BackgroundCheck.run
Search For

Mark S Sulek, 7036528 Haverhill St, Sterling Heights, MI 48312

Mark Sulek Phones & Addresses

Sterling Heights, MI   

4766 Tuxedo Ct, Warren, MI 48092    586-2641911   

Saint Clair Shores, MI   

Columbus, OH   

Port Orange, FL   

Detroit, MI   

Macomb, MI   

36528 Haverhill St, Sterling Heights, MI 48312    810-6252187   

Work

Position: Homemaker

Education

Degree: High school graduate or higher

Mentions for Mark S Sulek

Career records & work history

Medicine Doctors

Mark J. Sulek

Specialties:
Diagnostic Radiology
Work:
Kettering Network Radiologists
1997 Miamisburg Centerville Rd, Dayton, OH 45459
937-7233200 (phone) 937-2996300 (fax)
Education:
Medical School
Ohio University College of Osteopathic Medicine
Graduated: 1990
Languages:
English
Description:
Dr. Sulek graduated from the Ohio University College of Osteopathic Medicine in 1990. He works in Dayton, OH and specializes in Diagnostic Radiology. Dr. Sulek is affiliated with Greene Memorial Hospital, Kettering Medical Center and Southview Hospital.

Publications & IP owners

Us Patents

Oxygen Removal Systems During Fuel Cell Shutdown

US Patent:
2009002, Jan 22, 2009
Filed:
Jul 19, 2007
Appl. No.:
11/780101
Inventors:
Chi Paik - Brownstown Twp. MI, US
James A. Adams - Ann Arbor MI, US
George S. Saloka - Dearborn MI, US
Mark S. Sulek - Sterling Heights MI, US
Assignee:
FORD MOTOR COMPANY - Dearborn MI
International Classification:
H01M 2/12
US Classification:
429 34
Abstract:
A purging system for removing oxygen from a fuel cell system during a shutdown period for the fuel cell system. The purging system includes a separator having an inlet and an outlet; a first exhaust line for communicating a first exhaust gas stream from an outlet of the fuel cell system to the separator inlet during the shutdown period of the fuel cell system; and a second exhaust line for communicating a second exhaust gas stream to an inlet of the fuel cell system for delivering the second exhaust gas stream to the fuel cell system during the shutdown period. The separator removes oxygen from the first exhaust gas stream such that the first stream nitrogen molar volume is lower than the second steam nitrogen molar volume and the first stream oxygen molar volume is higher than the second stream oxygen molar volume.

Layered Electrodes And Membrane Electrode Assemblies Employing The Same

US Patent:
2010033, Dec 30, 2010
Filed:
Jun 24, 2009
Appl. No.:
12/490766
Inventors:
Chi Paik - Brownstown Twp. MI, US
Robert F. Novak - Farmington Hills MI, US
Richard E. Soltis - Saline MI, US
Mark S. Sulek - Sterling Heights MI, US
Assignee:
FORD GLOBAL TECHNOLOGIES, LLC - Dearborn MI
International Classification:
H01M 4/00
H01M 4/02
US Classification:
429483, 429487
Abstract:
According to at least one aspect of the present invention, a layered catalyst having an active area is provided. In at least one embodiment, the layered electrode includes a first catalyst layer having a first noble metal concentration and a first ionomer concentration, and a second catalyst layer disposed next to the first catalyst layer, the second catalyst layer having a second noble metal concentration different from the first noble metal concentration and a second ionomer concentration different from the first ionomer concentration. In at least another embodiment, the metallic alloy includes a metallic alloy of platinum, nickel, and cobalt.

Fuel Cell Catalysts With Enhanced Catalytic Surface Area And Method Of Making The Same

US Patent:
2011002, Jan 27, 2011
Filed:
Jul 23, 2009
Appl. No.:
12/507922
Inventors:
Chi Paik - Brownstown Twsp. MI, US
Lifeng Xu - Farmington Hills MI, US
Hungwen Jen - Troy MI, US
Karen Marie Adams - Ann Arbor MI, US
Mark S. Sulek - Sterling Heights MI, US
Sherry A. Mueller - Canton MI, US
Assignee:
FORD GLOBAL TECHNOLOGIES, LLC - Dearborn MI
International Classification:
H01M 4/00
H01M 4/88
US Classification:
429524, 502101, 429525, 429526, 429535
Abstract:
According to at least one aspect of the present invention, there is provided a fuel cell catalyst formed from a metallic alloy of one or more catalyst metals and one or more leachable metals through potential cycling to remove at least a portion of the leachable metals such that an effective catalytic surface area of the fuel cell catalyst per a given amount of the catalyst metals is enhanced after removal of the at least a portion of the one or more leachable metals.

Fuel Cell System With Wetness Sensor

US Patent:
2011003, Feb 10, 2011
Filed:
Aug 7, 2009
Appl. No.:
12/537483
Inventors:
Tie Wang - Rochester Hills MI, US
Chendong Huang - Ann Arbor MI, US
James A. Adams - Ann Arbor MI, US
Shinichi Hirano - West Bloomfield MI, US
George S. Saloka - Dearborn MI, US
Mark S. Sulek - Sterling Heights MI, US
James Waldecker - Farmington Hills MI, US
Alireza Pezhman Shirvanian - Ann Arbor MI, US
Assignee:
Ford Global Technologies, LLC - Dearborn MI
International Classification:
H01M 2/02
H01M 10/48
H01M 8/00
H01M 4/00
US Classification:
429430, 429413, 429452, 429522
Abstract:
A fuel cell system may have at least one sensor including a pair of electrodes disposed on a substrate. The sensor may be configured to produce an output signal having a magnitude that is proportional to a relative humidity in a vicinity of the sensor and, if liquid water is on the sensor, proportional to an amount of the liquid water on the sensor.

Oxygen Removal Systems During Fuel Cell Shutdown

US Patent:
2012031, Dec 13, 2012
Filed:
Jul 23, 2012
Appl. No.:
13/556098
Inventors:
Chi Paik - Brownstown Twp. MI, US
James A. Adams - Ann Arbor MI, US
George S. Saloka - Dearborn MI, US
Mark S. Sulek - Sterling Heights MI, US
Assignee:
FORD MOTOR COMPANY - Dearborn MI
International Classification:
H01M 8/06
US Classification:
429415, 429408, 429427
Abstract:
A purging system for removing oxygen from a fuel cell system during a shutdown period for the fuel cell system. The purging system includes a separator having an inlet and an outlet; a first exhaust line for communicating a first exhaust gas stream from an outlet of the fuel cell system to the separator inlet during the shutdown period of the fuel cell system; and a second exhaust line for communicating a second exhaust gas stream to an inlet of the fuel cell system for delivering the second exhaust gas stream to the fuel cell system during the shutdown period. The separator removes oxygen from the first exhaust gas stream such that the first stream nitrogen molar volume is lower than the second steam nitrogen molar volume and the first stream oxygen molar volume is higher than the second stream oxygen molar volume.

Method For Initiating A Fuel Cell

US Patent:
6007930, Dec 28, 1999
Filed:
May 6, 1998
Appl. No.:
9/073309
Inventors:
James A Adams - Ann Arbor MI
Mark S. Sulek - Warren MI
George Steve Saloka - Dearborn MI
Assignee:
Ford Global Technologies, Inc. - Dearborn MI
International Classification:
H01M 800
US Classification:
429 13
Abstract:
The present invention provides a method for initiating a fuel cell power system by directly introducing a gas containing oxygen into the fuel cell stack 10. A gas storage source 28 provides oxidizer to the fuel cell 10 such that there is enough initial power to generate a load. The air compressor 24 is started electrically by a portion of the load, and begins to supply compressed air to the cathode 14. The fuel cell stack 10 thereby obtains a further quantity of oxidizer from the compressed air. The air system valve 32 then operates to transfer the fuel cell stack 10 from the gas storage source 28 to the air compressor 24.

Current Bypass Device For Proton Exchange Membrane Fuel Cell System

US Patent:
2019016, May 30, 2019
Filed:
Nov 27, 2017
Appl. No.:
15/822827
Inventors:
- Dearborn MI, US
Jun YANG - Bloomfield Hills MI, US
James WALDECKER - Plymouth MI, US
Feng LI - Troy MI, US
George SALOKA - Dearborn MI, US
Mark SULEK - Sterling Heights MI, US
International Classification:
H01M 10/42
H02H 9/04
H01M 8/04537
B60K 1/04
Abstract:
A fuel cell system includes a plurality of fuel cells. Each of the fuel cells may include a current bypass device that is configured to flow a current responsive to an anode potential exceeding a cathode potential to prevent carbon corrosion within the fuel cell.

Nanostructured Pemfc Electrode

US Patent:
2018010, Apr 19, 2018
Filed:
Oct 17, 2016
Appl. No.:
15/294851
Inventors:
- Dearborn MI, US
Jun Yang - Bloomfield Hills MI, US
Mark S. Sulek - Sterling Heights MI, US
Chunchuan Xu - Troy MI, US
Kerrie K. Gath - Pittsfield MI, US
International Classification:
H01M 4/92
H01M 8/1004
H01M 4/86
Abstract:
An electrode for a fuel cell includes a catalyst layer adjacent to a gas diffusion layer and a proton exchange membrane, and ionomer-free active metal-loaded carbon nanostructures and active metal-free ionomer-coated carbon nanostructures arranged to define pores therebetween to facilitate transport of reactant gases and product water in the fuel cell.

NOTICE: You may not use BackgroundCheck or the information it provides to make decisions about employment, credit, housing or any other purpose that would require Fair Credit Reporting Act (FCRA) compliance. BackgroundCheck is not a Consumer Reporting Agency (CRA) as defined by the FCRA and does not provide consumer reports.