Electrokinetic pump having capacitive electrodes
First Claim
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1. In an electrokinetic device comprising a pair of electrodes capable of having a voltage drop therebetween and a porous dielectric material between the electrodes, the improvement comprising the electrodes, wherein the electrodes are comprised of a material having a capacitance of at least 10−
- 4 Farads per square centimeter.
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Abstract
An electrokinetic pump achieves high and low flow rates without producing significant gaseous byproducts and without significant evolution of the pump fluid. A first feature of the pump is that the electrodes in the pump are capacitive with a capacitance of at least 10−4 Farads/cm2. A second feature of the pump is that it is configured to maximize the potential across the porous dielectric material. The pump can have either or both features.
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Citations
34 Claims
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1. In an electrokinetic device comprising a pair of electrodes capable of having a voltage drop therebetween and a porous dielectric material between the electrodes, the improvement comprising the electrodes, wherein the electrodes are comprised of a material having a capacitance of at least 10−
- 4 Farads per square centimeter.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 31, 32, 33)
- 13. In an electrokinetic device comprising a pair of electrodes and a porous dielectric material between the electrodes, the improvement comprising the electrodes being sufficiently proximate to the porous dielectric material so that when there is a voltage drop between the electrodes, the voltage drop across the porous dielectric material is at least 10% of the voltage drop between the electrodes and wherein the electrokinetic device is capable of generating fluid flow at a rate of at least 1 mL/min.
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20. An electrokinetic pump system comprising:
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(a) a first flow path;
(b) a second flow path, the second flow path being spaced apart from the first flow path; and
(c) an electrokinetic pump comprising;
(i) a first diaphragm in contact with the first flow path, the first diaphragm being flexible and impermeable;
(ii) a second diaphragm in contact with the second flow path, the second diaphram being flexible, impermeable, and spaced-apart from the first diaphram;
(iii) a pair of spaced apart electrodes having a capacitance of at least 10−
4 Farads/cm2 and being located between the diaphrams; and
(iv) a porous dielectric material located between the electrodes. - View Dependent Claims (21)
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22. An electrokinetic device comprising:
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(a) a first porous dielectric material having a positive zeta potential, an inside face and an outside face;
(b) a second porous dielectric material having a negative zeta potential, an inside face and an outside face;
(c) a first electrode located between the first and second porous dielectric materials adjacent to the inside face of each of the porous dielectric materials;
(d) a second electrode located adjacent to the outside face of the first porous dielectric material; and
(e) a third electrode located adjacent to the outside face of the second porous dielectric material;
wherein the electrodes have a capacitance of at least 10−
4 Farads/cm2.
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23. An electrokinetic device comprising:
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(a) a plurality of sheets of porous dielectric material; and
(b) a plurality of electrodes, one electrode being located between every two adjacent sheets of porous dielectric material;
,wherein each sheet of porous dielectric material has a zeta potential having a value wherein the value has a sign opposite the sign of the value of the zeta potential of an adjacent sheet of porous dielectric material;
wherein the electrodes have a capacitance of at least 10−
4 Farads/cm2.
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24. An electrokinetic pump system comprising:
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(a) a chamber;
(b) an electrokinetic pump in the chamber, the electrokinetic pump comprising first and second electrodes and a porous dielectric material there between, the porous dielectric material dividing the chamber into first and second sections;
(c) first and second fluid inlet conduits into the first and second sections, respectively;
(d) a first and second fluid outlet conduits from the first and second sections, respectively; and
(e) a flow limiting device in each conduit so fluid can flow into the pump only through the fluid inlet conduits and out of the pump only through the fluid outlet conduits. - View Dependent Claims (25)
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26. An electrokinetic pump system comprising:
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(a) an electrokinetic pump comprising;
(i)a pair of electrodes having a capacitance of at least 10−
4 Farads/cm2; and
(ii)a porous dielectric medium between the electrodes;
(b) a conduit; and
(c) a flexible barrier between the pump and the conduit.
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27. A heat transfer system comprising:
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(a) an electrokinetic pump comprising;
(i) a pair of spaced apart electrodes having a capacitance of at least 10−
4 Farads/cm2.(ii) a porous dielectric material between the electrodes;
(b) a first and a second heat radiator;
(c) a heat absorber between the heat radiators; and
(d) a conduit running between the electrokinetic pump and the first heat radiator, between the first heat radiator and the heat absorber, between the heat absorber and the second heat radiator, and between the second heat radiator and the electrokinetic pump;
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28. A heat transfer system comprising;
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(a) an electrokinetic pump comprising;
(i) a pair of spaced apart electrodes having a capacitance of at least 10−
4 Farads/cm−
2; and
(ii) a porous dielectric material between the electrodes;
(b) an evaporator;
(c) a condensor;
(d) a conduit from the electrokinetic pump to the evaporator, from the evaporator to the condenser, and from the condenser to the electrokinetic pump; and
(e) a flow limiting device located between the electrokinetic pump and the evaporator so that no fluid can flow from the evaporator to the electrokinetic pump.
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29. A heat transfer system comprising:
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(a) an electrokinetic pump comprising;
(i) a pair of spaced apart electrodes having a capacitance of at least 10−
4 Farads/cm2.(ii) a porous dielectric material between the electrodes;
(b) a first and a second condenser;
(c) an evaporator between the condensers; and
(d) conduit running between the electrokinetic pump and the first condenser, between the first condenser and the evaporator, between the evaporator and the second condenser, and between the second condenser and the electrokinetic pump.
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30. A dispenser comprising:
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(a) an electrokinetic pump comprising;
(i) a pair of spaced apart electrodes having a capacitance of at least 10−
4 Farads/cm2, and(ii) a porous dielectric material between the electrodes;
(b) a reservoir in fluid communication with the pump;
(c) a receiving vessel in fluid communication with the reservoir and the pump;
(d) a first flow limiting device preventing fluid flow from the pump to the reservoir; and
(e) a second flow limiting device preventing fluid flow from the receiving vessel to the pump;
wherein upon charging the electrodes fluid flows form the reservoir toward the pump and upon discharging the electrodes the fluid flows from the pump into the receiving vessel.
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34. A method of pumping fluid through a porous dielectric material comprising:
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(a) applying a positive current to a pair of electrodes, wherein the electrodes sandwich the porous dielectric material and the capacitance of the electrodes is at least 10−
4 Farads/cm2; and
(b) applying a negative current to the electrodes.
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Specification
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Current AssigneeTeleflex Life Sciences LLC (Teleflex Incorporated)
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Original AssigneeEksigent Technologies LLC
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InventorsPaul, Phillip H., Neyer, David W., Anex, Deon S.
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current204/294
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CPC Class CodesF04B 17/00 Pumps characterised by comb...F04B 19/00 Machines or pumps having pe...F04B 19/006 Micropumps F04B43/043 and F...F04B 43/043 Micropumps
