 Apparatus for cooling strip like material |
| I claim: 1. An apparatus for cooling varying width relatively flat strip produced by a hot strip ... |
|
| Galvanic element |
| I claim: 1. A galvanic element having a negative electrode of a strongly electro-positive metal, a ... |
|
| Battery |
| What we claim: 1. A battery comprising: a collector rod serving also as a winding core and having ... |
|
| Lithium halide primary cell having end of life indicator means |
| Generally, the present invention is adaptable to lithium halide batteries having at least one ... |
|
| Additive for zinc electrodes |
| We claim: 1. A zinc electrode for a cell having KOH or NaOH electrolyte, said electrode containing ... |
|
| Recording medium |
| An object of the present invention is to provide a magnetic recording medium comprising an ... |
|
| Low-loss and low-torque ACSR conductors |
| We claim: 1. An ACSR conductor having three or more layers of aluminum conductor strands helically ... |
|
| Multi-layer sheet structure, method of making same and containers made therefrom |
| The foregoing objects and advantages of the present invention are realized by providing a unique ... |
|
| Multiple symbol differential detection |
| The need in the art is addressed by the present invention which provides a differential detection ... |
|
|
Molten carbonate fuel cell matrix tape and assembly method
| Details |
Inventors: Vine, Raymond W.; Schroll, Craig R.; Reiser, Carl A.;
Assignee: United Technologies Corporation (Hartford, CT)
Primary Examiner:
Assistant Examiner:
Attorney, Agent or Firm:
A matrix material for a molten carbonate fuel cell is described which is flexible, pliable and has rubber-like compliance at room temperature. The matrix has three components comprising fine inert particulate material, larger crack attenuating ceramic particulate material, and an organic polymeric binder. A process of assembling a molten carbonate fuel cell utilizing the compliant matrix material is also described. The compliant matrix material is inserted into a molten carbonate fuel cell stack utilizing fuel cell anodes with sufficient porosity to contain excess electrolyte. The fuel cell is heated up to a temperature sufficient to remove the polymer binder and cause a portion of the electrolyte material present in the anode to wick into the matrix to substantially fill it completely. |
|
DETAILED DESCRIPTION We claim: 1.
In the process of assembling a molten carbonate fuel cell including forming a fuel cell stack by stacking a plurality of electrodes separated by layers of matrix material, wherein the improvement comprises: inserting as the matrix material a matrix comprising particles inert to molten carbonate electrolyte having a particle size less than about one micron, ceramic particles having a particle size greater than about 25 microns, and an organic polymer binder material, the binder material being present in an amount of at least about 35% by volume, the matrix material being flexible, pliable, and compliant at room temperature, into the fuel cell stack, and utilizing as the fuel cell anode, an anode with sufficient porosity to contain sufficient electrolyte for continuous operation of the molten carbonate fuel cell for at least 40,000 hours.
2.
The process of claim 1 including heating the fuel cell stack containing the matrix and anode to a temperature for a time sufficient to remove the polymer binder and cause at least a portion of the electrolyte material in the anode to wick into and substantially completely fill the matrix.
3.
The process of claim 2 wherein the stack is heated from room temperature up to 205.
degree.
C.
at a rate of 40.
degree.
C.
per hour, held at 205.
degree.
C.
for 6 hours, then heated to 315.
degree.
C.
at a rate of 40.
degree.
C.
per hour and held at 315.
degree.
C.
for 6 hours, and then heated to 470.
degree.
C.
at a rate of 40.
degree.
C.
per hour and held at 470.
degree.
C.
for 2 hours, before being raised above the electrolyte melt temperature to a stack operating temperature of approximately 650.
degree.
C.
4.
The process of claim 1 wherein the inert particles are present in about 40% to about 45% by volume and the ceramic particles are present in an amount of at least about 15% by volume.
5.
The process of claim 1 wherein the polymer is polyvinyl butyral.
6.
The process of claim 1 wherein the inert material is lithium aluminate.
7.
The process of claim 1 wherein the ceramic particles are alumina
|
| Related patents |
|
|
Method for gas sealing of phosphoric acid-type fuel cell
The present invention is intended to solve the above-mentioned problems. Accordingly, it is an object of the present invention to provide a method for sealing the gas of ...
|
|
|
Cell battery adapter
OF THE PREFERRED EMBODIMENT With specific reference to the drawings, in FIG. 1, four alkaline "D" size cells A, B (not shown in FIG. 1), C and D are positioned in ...
|
|
|
Self biasing thermal magneto-optic medium
A magnetic field biasing layer for a storage device has temperature dependent magnetic properties. The layer has a net magnetization which changes in orientation as a ...
|
|
|
Steel plate for the outside of automobile bodies electroplated with a zinc alloy and a manufacturing method therefor
Accordingly, it is an object of the present invention to provide a steel plate which is electroplated with a Zn alloy and which has good resistance to peeling of the ...
|
|
|
Rapidly refuelable fuel cell
OF THE INVENTION In the drawings there is illustrated an embodiment of an electrochemical cell made in accordance with the present invention. The cell comprises a ...
|
|
|
Bipolar separator for electrochemical cells and method of preparation thereof
We claim: 1. A bipolar separator for electrochemical cells, said separator constructed and arranged for distributing electrical current to an anode which is bonded to ...
|
|
|
Integrated fuel-cell/steam plant for electrical generation
It is an object of the invention to reduce the pollution caused by fossil fueled power plants. It is yet another object of the invention to increase the efficiency of ...
|
|
|
Sealed prismatic storage battery
The present invention provides a sealed prismatic storage battery having a high volumetric energy density and using a battery case with a high compressivity A sealed ...
|
|
|
Steel product with heat-resistant, corrosion-resistant plating layers
OF THE INVENTION The steel product pertaining to the present invention includes sheets, pipes, couplings, clamps, bolts, nuts, and the like. The steel product also ...
|
|
|
Thermo-transfer ribbon
OF THE INVENTION According to the invention, the initially named thermo-transfer ribbon is refined in such a manner that there is no necessity for the formation of a ...
|
|
|
Fuel Cells 
