Use of catalysts in standby valve-regulated lead acid cells
First Claim
1. In a method for charging a valve-regulated, lead-acid (VRLA) cell at a charge voltage which has a value that is slightly in excess of the value of the open-circuit voltage of the cell, said cell including, in spaced relationship, a positive electrode and a negative electrode, and sandwiched therebetween electrolyte-containing separator means in which electrolyte is contained, wherein, during charging of the cell, there is produced at the positive and negative electrodes respectively oxygen gas and hydrogen gas in a predetermined amount, a portion of the oxygen gas tending to migrate through the electrolyte-containing separator means to the negative electrode and cause depolarization thereof, and wherein there is also formed at the positive electrode hydrogen ions which migrate to the negative electrode to form hydrogen gas in an amount less than said predetermined amount, the negative electrode tending to discharge over a prolonged period of time during charging, the improvement comprising inhibiting the tendency of the negative electrode to discharge during charging by controlling the amount of oxygen gas in the cell by catalytically converting a portion of the oxygen gas and a portion of the predetermined amount of hydrogen gas to water.
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Accused Products
Abstract
In the charging of a valve-regulated, lead-acid (VRLA) cell at a charge voltage which has a value that is slightly in excess of the value of the open-circuit voltage of the cell, wherein, during charging of the cell, there is produced at the positive and negative electrodes respectively oxygen gas and hydrogen gas in a predetermined amount, and wherein the negative electrode tends to discharge over a prolonged period of time during charging, the improvement comprising inhibiting the tendency of the negative electrode to discharge during charging by controlling the amount of oxygen gas in the cell by catalytically converting a portion of the oxygen gas and a portion of the predetermined amount of hydrogen gas to water, for example, by use of a catalyst positioned in the cell.
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Citations
21 Claims
- 1. In a method for charging a valve-regulated, lead-acid (VRLA) cell at a charge voltage which has a value that is slightly in excess of the value of the open-circuit voltage of the cell, said cell including, in spaced relationship, a positive electrode and a negative electrode, and sandwiched therebetween electrolyte-containing separator means in which electrolyte is contained, wherein, during charging of the cell, there is produced at the positive and negative electrodes respectively oxygen gas and hydrogen gas in a predetermined amount, a portion of the oxygen gas tending to migrate through the electrolyte-containing separator means to the negative electrode and cause depolarization thereof, and wherein there is also formed at the positive electrode hydrogen ions which migrate to the negative electrode to form hydrogen gas in an amount less than said predetermined amount, the negative electrode tending to discharge over a prolonged period of time during charging, the improvement comprising inhibiting the tendency of the negative electrode to discharge during charging by controlling the amount of oxygen gas in the cell by catalytically converting a portion of the oxygen gas and a portion of the predetermined amount of hydrogen gas to water.
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9. An electric cell comprising:
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(A) a sealed housing;
(B) a positive electrode positioned in the housing;
(C) a negative electrode positioned in the housing in spaced relationship from the positive electrode;
(D) electrolyte-containing separator means positioned between said electrodes and containing electrolyte;
(E) a pressure relief valve which allows gas to escape from the housing and which prevents oxygen gas from outside the housing to contact said negative electrode;
(F) a catalyst positioned in the housing for converting oxygen gas and hydrogen gas which is generated in the housing to water; and
(G) means for charging the cell at a charge voltage having a value which is slightly in excess of the value of the open-circuit voltage of the cell. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
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21. In a method for float charging a valve-regulated, lead-acid (VRLA) cell at a charge voltage which has a value that is slightly in excess of the value of the open-circuit voltage of the cell, said cell including, in spaced-apart relation-ship, a positive electrode, a negative electrode, and sandwiched therebetween a separator in which electrolyte is contained, wherein during charging of the cell, there is (1) a self-discharge reaction at the negative electrode, (2) the production at the positive and negative electrodes respectively of oxygen gas and hydrogen gas, with a portion of the oxygen gas migrating through the electrolyte-containing separator to depolarize the negative electrode, and (3) corrosion of the positive electrode to form hydrogen ions which migrate to the negative electrode through said separator to form hydrogen gas by said self-discharge reaction of said negative electrode in an amount less than that needed to counter said negative electrode self-discharge and prevent a loss of capacity over a prolonged period of time during charging, the improvement comprising countering said self-discharge reaction of the negative electrode by catalytically converting a portion of the oxygen gas and a portion of the hydrogen gas to water.
Specification