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A system, in certain embodiments, includes an accumulator having a first plate with a first wire guide and a second plate with a second wire guide. The second plate is positioned at an offset from the first plate, and the second plate is moveable relative to the first plate to adjust a fluid pressur

A system, in certain embodiments, includes an accumulator having a first plate with a first wire guide and a second plate with a second wire guide. The second plate is positioned at an offset from the first plate, and the second plate is moveable relative to the first plate to adjust a fluid pressure. The accumulator also includes a plurality of shape memory alloy wires extending between the first and second plates, wherein the plurality of shape memory alloy wires extend along the first and second wire guides.

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1. A system, comprising: an accumulator configured to store a hydraulic fluid to operate equipment, wherein the accumulator comprises: a first plate comprising a first wire guide, wherein the first wire guide comprises a first semi-circular path having a first groove, and the first wire guide is dis

1. A system, comprising: an accumulator configured to store a hydraulic fluid to operate equipment, wherein the accumulator comprises: a first plate comprising a first wire guide, wherein the first wire guide comprises a first semi-circular path having a first groove, and the first wire guide is disposed adjacent a first pair of wire holes in the first plate;a second plate comprising a second wire guide, wherein the second wire guide comprises a second semi-circular path having a second groove, the second wire guide is disposed adjacent a second pair of wire holes in the second plate, the second plate is positioned at an offset from the first plate, and the second plate is moveable relative to the first plate to adjust a fluid pressure; anda plurality of shape memory alloy wires extending between the first and second plates, wherein the plurality of shape memory alloy wires extend along the first and second wire guides. 2. The system of claim 1, comprising a first insulative material and a second insulative material, wherein the first insulative material is disposed along the first pair of wire holes, the first groove, or a combination thereof, and the second insulative material is disposed along the second pair of wire holes, the second groove, or a combination thereof. 3. The system of claim 1, wherein the first wire guide comprises a first pair of wire sleeves and the first semi-circular path having the first groove, and the second wire guide comprises a second pair of wire sleeves and the second semi-circular path having the second groove. 4. The system of claim 3, wherein the first pair of sleeves is disposed adjacent opposite ends of the first groove, and the second pair of sleeves is disposed adjacent opposite ends of the second groove. 5. The system of claim 4, wherein the first pair of sleeves and the second pair of sleeves comprise an insulative material. 6. The system of claim 4, wherein the first semi-circular path and the second semi-circular path comprise an insulative material. 7. The system of claim 4, wherein the first pair of sleeves is disposed in the first pair of wire holes in the first plate, and the second pair of sleeves is disposed in the second pair of wire holes in the second plate. 8. The system of claim 1, wherein the first plate comprises a first circular pattern of wire guides, and the second plate comprises a second circular pattern of wire guides. 9. The system of claim 8, wherein the first circular pattern of wire guides comprises a first plurality of concentric rings of wire guides, and the second circular pattern of wire guides comprises a second plurality of concentric rings of wire guides. 10. The system of claim 1, comprising: a first cylinder configured to receive a fluid within an internal volume of the first cylinder;a piston axially movable within the first cylinder, wherein axial movement of the piston within the first cylinder adjusts the internal volume of the first cylinder; and the second plate is moveable with the piston;a power supply that supplies an electrical current through the shape memory alloy wires; anda controller comprising a memory with instructions, wherein the controller adjusts the supply of electrical current through the shape memory alloy wires, and the controller adjusts the supply of electrical current through the shape memory wires based at least in part on a measurement sensed from the accumulator. 11. A system, comprising: a shape memory alloy powered drive, comprising: a first plate comprising a plurality of first pairs of holes;a plurality of first wire guides, wherein each first wire guide of the plurality of first wire guides comprises a first semi-circular section having a first groove and a first pair of wire sleeves disposed adjacent opposite ends of the first groove, wherein each first pair of wire sleeves is disposed in one of the first pairs of holes in the first plate;a second plate;a plurality of second wire guides adjacent the second plate, wherein the first and second plates are disposed at an offset from one another, and the second plate is moveable relative to the first plate;a plurality of shape memory alloy wires extending along the plurality of first wire guides; anda controller comprising a memory with instructions, wherein the controller adjusts a supply of electrical current through the shape memory wires to adjust a force on the first plate. 12. The system of claim 11, wherein each first wire guide comprises a first curved path having the first groove extending from a first hole to a second hole of one of the first pairs of holes in the first plate. 13. The system of claim 11, wherein the second plate comprises a plurality of second pairs of holes, wherein each second wire guide of the plurality of second wire guides comprises a second semi-circular section having a second groove and a second pair of wire sleeves disposed adjacent opposite ends of the second groove, wherein each second pair of wire sleeves is disposed in one of the second pairs of holes in the second plate. 14. The system of claim 11, comprising an insulative material disposed along each of the plurality of first pairs of holes, each first groove, or a combination thereof. 15. A method for actuating an accumulator, comprising: supplying an electrical current to a plurality of shape memory alloy wires extending along wire guides coupled to first and second plates to cause movement of the first plate relative to the second plate, wherein each wire guide comprises a semi-circular path with a groove, a first one of the wire guides is disposed adjacent a first pair of wire holes in the first plate, and a second one of the wire guides is disposed adjacent a second pair of wire holes in the second plate; andinsulating the first and second plates from the electrical current passing through the plurality of shape memory alloy wires with insulative material disposed along the first pair of wire holes in the first plate, the second pair of wire holes in the second plate, a groove in the wire guides, or a combination thereof. 16. The method of claim 15, comprising distributing force between the first and second plates via the plurality of shape memory alloy wires extending back and forth between a first circular pattern of wire guides coupled to the first plate and a second circular pattern of wire guides coupled to the second plate.