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Jeries I Bishara

from Mentor, OH
Age ~85
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Also known as:
Jeries J Bishara, Jeries L Bishara, Jeries T Bishara
Phone and address:
8199 Bellflower Rd, Concord Township, OH 44060
(440) 255-8206
Related to:
Nadia DorenkottT HandysideKathleen C Kneiding, 75Nicholas R Ziobron, 42Lawrence EatonAmanda Ziobron, 37
Connected to:
Christine Bishara, 48George E Bisharat, 70Macari M Bishara, 78Maher Bishara, 64Nashaat Bishara, 69Rafik H Bishara, 83Samer F Bisharat, 58Clint J Bishard, 53Brenda Bishaw, 57Kristin R Bishay, 65

Jeries Bishara Phones & Addresses

  • 8199 Bellflower Rd, Mentor, OH 44060 (440) 255-8206

Work

Company: Diamond shamrock eltech and plastic platers 1973 to Mar 2015 Position: Research electrochemist, process and environmental manager and technical consultant

Education

Degree: High school graduate or higher

Emails

n***[email protected]

Industries

Chemicals

Resumes

Resumes

Jeries Bishara Photo 1

Technology Director

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Location:
Mentor, OH
Industry:
Chemicals
Work:
Diamond Shamrock Eltech and Plastic Platers 1973 - Mar 2015
Research Electrochemist, Process and Environmental Manager and Technical Consultant
Ew Metals 1973 - Mar 2015
Technology Director

Publications

Us Patents

Lead Electrode

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US Patent:
6352622, Mar 5, 2002
Filed:
Sep 13, 2000
Appl. No.:
09/660873
Inventors:
Carl W. Brown - Leroy Township OH
Jeries I. Bishara - Mentor OH
Lynne M. Ernes - Willoughby OH
Andy W. Getsy - Eastlake OH
Kenneth L. Hardee - Middlefield OH
Barry L. Martin - Concord OH
Gerald R. Pohto - Mentor OH
Thomas J. Schue - Huntsburg OH
Thomas R. Turk - Mentor OH
Assignee:
Eltech Systems Corporation - Chardon OH
International Classification:
C25B 900
US Classification:
204242, 204284, 2042785, 204286, 204288, 20429001, 20429012, 20429013
Abstract:
A compound electrode incorporating a lead substrate utilizes the lead as a support structure. This support structure provides a surface that engages a valve metal expanded metal mesh. The mesh member has a front and back surface with the back surface facing the lead support structure. At least the front surface of the mesh member is an active surface. Securing of the mesh member to the lead support structure in electrical connection permits the lead support structure to serve as a current distributor for the mesh member. The mesh member may engage the surface of the lead support structure by pressing or rolling the mesh onto the lead. Other engagement means can include the use of fasteners, or welding and the like. The resulting structure can be particularly useful as an electrode assembly for use in an electrolytic cell that serves for the electrowinning of a metal.

Method Of Recovering Metal Ions Recyclable As Soluble Anode From Waste Plating Solutions

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US Patent:
7794582, Sep 14, 2010
Filed:
Apr 2, 2004
Appl. No.:
10/817655
Inventors:
Paul E Cook - Grosse Pointe MI, US
Jeries I Bishara - Mentor OH, US
Assignee:
EW Metals LLC - Grosse Pointe MI
International Classification:
C02F 1/46
US Classification:
205702, 205742, 205758, 205771, 205772, 205100
Abstract:
Disclosed is a method of recovering metal from waste plating stream and using the recovered metal comprising: providing a waste metal plating stream containing metal ions in an aqueous solution; passing the waste metal plating stream containing the metal ions into an electrochemical cell assembly having an inlet for the waste metal plating stream, a plurality of alternating anodes and cathodes porous to the waste metal solution and an exit from the cell; passing the waste metal plating stream through pores of the cathode; passing an electrical current through the anodes and cathodes, thereby depositing a portion of the metal ions onto the cathodes and reducing the amount of the metal ion in the solution from that in the introduced waste metal plating stream; recovering the deposited metal from the cathode; and using the recovered deposited metal as a source of soluble metallic anode to be deposited on to a substrate in a subsequent metal plating process.

Apparatus For Electrolytic Treatment Of An Electrolytic Solution

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US Patent:
58274111, Oct 27, 1998
Filed:
Sep 10, 1996
Appl. No.:
8/716821
Inventors:
Jeries I. Bishara - Mentor OH
Roland J. Horvath - Lyndhurst OH
Anthony R. Sacco - Mentor OH
Jean M. Hinden - Chardon OH
Assignee:
Eltech Systems Corporation - Chardon OH
International Classification:
C25B 900
US Classification:
204237
Abstract:
Methods, and various apparatus therefor, are disclosed for the electrolytic treatment of an acidic solution. Generally the method comprises: (a) providing an electrolytic cell, the cell comprising: (i) an anode chamber and an anode therein; (ii) a cathode chamber and a cathode therein; and (iii) a diaphragm. Usually the diaphragm is of a non-isotropic fibrous mat comprising 5-70 weight percent organic halocarbon polymer fiber in adherent combination with about 30-95 weight percent of finely divided inorganic particulate impacted into said fiber during fiber formation, the diaphragm having a weight per unit of surface area of about 3-12 kilograms per square meter. The method can continue by (b) introducing the acidic solution into the cell; (c) impressing a current on the anode and the cathode causing the migration of ions through the diaphragm; and (d) recovering a product of the electrolytic treatment from the anode chamber, or the cathode chamber, or from both chambers. In one method, the acidic solution is a cell bath circulated to the anode chamber, while rinse solution downstream of the cell bath is circulated to the cathode chamber. The method, and apparatus therefor, are particularly applicable to the recovery of hexavalent chromium from a dilute chromium electroplating rinse solution.

Electrolytic Treatment Of An Electrolytic Solution

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US Patent:
54055075, Apr 11, 1995
Filed:
May 27, 1993
Appl. No.:
8/067918
Inventors:
Jeries I. Bishara - Mentor OH
James R. Brannan - Perry OH
Roland J. Horvath - Lyndhurst OH
Anthony R. Sacco - Mentor OH
Jean M. Hinden - Chardon OH
Assignee:
Eltech Systems Corporation - Chardon OH
International Classification:
C25D 2116
US Classification:
204 96
Abstract:
Methods, and various apparatus therefor, are disclosed for the electrolytic treatment of an acidic solution. Generally the method comprises: (a) providing an electrolytic cell, the cell comprising: (i) an anode chamber and an anode therein; (ii) a cathode chamber and a cathode therein; and (iii) a diaphragm. Usually the diaphragm is of a non-isotropic fibrous mat comprising 5-70 weight percent organic halocarbon polymer fiber in adherent combination with about 30-95 weight percent of finely divided inorganic particulate impacted into said fiber during fiber formation, the diaphragm having a weight per unit of surface area of about 3-12 kilograms per square meter. The method can continue by (b) introducing the acidic solution into the cell; (c) impressing a current on the anode and the cathode causing the migration of ions through the diaphragm; and (d) recovering a product of the electrolytic treatment from the anode chamber, or the cathode chamber, or from both chambers. In one method, the acidic solution is a cell bath circulated to the anode chamber, while rinse solution downstream of the cell bath is circulated to the cathode chamber. The method, and apparatus therefor, are particularly applicable to the recovery of hexavalent chromium from a dilute chromium electroplating rinse solution.

Electrolytic Cell Apparatus

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US Patent:
52465594, Sep 21, 1993
Filed:
Nov 29, 1991
Appl. No.:
7/799653
Inventors:
Jeries I. Bishara - Mentor OH
James R. Brannan - Perry OH
Assignee:
ELTECH Systems Corporation - Boca Raton FL
International Classification:
C25B 900
C25B 1308
C25C 700
US Classification:
204232
Abstract:
A method, and apparatus therefor, for the electrolytic treatment of an acidic solution which comprises: (a) providing an electrolytic cell, the cell comprising: (i) an anode chamber and an anode therein; (ii) a cathode chamber and a cathode therein; (iii) a diaphragm of a non-isotropic fibrous mat comprising 5-70 weight percent organic halocarbon polymer fiber in adherent combination with about 30-95 weight percent of finely divided inorganic particulate impacted into said fiber during fiber formation, the diaphragm having a weight per unit of surface area of about 3-12 kilograms per square meter; (b) introducing the acidic solution into the cell; (c) applying a DC voltage between the anode and the cathode causing the migration of ions through the diaphragm; and (d) recovering a product of the electrolytic treatment from the anode chamber, or the cathode chamber, or from both chambers. The method, and apparatus therefor, are particularly applicable to the recovery of hexavalent chromium from a dilute chromium electroplating rinse solution.

Highly Magnetic Iron Oxide Powder

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US Patent:
48225096, Apr 18, 1989
Filed:
Nov 6, 1986
Appl. No.:
6/928230
Inventors:
Jeries I. Bishara - Mentor OH
Anthony J. Vaccaro - Madison OH
Eric J. Rudd - Painesville OH
Assignee:
ELTECH Systems Corporation - Boca Raton FL
International Classification:
C01G 4906
US Classification:
252 6256
Abstract:
A highly magnetic isotropic iron oxide powder with a uniform particle size distribution and particle size in the range from 0. 005 to 0. 2 micrometer consists of a mixed iron oxide exhibiting gamma (Fe. sub. 2 O. sub. 3) and ferrite (Fe. sub. 3 O. sub. 4) structure, having the empirical formula Fe. sub. 72-x O. sub. 96, where x has a value between 2 to 7, an aspect ratio of at most 2:1 and a temperature coefficient of coercivity of less than -0. 7% per degree Celcius. The mixed oxide is optionally a cobalt-modified mixed iron oxide containing 2-6% by weight of cobalt and is obtained by heating ultrafine, ferrite particles in a controlled, oxidizing atmosphere at a temperature of 240. degree. C. to 320. degree. C. for a period of one to three hours.

Method And Electrode With Manganese Dioxide Coating

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US Patent:
42657288, May 5, 1981
Filed:
Nov 3, 1978
Appl. No.:
5/957474
Inventors:
Mary R. Suchanski - Mentor OH
Jeries I. Bishara - Mentor OH
Assignee:
Diamond Shamrock Corporation - Dallas TX
International Classification:
C25B 1116
B05D 512
US Classification:
204290F
Abstract:
Disclosed is an electrode for use in electrochemical processes wherein a metal substrate made of a valve metal mesh such as titanium carries a semiconductive intermediate coating consisting of tin and antimony oxides laid down upon the valve metal mesh in a series of layers and an electrocatalytically active top coating of an oxide of manganese, applied in a series of layers or by electroplating and subsequently baked in an oxidizing atmosphere at a temperature in the range of 380. degree. to 420. degree. C.

Lead Electrode

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US Patent:
61397059, Oct 31, 2000
Filed:
Mar 22, 1999
Appl. No.:
9/273981
Inventors:
Carl W. Brown - Leroy Township OH
Jeries I. Bishara - Mentor OH
Lynne M. Ernes - Willoughby OH
Andy W. Getsy - Eastlake OH
Kenneth L. Hardee - Middlefield OH
Barry L. Martin - Concord OH
Gerald R. Pohto - Mentor OH
Thomas J. Schue - Huntsburg OH
Thomas R. Turk - Mentor OH
Assignee:
Eltech Systems Corporation - Chardon OH
International Classification:
C25B 1100
US Classification:
204284
Abstract:
A compound electrode incorporating a lead substrate utilizes the lead as a support structure. This support structure provides a surface that engages a mesh member, e. g. , a valve metal expanded metal mesh. The mesh member has a front and back surface with the back surface facing the lead support structure. At least the front surface of the mesh member is an active surface. Securing of the mesh member to the lead support structure in electrical connection permits the lead support structure to serve as a current distributor for the mesh member. The mesh member may engage the surface of the lead support structure as by pressing or rolling the mesh onto the lead. Other engagement means can include the use of fasteners, or welding and the like. The resulting structure can be particularly useful as an electrode assembly for use in an electrolytic cell that serves for the electrowinning of a metal.
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Jeries I Bishara from Mentor, OH, age ~85 Get Report