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Edward F Rakiewicz

from Gibsonia, PA
Age ~60
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Also known as:
Edward Francis Rakiewicz, Edward Z
Phone and address:
1193 Woodhill Dr, Gibsonia, PA 15044
(215) 534-6757
Related to:
Alina Rakiewicz, 32Joan Weaver, 93Elaine Rakiewicz, 64Patricia Rakiewicz, 85Homer Weaver
Connected to:
Seth Rakiey, 46Nicholas Rakigjija, 50Stevens Rakim, 35George R Rakin, 74Ronald B Rakip, 77Anthony Rakis, 56Natasha Rakish, 39Natacha M Rakisits, 59Alena Rakita, 39Michael Rakiter, 38

Edward Rakiewicz Phones & Addresses

  • 1193 Woodhill Dr, Gibsonia, PA 15044 (215) 534-6757
  • Denver, PA
  • Eldersburg, MD
  • Columbia, MD
  • 1193 Woodhill Dr, Gibsonia, PA 15044

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career opportunities, consulting offers,...

Industries

Chemicals

Resumes

Resumes

Edward Rakiewicz Photo 1

Associate Director, Funded Initiatives Team At Ppg Industries

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Location:
Greater Pittsburgh Area
Industry:
Chemicals
Experience:
PPG Industries (Public Company; PPG; Chemicals industry): Associate Director, Funded Initiatives Team,  (August 2010-Present) Manage a group of 45+ scientists and technicians working on externally funded R&D projects.PPG Industries (Public Company; PPG; Chemicals i...

Publications

Us Patents

Reduced Nox Combustion Promoter For Use In Fcc Processes

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US Patent:
6358881, Mar 19, 2002
Filed:
Sep 14, 2000
Appl. No.:
09/662598
Inventors:
Alan W. Peters - Highland MD
Edward F. Rakiewicz - Sykesville MD
Gordon Dean Weatherbee - Columbia MD
Xinjin Zhao - Columbia MD
Assignee:
W. R. Grace Co.-Conn. - Columbia MD
International Classification:
B01J 2358
US Classification:
502304, 502327, 502333, 502341, 502344, 502 42
Abstract:
Compositions comprising a component containing (i) an acidic oxide support, (ii) an alkali metal and/or alkaline earth metal or mixtures thereof, (iii) a transition metal oxide having oxygen storage capability, and (iv) palladium promote CO combustion in FCC processes while minimizing the formation of NO. The acidic oxide support preferably contains silica alumina. Ceria is the preferred oxygen storage oxide.

Nox Reduction Compositions For Use In Fcc Processes

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US Patent:
6379536, Apr 30, 2002
Filed:
Aug 17, 2000
Appl. No.:
09/641024
Inventors:
Alan W. Peters - Highland MD
John A. Rudesill - Columbia MD
Gordon Dean Weatherbee - Columbia MD
Edward F. Rakiewicz - Sykesville MD
Mary Jane A. Barbato-Grauso - Dayton MD
Assignee:
W. R. Grace Co.-Conn. - Columbia MD
International Classification:
C10G 1102
US Classification:
20812001, 20812015, 208113, 502304, 502341, 502344, 502345, 502346, 502347, 502348, 4232391, 423247
Abstract:
Compositions comprising a component containing (i) an acidic oxide support, (ii) an alkali metal and/or alkaline earth metal or mixtures thereof, (iii) a transition metal oxide having oxygen storage capability, and (iv) a transition metal selected from Groups Ib and/or IIb of the Periodic Table provide NO control performance in FCC processes. The acidic oxide support preferably contains silica alumina. Ceria is the preferred oxygen storage oxide. Cu and Ag are preferred Group I/IIb transition metals. The compositions are especially useful in the cracking of hydrocarbon feedstocks having above average nitrogen content.

Reduced Nox Combustion Promoter For Use In Fcc Processes

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US Patent:
6902665, Jun 7, 2005
Filed:
Dec 18, 2001
Appl. No.:
10/022102
Inventors:
Alan W. Peters - Highland MD, US
Edward F. Rakiewicz - Sykesville MD, US
Gordon Dean Weatherbee - Columbia MD, US
Xinjin Zhao - Columbia MD, US
Assignee:
W. R. Grace & Co.-Conn. - Columbia MD
International Classification:
C10G011/02
B01J021/00
B01J023/44
B01J023/63
US Classification:
20812035, 20812001, 20812025, 502333, 502304, 502327, 502344, 502 42
Abstract:
Compositions comprising a component containing (i) an acidic oxide support, (ii) an alkali metal and/or alkaline earth metal or mixtures thereof, (iii) a transition metal oxide having oxygen storage capability, and (iv) palladium promote CO combustion in FCC processes while minimizing the formation of NO. The acidic oxide support preferably contains silica alumina. Ceria is the preferred oxygen storage oxide.

Methods For Coating A Metal Substrate And Related Coated Substrates

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US Patent:
7749368, Jul 6, 2010
Filed:
Dec 13, 2006
Appl. No.:
11/610073
Inventors:
Neil D. McMurdie - Butler PA, US
Mark W. McMillen - Cabot PA, US
Edward F. Rakiewicz - Gibsonia PA, US
Michelle S. Miles - Mercer PA, US
Richard F. Karabin - Ruffs Dale PA, US
Assignee:
PPG Industries Ohio, Inc. - Cleveland OH
International Classification:
C25D 13/10
US Classification:
204486, 204506, 148247
Abstract:
Disclosed are methods for coating a metal substrate with a yttrium-containing coating, including ferrous substrates, such as cold rolled steel and electrogalvanized steel. Also disclosed are coated substrates produced thereby.

Methods For Passivating A Metal Substrate And Related Coated Metal Substrates

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US Patent:
8262882, Sep 11, 2012
Filed:
May 11, 2009
Appl. No.:
12/463856
Inventors:
Thor Lingenfelter - Evans City PA, US
Richard F Karabin - Ruffs Dale PA, US
Edward F Rakiewicz - Gibsonia PA, US
Assignee:
PPG Industries Ohio, Inc. - Cleveland OH
International Classification:
C25D 13/12
US Classification:
204486, 204488
Abstract:
Disclosed are methods for passivating metal substrates, including ferrous substrates, such as cold rolled steel and electrogalvanized steel. The methods comprise the steps of autodepositing copper, silver, a IIIB metal and/or IVB metal onto at least a portion of the substrate, and simultaneously and/or immediately subsequently electrophoretically depositing on the substrate a curable, electrodepositable coating composition; wherein the copper, silver, IIB metal and/or IVB metal and the curable, electrodepositable coating composition are both contained within a single bath composition. The present invention also relates to coated substrates produced by the above methods.

Methods For Passivating A Metal Substrate And Related Coated Metal Substrates

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US Patent:
8282801, Oct 9, 2012
Filed:
Mar 2, 2009
Appl. No.:
12/396051
Inventors:
Edward F. Rakiewicz - Gibsonia PA, US
Mark W. McMillen - Cabot PA, US
Richard F. Karabin - Ruffs Dale PA, US
Michelle Miles - Mercer PA, US
Assignee:
PPG Industries Ohio, Inc. - Cleveland OH
International Classification:
C25D 13/00
US Classification:
204471, 204485, 204486
Abstract:
Disclosed are methods for passivating metal substrates, including ferrous substrates, such as cold rolled steel and electrogalvanized steel. The methods comprise the steps of depositing an electropositive metal onto at least a portion of the substrate, followed immediately by electrophoretically depositing on the substrate a curable, electrodepositable coating composition. The present invention also relates to coated substrates produced by the above methods.

Electrodepositable Coating Composition Comprising Silane And Yttrium

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US Patent:
8486538, Jul 16, 2013
Filed:
Jan 26, 2010
Appl. No.:
12/693626
Inventors:
Thor G. Lingenfelter - Evans City PA, US
Amanda Foley - McKees Rocks PA, US
Edward G. Rakiewicz - Gibsonia PA, US
Richard F. Karabin - Ruffs Dale PA, US
William J. Vanooij - Fairfield OH, US
Assignee:
PPG Industries Ohio, Inc - Cleveland OH
International Classification:
B32B 15/08
B32B 27/18
B32B 33/00
C09D 5/08
B32B 15/092
C25D 9/02
C25D 9/04
US Classification:
428450, 205316, 205317, 205320, 252387, 252388, 25238931, 25238932, 523457, 523458, 524413, 524439, 524440
Abstract:
An electrodepositable coating composition comprising (i) a film-forming polymer, (ii) a corrosion inhibitor, and (iii) a silane that does not contain an ethylenically unsaturated double bond.

Nox Reduction Compositions For Use In Fcc Processes

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US Patent:
20020092795, Jul 18, 2002
Filed:
Feb 22, 2002
Appl. No.:
10/084141
Inventors:
Alan Peters - Highland MD, US
John Rudesill - Columbia MD, US
Gordon Weatherbee - Columbia MD, US
Edward Rakiewicz - Sykesville MD, US
Mary Jane Barbato-Grauso - Dayton MD, US
International Classification:
C10G011/02
US Classification:
208/120150, 208/113000, 208/120250
Abstract:
Compositions comprising a component containing (i) an acidic oxide support, (ii) an alkali metal and/or alkaline earth metal or mixtures thereof, (iii) a transition metal oxide having oxygen storage capability, and (iv) a transition metal selected from Groups Ib and/or IIb of the Periodic Table provide NOcontrol performance in FCC processes. The acidic oxide support preferably contains silica alumina. Ceria is the preferred oxygen storage oxide. Cu and Ag are preferred Group I/IIb transition metals. The compositions are especially useful in the cracking of hydrocarbon feedstocks having above average nitrogen content.
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Edward F Rakiewicz from Gibsonia, PA, age ~60 Get Report