Arthur H Reining Deceased95 Phillip Dr, Colerain, PA 17536
Arthur Reining Phones & Addresses
95 Phillip Dr, Kirkwood, PA 17536 717-5292170
33 Phillip Dr, Kirkwood, PA 17536
Chester, PA
Oxford, PA
Quarryville, PA
95 Phillip Dr, Kirkwood, PA 17536 717-8180182
Work
Position:
Service Occupations
Education
Degree:
High school graduate or higher
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Publications & IP owners
Us Patents
Base Metal Catalysts For The Oxidation Of Carbon Monoxide And Volatile Organic Compounds
US Patent:
2010026, Oct 21, 2010
Filed:
Apr 21, 2009
Appl. No.:
12/427375
Inventors:
Hai-Ying Chen - Conshohocken PA, US
Arthur J. Reining - Christiana PA, US
Paul J. Andersen - Plymouth Meeting PA, US
Rita Aiello - King of Prussia PA, US
Arthur J. Reining - Christiana PA, US
Paul J. Andersen - Plymouth Meeting PA, US
Rita Aiello - King of Prussia PA, US
Assignee:
Johnson Matthey Public Limited Company - London
International Classification:
B01D 53/44
B01D 53/62
B01J 21/08
B01J 23/10
B01D 53/62
B01J 21/08
B01J 23/10
US Classification:
4232451, 423247, 502241, 502261, 502304
Abstract:
A method for oxidizing carbon monoxide (CO) and volatile organic compounds (VOCS) comprises contacting a gas containing water vapor and said CO and VOCs with a catalyst composition comprising at least one base metal promoter and at least one base metal catalyst supported on an oxide support material comprising one or more of alumina, silica, zirconia, ceria, and titania, wherein the VOCs comprise one or more of methyl acetate, methane, methyl bromide, benzene, methanol, methyl ethyl ketone, butane, and butene.
Catalysts For The Reduction Of Ammonia Emission From Rich-Burn Exhaust
US Patent:
2011018, Jul 28, 2011
Filed:
Apr 8, 2011
Appl. No.:
13/083154
Inventors:
Joseph M. Fedeyko - Glen Mills PA, US
Hai-Ying Chen - Conshohocken PA, US
Arthur J. Reining - Christiana PA, US
Hai-Ying Chen - Conshohocken PA, US
Arthur J. Reining - Christiana PA, US
Assignee:
JOHNSON MATTHEY PUBLIC LIMITED COMPANY - London
International Classification:
B01D 53/58
B01D 53/56
B01D 53/72
B01D 53/62
B01J 29/04
B01D 50/00
B01D 53/56
B01D 53/72
B01D 53/62
B01J 29/04
B01D 50/00
US Classification:
423237, 502 60, 502 74, 422171
Abstract:
A system for reducing ammonia (NH3) emissions includes (a) a first component comprising a first substrate containing a three-way catalyst, wherein the first component is disposed upstream of a second component comprising a second substrate containing an ammonia oxidation catalyst, wherein said ammonia oxidation catalyst comprises a small pore molecular sieve supporting at least one transition metal; and (b) an oxygen-containing gas input disposed between the components. For example, a CHA Framework Type small pore molecular sieve may be used. A method for reducing NHemission includes introducing an oxygen-containing gas into a gas stream to produce an oxygenated gas stream; and exposing the oxygenated gas stream to an NHoxidation catalyst to selectively oxidize at least a portion of the NHto N. The method may further include the step of exposing a rich burn exhaust gas to a three-way catalyst to produce the gas stream comprising NH.
High-Temperature Scr Catalyst
US Patent:
2012013, May 31, 2012
Filed:
Feb 28, 2011
Appl. No.:
13/036823
Inventors:
Joseph M. Fedeyko - Glen Mills PA, US
Arthur J. Reining - Christiana PA, US
Hai-Ying Chen - Conshohocken PA, US
Paul J. Andersen - Plymouth Meeting PA, US
Arthur J. Reining - Christiana PA, US
Hai-Ying Chen - Conshohocken PA, US
Paul J. Andersen - Plymouth Meeting PA, US
International Classification:
B01J 29/85
B01D 53/56
C01B 39/54
B01D 53/56
C01B 39/54
US Classification:
423700, 502 74, 502 60, 4232392
Abstract:
A catalyst comprising: (a) a microporous crystalline molecular sieve comprising at least silicon, aluminium and phosphorous and having an 8-ring pore size; and (b) a transition metal loaded in the molecular sieve, the transition metal loading is less than about 1 wt %.
Catalysts For The Reduction Of Ammonia Emission From Rich-Burn Exhaust
US Patent:
2014007, Mar 20, 2014
Filed:
Jan 23, 2012
Appl. No.:
14/110565
Inventors:
Joseph M. Fedeyko - Glen Mills PA, US
Hai-Ying Chen - Conshohocken PA, US
Arthur J. Reining - Christiana PA, US
Hai-Ying Chen - Conshohocken PA, US
Arthur J. Reining - Christiana PA, US
International Classification:
B01J 29/85
F01N 3/10
B01D 53/58
F01N 3/10
B01D 53/58
US Classification:
423237, 502 60, 422170
Abstract:
A system for reducing ammonia (NH) emissions includes (a) a first component comprising a first substrate containing a three-way catalyst, wherein the first component is disposed upstream of a second component comprising a second substrate containing an ammonia oxidation catalyst, wherein said ammonia oxidation catalyst comprises a small pore molecular sieve supporting at least one transition metal; and (b) an oxygen-containing gas input disposed between the components. For example, a CHA Framework Type small pore molecular sieve may be used. A method for reducing NHemission includes introducing an oxygen-containing gas into a gas stream to produce an oxygenated gas stream; and exposing the oxygenated gas stream to an NHoxidation catalyst to selectively oxidize at least a portion of the NHto N. The method may further include the step of exposing a rich burn exhaust gas to a three-way catalyst to produce the gas stream comprising NH.
Oxidation Catalyst For A Stoichiometric Natural Gas Engine
US Patent:
2018001, Jan 18, 2018
Filed:
Jul 10, 2017
Appl. No.:
15/644864
Inventors:
- London, GB
Joseph FEDEYKO - Wayne PA, US
Jing LU - Wayne PA, US
Arthur REINING - Audubon PA, US
Joseph FEDEYKO - Wayne PA, US
Jing LU - Wayne PA, US
Arthur REINING - Audubon PA, US
International Classification:
B01J 29/74
B01J 35/00
B01D 53/94
B01J 37/02
B01J 37/08
F01N 3/10
F02B 43/10
B01J 35/04
B01J 35/00
B01D 53/94
B01J 37/02
B01J 37/08
F01N 3/10
F02B 43/10
B01J 35/04
Abstract:
An oxidation catalyst for treating an exhaust gas produced by a stoichiometric natural gas (NG) engine comprising a substrate and a catalytic material for oxidising hydrocarbon (HC), wherein the catalytic material for oxidising hydrocarbon (HC) comprises a molecular sieve and a platinum group metal (PGM) supported on the molecular sieve, wherein the molecular sieve has a framework comprising silicon, oxygen and optionally germanium.
Oxidation Catalyst For Treating A Natural Gas Emission
US Patent:
2016023, Aug 18, 2016
Filed:
Jan 15, 2016
Appl. No.:
14/996288
Inventors:
- London, GB
Joseph Michael FEDEYKO - Malvern PA, US
Jing LU - Glen Mills PA, US
Paul Joseph ANDERSEN - Plymouth Meeting PA, US
Arthur Joseph REINING - Christiana PA, US
Rita AIELLO - King of Prussia PA, US
Joseph Michael FEDEYKO - Malvern PA, US
Jing LU - Glen Mills PA, US
Paul Joseph ANDERSEN - Plymouth Meeting PA, US
Arthur Joseph REINING - Christiana PA, US
Rita AIELLO - King of Prussia PA, US
International Classification:
B01D 53/94
F01N 3/08
F01N 3/10
B01J 29/74
B01J 35/04
F01N 3/08
F01N 3/10
B01J 29/74
B01J 35/04
Abstract:
A catalytic material for treating an exhaust gas produced by a natural gas engine, which catalytic material comprises a molecular sieve and a platinum group metal (PGM) supported on the molecular sieve, wherein the molecular sieve has a framework comprising silicon, oxygen and optionally germanium, and has a content of heteroatom T-atoms is ≦about 0.20 mol %.
Catalysts For The Reduction Of Ammonia Emission From Rich-Burn Exhaust
US Patent:
2016010, Apr 14, 2016
Filed:
Dec 17, 2015
Appl. No.:
14/972907
Inventors:
- London, GB
Hai-Ying CHEN - Conshohocken PA, US
Arthur J. REINING - Christiana PA, US
Hai-Ying CHEN - Conshohocken PA, US
Arthur J. REINING - Christiana PA, US
International Classification:
B01J 29/85
B01J 23/42
B01J 35/00
B01D 53/94
B01J 23/42
B01J 35/00
B01D 53/94
Abstract:
A system for reducing ammonia (NH) emissions includes (a) a first component comprising a first substrate containing a three-way catalyst, wherein the first component is disposed upstream of a second component comprising a second substrate containing an ammonia oxidation catalyst, wherein said ammonia oxidation catalyst comprises a small pore molecular sieve supporting at least one transition metal; and (b) an oxygen-containing gas input disposed between the components. For example, a CHA Framework Type small pore molecular sieve may be used. A method for reducing NHemission includes introducing an oxygen-containing gas into a gas stream to produce an oxygenated gas stream; and exposing the oxygenated gas stream to an NHoxidation catalyst to selectively oxidize at least a portion of the NHto N. The method may further include the step of exposing a rich burn exhaust gas to a three-way catalyst to produce the gas stream comprising NH.
Supported Noble Metal Catalyst For Treating Exhaust Gas
US Patent:
2014032, Oct 30, 2014
Filed:
May 14, 2012
Appl. No.:
14/366047
Inventors:
Hai-Ying Chen - Conshohocken PA, US
Arthur J. Reining - Christiana PA, US
Hsiao-Lan Chang - Berwyn PA, US
Arthur J. Reining - Christiana PA, US
Hsiao-Lan Chang - Berwyn PA, US
International Classification:
B01D 53/86
US Classification:
4232453, 422168
Abstract:
Provided is a method for oxidizing short-chain saturated hydrocarbons in a lean burn exhaust gas, the method involving contacting the exhaust gas with a palladium or palladium/platinum catalyst disposed on a rare-earth stabilized zirconia support.
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