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Vinay V Gadkari

from Powell, OH
Age ~58
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Also known as:
Varsha V Gadkari, Binay V Gadkari, Vidula Gadkari, Varsha I
Phone and address:
8838 Coldwater Dr, Powell, OH 43065
(740) 917-5150
Related to:
Kenesha ReedAlfonza Smith, 77Matthew Lee, 79Jeffery Collier, 58Dupree Reed
Connected to:
Linal M Gadkari, 51Nikhil R Gadkari, 49Prasad R Gadkari, 52Sheetal Gadkari, 48Walter J Gadkowski, 81Belva J Gadlage, 75Jason M Gadlage, 36Samantha L Gadlage, 33Ann M Gadley, 53Gabriel Gadley, 34

Vinay Gadkari Phones & Addresses

  • 8838 Coldwater Dr, Powell, OH 43065 (740) 917-5150
  • 5476 Baneberry Ave, Columbus, OH 43235 (614) 459-2709
  • 5500 Bermuda Bay Dr, Columbus, OH 43235
  • Newark, OH
  • Dublin, OH
  • 1377 Sandtrap Ln, Farmington, UT 84025 (801) 451-2166
  • Cincinnati, OH
  • Van Nuys, CA
  • Yardley, PA
  • Delaware, OH
  • Oxford, OH

Work

Company: Us-aep 1993 to 1997 Position: Dy. dir tech coop

Education

School / High School: The Ohio State University Fisher College of Business 2011

Skills

Commercialization • Environmental Science • Six Sigma • Program Management • Sustainability • Proposal Writing • Project Management • Leadership • Public Speaking • Research • Data Analysis • Analysis • Policy • Government • Environmental Awareness • Cross Functional Team Leadership • Materials Science • Renewable Energy • Microsoft Office

Languages

English • Hindi • Marathi

Ranks

Certificate: Project Management Professional (Pmp)

Interests

Science and Technology • Environment • Economic Empowerment

Industries

Research

Resumes

Resumes

Vinay Gadkari Photo 1

Senior Research Scientist And Program Manager

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Location:
Columbus, OH
Industry:
Research
Work:
US-AEP 1993 - 1997
Dy. Dir Tech Coop
Education:
The Ohio State University Fisher College of Business 2011
Miami University 1997 - 1999
Masters, Environmental Science University of Mumbai 1983 - 1987
Skills:
Commercialization
Environmental Science
Six Sigma
Program Management
Sustainability
Proposal Writing
Project Management
Leadership
Public Speaking
Research
Data Analysis
Analysis
Policy
Government
Environmental Awareness
Cross Functional Team Leadership
Materials Science
Renewable Energy
Microsoft Office
Interests:
Science and Technology
Environment
Economic Empowerment
Languages:
English
Hindi
Marathi
Certifications:
Project Management Professional (Pmp)
Lean Six Sigma Black Belt - Coursework Complete
Project Management Institute
Fisher College of Business Executive Education

Publications

Us Patents

Formulations And Methods To Reduce Hexavalent Chrome Contamination

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US Patent:
20140023555, Jan 23, 2014
Filed:
Mar 30, 2012
Appl. No.:
14/008071
Inventors:
Bruce F. Monzyk - Town Creek AL, US
Paul J. Usinowicz - Powell OH, US
Derik R. Heiss - Plain City OH, US
Vinay V. Gadkari - Powell OH, US
John T. Stropki - Westerville OH, US
Assignee:
BATTELLE MEMORIAL INSTITUTE - Columbus OH
International Classification:
A62D 3/37
US Classification:
422 28, 2521881, 2521882
Abstract:
The present invention includes formulations and methods to reduce Cr(VI) contamination, in which the formulation comprises (1) a reactive reducing agent comprising at least one reducing chemical capable of reducing Cr(VI) to Cr(III); and (b) one or more solvents. Moreover, the present invention includes formulations to reduce Cr(VI) within the coating, and Cr(VI) reducing kits with at least one color reference tool for evaluating the process and/or completion of the Cr(VI) reduction.

Corrosion Resistant Primer Coating

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US Patent:
20110200754, Aug 18, 2011
Filed:
Oct 19, 2009
Appl. No.:
13/124702
Inventors:
Bruce F. Monzyk - Delaware OH, US
Jerad A. Ford - Kuala Lumpur, MY
John T. Stropki - Westerville OH, US
David N. Clark - Los Lunas NM, US
Vinay V. Gadkari - Powell OH, US
Katherine P. Mitchell - Pickerington OH, US
Assignee:
BATTELLE MEMORIAL INSTITUTE - Columbus OH
International Classification:
B05D 5/00
C23F 11/00
C01G 49/02
B05D 7/14
B05D 3/00
B05D 3/10
C23C 22/00
US Classification:
427327, 25238953, 25238952, 25238951, 4235941, 148240
Abstract:
A corrosion resistant primer coating comprises one or more corrosion inhibiting additives; and one or more nonaqueous resins, and the method of making and using the primer coating. The corrosion inhibiting additive comprises metal ferrate(IV) compounds, metal ferrate(V) compounds, metal ferrate(VI) compounds, or a mixture thereof (collectively called the ferrate compound). The ferrate compound has a low solubility in water in the range of about 0.001 ppm to about 2000 ppm at a temperature in the range of about 0 C. to 71 C.A method of making the metal-1 ferrate compound suitable for the corrosion resistant primer coating comprises steps of (a) dissolving a highly soluble metal-1 salt in water, (b) dissolving and mixing an alkali metal ferrate compound and a metal-2 hydroxide in water, (c) adding the solution of step (b) to the solution of step (a) to form a preproduct, wherein the preproduct comprises the metal-1 ferrate compound; (d) filtering and washing the preproduct with one or more solvents to obtain the metal-1 ferrate compound; and (e) drying the metal ferrate compound in a low moisture environment to obtain the dried metal-1 ferrate compound; wherein the metal-1 ion and the metal-2 ion are the same or are different from each other.

Systems For Acid Digestion Processes

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US Patent:
20200002784, Jan 2, 2020
Filed:
Aug 15, 2019
Appl. No.:
16/541355
Inventors:
- Columbus OH, US
Michael Heinrichs - Columbus OH, US
Vinay V. Gadkari - Columbus OH, US
Rachid Taha - Dublin OH, US
Slawomir Winecki - Dublin OH, US
Darwin Argumedo - Columbus OH, US
International Classification:
C22B 59/00
C22B 3/06
C22B 7/00
C01B 39/02
Abstract:
A system for recovering rare earth elements from coal ash includes a leaching reactor, an ash dryer downstream of the leaching reactor, and a roaster downstream of the ash dryer that is cooperatively connected to both the leaching reactor and the ash dryer. Coal ash is mixed with an acid stream such that rare earth elements present in the coal ash are dissolved in the acid stream, thereby creating (i) a leachate containing the rare earth elements and (ii) leached ash. The leachate is heated to obtain acid vapor and an acid-soluble rare earth concentrate. Mixing of the coal ash with the acid stream can occur in a leaching reactor and heating of the leachate can occur in a roaster. The acid-soluble rare earth concentrate can be fed to a hydrometallurgical process to separate and purify the rare earth elements.

Methods For Recovery Of Rare Earth Elements From Coal

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US Patent:
20200002785, Jan 2, 2020
Filed:
Aug 15, 2019
Appl. No.:
16/541444
Inventors:
- Columbus OH, US
Michael Heinrichs - Columbus OH, US
Vinay V. Gadkari - Columbus OH, US
Rachid Taha - Dublin OH, US
Slawomir Winecki - Dublin OH, US
Darwin Argumendo - Columbus OH, US
International Classification:
C22B 59/00
C22B 3/06
C22B 7/00
C01B 39/02
Abstract:
Methods of recovering rare earth elements, vanadium, cobalt, or lithium from coal are described. The coal is dissolved in a first solvent to dissolve organic material in the coal and create a slurry containing coal ash enriched with rare earth elements, vanadium, cobalt, or lithium. The enriched coal ash is separated from the first solvent. Residual organic material is removed from the coal ash. The rare earth elements, vanadium, cobalt, or lithium can then be recovered from the coal ash. The coal ash is mixed with an acid stream that dissolves the rare earth elements, thereby creating (i) a leachate containing the rare earth elements and (ii) leached ash. The leachate is heated to obtain acid vapor and an acid-soluble rare earth concentrate. The acid-soluble rare earth concentrate can be fed to a hydrometallurgical process to separate and purify the rare earth elements.

Methods For Making Zeolites

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US Patent:
20190368004, Dec 5, 2019
Filed:
Aug 15, 2019
Appl. No.:
16/541523
Inventors:
- Columbus OH, US
Michael Heinrichs - Columbus OH, US
Vinay V. Gadkari - Columbus OH, US
Rachid Taha - Dublin OH, US
Slawomir Winecki - Dublin OH, US
Darwin Argumedo - Columbus OH, US
International Classification:
C22B 59/00
C22B 3/06
C22B 7/00
C01B 39/02
Abstract:
A method of making a zeolite comprises: adding a zeolite seed to a leach solution containing silicon and aluminum; and heating the leach solution to obtain the zeolite. The leach solution can be made by mixing coal ash with a basic stream, thereby creating (i) a leach solution containing silicon and aluminum, and (ii) leached ash; and separating the leach solution from the leached ash.

Acid Digestion Processes For Recovery Of Rare Earth Elements From Coal And Coal Byproducts

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US Patent:
20170356067, Dec 14, 2017
Filed:
Jun 8, 2017
Appl. No.:
15/617589
Inventors:
- Columbus OH, US
Michael Heinrichs - Columbus OH, US
Vinay V. Gadkari - Columbus OH, US
Rachid Taha - Dublin OH, US
Slawomir Winecki - Dublin OH, US
Darwin Argumedo - Columbus OH, US
International Classification:
C22B 59/00
C01B 39/02
C22B 3/06
C22B 7/00
Abstract:
A system for recovering rare earth elements from coal ash includes a leaching reactor, an ash dryer downstream of the leaching reactor, and a roaster downstream of the ash dryer that is cooperatively connected to both the leaching reactor and the ash dryer. Coal ash is mixed with an acid stream such that rare earth elements present in the coal ash are dissolved in the acid stream, thereby creating (i) a leachate containing the rare earth elements and (ii) leached ash. The leachate is heated to obtain acid vapor and an acid-soluble rare earth concentrate. Mixing of the coal ash with the acid stream can occur in a leaching reactor and heating of the leachate can occur in a roaster. The acid-soluble rare earth concentrate can be fed to a hydrometallurgical process to separate and purify the rare earth elements.
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Vinay V Gadkari from Powell, OH, age ~58 Get Report