- Danbury CT, US Arun SURENDRANATH - Danbury CT, US Chao-Yi YUH - New Milford CT, US Mohammad FAROOQUE - Marlboro NJ, US
International Classification:
H01M 8/0295 H01M 8/14
Abstract:
A method of making an electrolyte matrix includes: preparing a slurry comprising a support material, a coarsening inhibitor, an electrolyte material, and a solvent; and drying the slurry to form an electrolyte matrix. The support material comprises lithium aluminate, the coarsening inhibitor comprises a material selected from the group consisting of MnO, MnO, TiO, ZrO, FeO, LiFeO, and mixtures thereof, and the coarsening inhibitor has a particle size of about 0.005 μm to about 0.5 μm.
Stable Electrolyte Matrix For Molten Carbonate Fuel Cells
- Danbury CT, US Arun SURENDRANATH - Danbury CT, US Chao-Yi YUH - New Milford CT, US Mohammad FAROOQUE - Marlboro NJ, US
International Classification:
H01M 8/0295 H01M 8/14
Abstract:
An electrolyte matrix for use with molten carbonate fuel cells having an enhanced stability and lifetime is provided. The electrolyte matrix includes lithium aluminate as a support material and a coarsening inhibitor. The coarsening inhibitor may be in the form of discrete particles or a dopant present in the support material. The coarsening inhibitor may include MnO, MnO, TiO, ZrO, FeO, LiFeO, or mixtures thereof. The coarsening inhibitor prevents the formation of large pores in the electrolyte matrix during operation of the fuel cell, increasing the performance and the service lifetime of the electrolyte matrix.
Fuel Cell Matrix Composition And Method Of Manufacturing Same
- Danbury CT, US Arun SURENDRANATH - Danbury CT, US Chao-Yi YUH - New Milford CT, US Mohammad FAROOQUE - Marlboro NJ, US
International Classification:
H01M 8/0295 H01M 8/14
Abstract:
A composition for use in forming a fuel cell matrix includes a support material, an electrolyte material, and an additive material that includes a plurality of flakes having an average length in a range of 5 to 40 micrometers and an average thickness of less than 1 micrometer.
Fuel Cell Matrix Composition And Method Of Manufacturing Same
- Danbury CT, US Arun Surendranath - Danbury CT, US Chao-Yi Yuh - New Milford CT, US Mohammad Farooque - Danbury CT, US
International Classification:
H01M 8/0295 H01M 8/14
Abstract:
A fuel cell matrix for use in a molten carbonate fuel cell comprising a support material and an additive material formed into a porous body, and an electrolyte material disposed in pores of the porous body, wherein the additive material is in a shape of a flake and has an average thickness of less than μm.
Fuel Cell Matrix Composition And Method Of Manufacturing Same
- Danbury CT, US Arun Surendranath - Danbury CT, US Chao-Yi Yuh - New Milford CT, US Mohammad Farooque - Danbury CT, US
Assignee:
FuelCell Energy, Inc. - Danbury CT
International Classification:
H01M 8/14
Abstract:
A fuel cell matrix for use in a molten carbonate fuel cell comprising a support material and an additive material formed into a porous body, and an electrolyte material disposed in pores of the porous body, wherein the additive material is in a shape of a flake and has an average thickness of less than 1 μm.
Sep 2009 to 2000 Graduate Research AssistantMahindra & Mahindra (M&M) Automotive Mumbai Mumbai, Maharashtra Aug 2007 to Jul 2009 Metallurgical Engineer, Heat Treatment DepartmentMICO BOSCH Bangalore, Karnataka May 2006 to Jul 2006Foundry And Forge Division, Hindustan Aeronautics Limited Bangalore, Karnataka May 2005 to Jul 2005 Intermediate Jet Trainer
Education:
University of Cincinnati Cincinnati, OH Jan 2009 to Jan 2011 Master's in Materials EngineeringNational Institute of Technology Aug 2003 to May 2007 Bachelor of Technology in Metallurgical & Materials Engineering
Skills:
Experienced in operating and data analysis of various characterizing techniques like Scanning Electron Microscopy (SEM), X-Ray diffraction, Energy Dispersive Spectroscopy (EDS), Inductively Coupled Plasma Mass Spectroscopy ( ICP-MS), Surface Area Analysis (BET), Fourier Transform Infrared Spectroscopy (FTIR), Electrochemical Impedance Spectroscopy (EIS), Cyclic Voltammetry, Electrochemical Noise, Electrochemical Corrosion study, Thermo Gravemetric Analysis (TGA), Differential Scanning Calorimetry (DSC), Differential Thermal Analysis (DTA), X-ray Photoelectron Spectroscopy (XPS), particle shape analyzer, mechanical testing, Electroplating.
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