Water-activated primary battery particularly suitable for environmentally safe underwater use
First Claim
1. A Water-activated primary battery using magnesium or alloys thereof as the anode, and a cathode of a material having a redox potential allowing a charge transfer reaction, said battery including one or more electrochemical cells enclosed in a casing (1), characterised in that it contains a pH buffer system made of at least one acid having a ionization constant Ka≦
- 0.1 moles/liter in order to maintain in the electrolytic solution the concentration of the hydroxyl ions yielded by the reactionMg+2 H2O→
Mg2++2OH−
+H2↑
(I)below the threshold value causing the Mg(OH)2 precipitation, said precipitation being also provoked by the increase of the Mg2 concentration due to the anodic reactionMg→
Mg2++2 e,
(V)thereby avoiding the deposition of Mg (OH)2 on the cathode with the consequent decrease of the voltage output from said battery.
1 Assignment
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Accused Products
Abstract
A water-activated primary battery using magnesium or alloys thereof as the anode and a cathode of various material having a redox potential allowing a charge transfer reaction is described, said battery comprising one or more electrochemical cells enclosed in a casing (1), characterized in that it contains a pH buffer system formed by at least one acid having a ionization constant Ka≦0.1 moles/liter, in order to maintain in the electrolytic solution the concentration of the hydroxyl ions yielded by the reaction
Mg+2 H2O→Mg2++2 OH−+H2↑
below the threshold value that causes the Mg(OH)2 precipitation, said precipitation being also provoked by the increase of the Mg2+ concentration due to the anodic reaction
Mg→Mg2++2 e
thereby avoiding the deposition of Mg (OH)2 on the cathode with the consequent decrease of the voltage output from said battery.
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Citations
17 Claims
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1. A Water-activated primary battery using magnesium or alloys thereof as the anode, and a cathode of a material having a redox potential allowing a charge transfer reaction, said battery including one or more electrochemical cells enclosed in a casing (1), characterised in that it contains a pH buffer system made of at least one acid having a ionization constant Ka≦
- 0.1 moles/liter in order to maintain in the electrolytic solution the concentration of the hydroxyl ions yielded by the reaction
Mg+2 H2O→
Mg2++2OH−
+H2↑
(I)below the threshold value causing the Mg(OH)2 precipitation, said precipitation being also provoked by the increase of the Mg2 concentration due to the anodic reaction Mg→
Mg2++2 e,
(V)thereby avoiding the deposition of Mg (OH)2 on the cathode with the consequent decrease of the voltage output from said battery. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
a cathode (3) annularly located around said anode;
one or more spacers (4), made of insulating material, inserted between said cathode and said anode; and
means (5) for the electrical connection among the various battery components.
- 0.1 moles/liter in order to maintain in the electrolytic solution the concentration of the hydroxyl ions yielded by the reaction
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10. The battery according to claim 9, characterised in that it further comprises a plurality of supports (8) for said anode and said cathode.
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11. The battery according to claim 10, wherein said plurality of supports is shaped so as to form a space (9) below said cathode and anode in order to ease the electrolyte circulation in the electrode gap.
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12. The battery according to any one of the preceding claims, wherein said casing includes in a reversible mechanical arrangement
a collar portion (10) provided with an outer threading (12) that can be screwed to a ring nut member (13) correspondingly provided with a threading (14), said opening centrally having said aperture (17); -
a flanged plug member (16) that can be tightened between said collar portion and said ring nut member;
said plug member being provided with a pair of through members (18) crossed by the terminals (5) of said battery, and having said aperture to allow in a controlled manner the contact of the internal environment of said casing with the surrounding outer environment.
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13. The battery according to claim 12, wherein an O-ring is provided between said flanged plug member and said collar portion.
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14. The battery according to claims 12 or 13, characterised in that said pair of through members is provided with a outer threading (20) that can be coupled to a corresponding threaded seat (21) formed in said flanged plug member.
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15. The battery according to any one of the claims 1 to 14, wherein said aperture is sized so as to allow the venting of the gas evolved by the battery activating reactions between the inside of said casing and the surrounding environment, and to prevent seeping in of fluid from the outer environment.
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16. A process for the battery regeneration as claimed in claims 1 to 15, comprising adding of electrolytes to the buffer solution of the exhausted batteries.
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17. The process according to claim 16, wherein in case of batteries using cathodes based on the H+/H2 system said electrolytes are substances of acidic nature.
Specification