam utilizing a metal species, such as iron or tin, to form pure hydrogen gas. At least two reactors are preferably utilized to continuously form additional metal for the reduction of the steam by reducing a metal oxide. No substantial transport of the non-gaseous reactants (e. g. , the metal and metal oxide) is required, thereby simplifying the apparatus and reducing the overall cost of the hydrogen production.

Method For The Treatment Of Coal

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US Patent:
7232472, Jun 19, 2007
Filed:
Mar 6, 2001
Appl. No.:
09/800421
Inventors:
J. Kelly Kindig - Rapid City SD, US
Robert R. Odle - Greenville SC, US
Thomas E. Weyand - Beaver Falls PA, US
Boyd R. Davis - Kingston, CA
Assignee:
Alchemix Corporation - Carefree AZ
International Classification:
C01B 3/32
US Classification:
481275, 481273, 48197 R
Abstract:
A method and apparatus for the treatment of coal to form a product gas such as methane (CH), and a high purity carbon product. The method includes contacting a coal-containing feedstock with a treatment gas that includes hydrogen. The coal feedstock can advantageously be a low-grade coal that contains high levels of impurities. The methane product gas can be augmented with hydrogen (H) gas. Reactants and by-products are advantageously recycled within the process system to enhance the economics of the process.

Removal Of Moisture From Process Gas

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US Patent:
8075245, Dec 13, 2011
Filed:
May 27, 2009
Appl. No.:
12/473003
Inventors:
Robert R. Odle - Elkton MD, US
David C. Seib - Olean NY, US
Assignee:
Dresser-Rand Company - Olean NY
International Classification:
F01D 25/32
B01D 53/26
US Classification:
415 1, 4151692, 62 93, 62283
Abstract:
Embodiments of the disclosure may provide an exemplary method for operating a compressor system, wherein the method may include cooling a process gas containing water vapor to a first temperature. The water vapor may form a condensate at the first temperature, and cooling the process gas may produce residual heat. At least a portion of the condensate is removed from the process gas, wherein any portion of the condensate that is not removed is a remaining condensate. The remaining condensate may be heated to a second temperature with the residual heat, wherein the remaining condensate in the process gas evaporates at the second temperature.

Reducing Corrosion In A Turbomachine

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US Patent:
8101125, Jan 24, 2012
Filed:
May 27, 2009
Appl. No.:
12/473053
Inventors:
Robert R. Odle - Elkton MD, US
David C. Seib - Olean NY, US
Assignee:
Dresser-Rand Company - Olean NY
International Classification:
C23F 11/00
US Classification:
422 7, 422 9, 422 10, 422 12
Abstract:
A method and system for reducing corrosion in a turbomachine. The method may include providing a process gas to a condenser, wherein the process gas contains a condensate having a pH level that is acidic. The condenser may be configured to remove at least a portion of the condensate from the process gas. Any condensate that is not removed is a remaining condensate. The method may further include increasing the pH level of the remaining condensate to above about 4 by mixing the process gas and the remaining condensate with an amount of pH modifier to form a mixture, and directing the mixture to a compressor coupled to the condenser, wherein the compressor is configured to compress the mixture.

Reducing Corrosion In A Turbomachine

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US Patent:
8585977, Nov 19, 2013
Filed:
Dec 21, 2011
Appl. No.:
13/333464
Inventors:
Robert R. Odle - Elkton MD, US
David C. Seib - Olean NY, US
Assignee:
Dresser-Rand Company - Olean NY
International Classification:
B01J 19/00
B01J 19/18
US Classification:
422111, 422 7, 422119, 422225
Abstract:
A method and system for reducing corrosion in a turbomachine are provided. The method may include providing a process gas to a condenser, wherein the process gas contains a condensate having a pH level that is acidic. The condenser may be configured to remove at least a portion of the condensate from the process gas. Any condensate that is not removed is a remaining condensate. The method may further include increasing the pH level of the remaining condensate to above about 4 by mixing the process gas and the remaining condensate with an amount of pH modifier to form a mixture, and directing the mixture to a compressor coupled to the condenser, wherein the compressor is configured to compress the mixture.

Method For The Production Of A Methane-Containing Gas

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US Patent:
20020139049, Oct 3, 2002
Filed:
Mar 6, 2001
Appl. No.:
09/800423
Inventors:
J. Kindig - Rapid City SD, US
Robert Odle - Greenville SC, US
Thomas Weyand - Beaver Falls PA, US
Boyd Davis - Kingston, CA
International Classification:
C10B057/04
US Classification:
048/127300, 048/1970FM, 048/19700A
Abstract:
A method and apparatus for the conversion of a hydrocarbon-bearing feedstock to a valuable product gas such as methane (CH). The feedstock can advantageously be a low-cost or negative net cost feedstock such as municipal waste or low-grade coal. The method advantageously includes the step of forming large volumes of hydrogen gas and contacting the hydrogen gas with the feedstock to produce methane. The methane can be combusted to produce electricity, such as in a combined cycle generator.
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Robert R Odle from Elkton, MD, age ~77 Get Report