Tadeusz W Langner from Ocean, NJ, age 66

Resumes

Development Chemist

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Location:

468 Baldwin Rd, Maplewood, NJ 07040

Industry:

Oil & Energy

Work:

Cb&I May 2006 - Feb 2012
Chemist
Eos Energy Storage May 2006 - Feb 2012
Development Chemist
Engelhard Corporation Feb 1982 - Jan 2003
Chemist

Education:

Kean University 1979 - 1981
Bachelors, Bachelor of Arts, Marine Biology, Biology, Ceramics, Sculpture Union County College 1977 - 1979
Associates, Biology, Chemistry Roselle Catholic High School

Skills:

X Ray Diffractometry
Powder X Ray Diffraction
Inorganic Synthesis
Kinetics
Patents
Process Safety
Gas Chromatography
Inorganic Chemistry
Analytical Chemistry
Laboratory
R&D
Organic Chemistry
Polymers
Chemistry
Intellectual Property
Chemical Engineering
Process Simulation
Characterization
Catalysis
Nanotechnology
Mass Spectrometry
Heterogeneous Catalysis
Tem
Technology Transfer
Nmr Spectroscopy
Ftir
Ir Spectroscopy
Pilot Plant
Biofuels
Xrf
Polymer Characterization
Polymer Chemistry
Optical Microscopy
Rheology
Uv/Vis
Process Design
Physical Chemistry
Spectroscopy
Materials
Petrochemical
Renewable Energy
Icp Oes
Differential Scanning Calorimetry
Atomic Absorption
Tga
Electrochemistry
Scanning Electron Microscopy
Energy
Gc Ms
Nmr
Materials Science
Raw Materials
Process Optimization
Refining
Surface Chemistry
Research
Astm
Petroleum
Instrumentation
Xrd
Surface
Technical Service

Interests:

Hiking
Golf
Fossil Hunting
Fishing

Languages:

English
Polish

Publications

Us Patents

Macroporaus Aluminosilicate Desiccant, Preparation From Sodalite And Use In Enthalpy Energy Wheels

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US Patent:

6379436, Apr 30, 2002

Filed:

Apr 12, 2000

Appl. No.:

09/548045

Inventors:

Steven M. Kuznicki - Whitehouse Station NJ
Tadeusz W. Langner - Linden NJ
Jacqueline S. Curran - Cranford NJ
Valerie A. Bell - Edison NJ

Assignee:

Engelhard Corporation - Iselin NJ

International Classification:

B01D 5304

US Classification:

96125, 96130, 502 81, 502 83

Abstract:

Sodalite is treated with acid to transform the surface to provide a highly macroporous material that demonstrates water swing capacities exceeding those of high performance, low temperature desiccants under high latent load at relatively high ambient temperature and humidities.

Method Of Forming High Aluminum Aluminosilicate Zeolites

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US Patent:

6413492, Jul 2, 2002

Filed:

Mar 23, 2000

Appl. No.:

09/533606

Inventors:

Steven M. Kuznicki - Whitehouse Station NJ
Tadeusz W. Langner - Linden NJ
Jacqueline S. Curran - Cranford NJ
Valerie A. Bell - Edison NJ

Assignee:

Engelhard Corporation - Iselin NJ

International Classification:

C01B 3902

US Classification:

423700, 423712, 423716, 423DIG 21, 423DIG 24

Abstract:

The present invention relates to a method of forming an aluminosilicate zeolite having a Si/Al1. 1. The method comprises forming a reaction mixture by mixing a source of silica, and a source of aluminum in an aqueous alkaline solution having a pH of at least 12. 0, wherein the Si/Al of said mixture is greater than 1.

Method Of Forming Aluminosilicate Zeolites

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US Patent:

6416732, Jul 9, 2002

Filed:

Mar 23, 2000

Appl. No.:

09/533707

Inventors:

Jacqueline S. Curran - Cranford NJ
Valerie A. Bell - Edison NJ
Steven M. Kuznicki - Whitehouse Station NJ
Tadeusz W. Langner - Linden NJ

Assignee:

Engelhard Corporation - Iselin NJ

International Classification:

C01B 3902

US Classification:

423700, 423712, 423DIG 21, 423DIG 24

Abstract:

Aluminosilicate zeolites are formed in a novel reaction medium which contains a silicate source and an aluminum source in an aqueous alkaline solution and which reaction medium further includes an additional electrolyte salt. The addition of the electrolyte salt provides nucleation sites for the zeolite so as to form very small crystals. In high silica reaction environments, it is possible to form high aluminum zeolites which contain occluded silicate and wherein the morphology of the zeolites comprise macroscopic aggregates of microcrystalline zeolites. The addition of the electrolyte salt can also decrease the reaction time or temperature needed for crystallization.

Macroscopic Aggregates Of Microcrystalline Zeolites

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US Patent:

6451283, Sep 17, 2002

Filed:

Mar 23, 2000

Appl. No.:

09/533771

Inventors:

Steven M. Kuznicki - Whitehouse Station NJ
Tadeusz W. Langner - Linden NJ
Jacqueline S. Curran - Cranford NJ
Valerie A. Bell - Edison NJ

Assignee:

Engelhard Corporation - Iselin NJ

International Classification:

C01B 3902

US Classification:

423716, 423712, 423DIG 21, 423DIG 24

Abstract:

This invention relates to zeolitic molecular sieve compositions and hybrid zeolite-silica compositions characterized by novel morphology in which the zeolite is present as macroscopic aggregates of microcrystalline zeolite. The zeolitic compositions of this invention have outstanding capability to complex multivalent cations, especially calcium due to the high exchange kinetics of the microcrystalline zeolite component and yet have the ease of handling due to the macroscopic aggregate assemblage.

Simplified Methods Of Manufacturing Titanium Silicate Membranes

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US Patent:

6486086, Nov 26, 2002

Filed:

Sep 15, 2000

Appl. No.:

09/663829

Inventors:

Steven M. Kuznicki - Whitehouse Station NJ
Richard M. Jacubinas - Somerville NJ
Tadeusz W. Langner - Maplewood NJ

Assignee:

Engelhard Corporation - Iselin NJ

International Classification:

B01J 2028

US Classification:

502 4, 502 64, 502242, 502241, 502263, 502208, 502214

Abstract:

A simplified method of forming a porous crystalline titanium silicate membrane comprises preforming a mass of titanium dioxide particles into a consolidated preform such as by pressing into a thin film, and contacting the thin film of titanium dioxide with an aqueous alkaline silicate synthesis solution at a temperature and for a period of time sufficient to form the titanium silicate in-situ.

Method Of Static Water Softening Using Zeolites Of Novel Morphology

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US Patent:

6572776, Jun 3, 2003

Filed:

Dec 14, 2000

Appl. No.:

09/737063

Inventors:

Steven M. Kuznicki - Whitehouse Station NJ
Valerie A. Bell - Edison NJ
Tadeusz W. Langner - Maplewood NJ
Jacqueline S. Curran - Cranford NJ

Assignee:

Engelhard Corporation - Iselin NJ

International Classification:

C02F 142

US Classification:

210670, 210687

Abstract:

A method of water softening utilizes macrocrystalline aggregates consisting essentially of submicron crystals of aluminosilicate zeolite. The aggregates have a size of greater than 5 microns and are used in a static bed water softening device. Both regenerable and disposable water softening materials can be provided.

Macroscopic Aggregates Of Microcrystalline Zeolites For Static Water Softening Applications

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US Patent:

6685910, Feb 3, 2004

Filed:

Dec 14, 2000

Appl. No.:

09/737062

Inventors:

Steven M. Kuznicki - Whitehouse Station NJ
Tadeusz W. Langner - Maplewood NJ
Jacqueline S. Curran - Cranford NJ
Valerie A. Bell - Edison NJ

Assignee:

Engelhard Corporation - Iselin NJ

International Classification:

C01B 3918

US Classification:

423716, 423712, 423DIG 21, 423DIG 24

Abstract:

Novel morphologies are provided for aluminosilicate zeolite ion-exchange materials useful for static water softening. The zeolites are provided in the form of large aggregates composed of submicron zeolite crystals. Rapid exchange rates, high hardness ion capacity and increased attrition resistance characterize the zeolite ion exchangers.

Process For Making Catalysts Useful For The Conversion Of Paraffins To Olefins

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US Patent:

8105971, Jan 31, 2012

Filed:

Apr 2, 2009

Appl. No.:

12/417488

Inventors:

Anne Mae Gaffney - West Chester PA, US
Ruma Ghosh - Livingston NJ, US
Ruozhi Song - Wilmington DE, US
Chuen Yuan Yeh - Edison NJ, US
Tadeusz Langner - Maplewood NJ, US

Assignee:

Lummus Technology Inc. - Bloomfield NJ

International Classification:

B01J 23/22
C07C 5/333

US Classification:

502178, 502179, 502205, 502206, 502241, 502242, 502243, 502244, 502245, 502247, 502303, 502304, 502308, 502309, 502310, 502312, 585663

Abstract:

A process for forming a catalyst useful for the production of an olefin from a hydrocarbon is disclosed. The process may include: admixing at least one of elemental metals and compounds to form a multi-metal composition comprising Mo, V, Nb, Te and at least one of Ni and Sb; adjusting the pH of the multi-metal composition by adding nitric acid; drying the acidified multi-metal composition; calcining the dried multi-metal composition; and grinding the calcined multi-metal composition. The ground multi-metal composition may then be sized or shaped to form a mixed metal oxide catalyst. Alternatively, the ground multi-metal composition may be treated with an acid, optionally annealed, and sized or shaped to form a mixed metal oxide catalyst.

Tadeusz W Langner

Tadeusz Langner Phones & Addresses

Work

Education

Skills

Languages

Interests

Industries

Resumes

Resumes

Development Chemist

Publications

Us Patents

Macroporaus Aluminosilicate Desiccant, Preparation From Sodalite And Use In Enthalpy Energy Wheels

Method Of Forming High Aluminum Aluminosilicate Zeolites

Method Of Forming Aluminosilicate Zeolites

Macroscopic Aggregates Of Microcrystalline Zeolites

Simplified Methods Of Manufacturing Titanium Silicate Membranes

Method Of Static Water Softening Using Zeolites Of Novel Morphology

Macroscopic Aggregates Of Microcrystalline Zeolites For Static Water Softening Applications

Process For Making Catalysts Useful For The Conversion Of Paraffins To Olefins