Seal assembly for a submersible pumping system and an associated method thereof

The invention claimed is: 1. A seal assembly comprising: a housing; a support tube disposed within the housing; and a shape memory alloy foil disposed within the housing, surrounding the support tube; a first bag positioned on an inner surface of the shape memory alloy foil surrounding the support tube to define a first chamber between the first bag and the support tube, wherein the first chamber is configured to store a motor fluid; and a second bag positioned surrounding an outer surface of the shape memory alloy foil to define a second chamber between the first bag and the second bag, wherein the shape memory alloy foil is positioned in the second chamber between the first and second bags and configured to restrict a flow of a wellbore fluid to the motor fluid. 2. The seal assembly of claim 1 , wherein the shape memory alloy foil comprises: a first end aligned with a first end of the support tube; and a second end aligned with a second end of the support tube. 3. The seal assembly of claim 2 , further comprising: a first plate coupled to the first end of the shape memory alloy foil and the first end of the support tube; and a second plate coupled to the second end of the shape memory alloy foil and the second end of the support tube. 4. The seal assembly of claim 1 , wherein at least one of the first and second bags has a thickness in a range of 5 mm to 20 mm. 5. The seal assembly of claim 1 , wherein the shape memory alloy foil has a thickness in a range of 0.5 mm to 3 mm. 6. The seal assembly of claim 1 , wherein the shape memory alloy foil, the first bag, and the second bag are configured to expand in response to expansion of the motor fluid in the first chamber. 7. The seal assembly of claim 6 , wherein the shape memory alloy foil, the first bag, and the second bag, are configured to contract in response to contraction of the motor fluid in the first chamber. 8. A method comprising disposing a support tube within a housing; disposing a shape memory alloy foil within the housing, surrounding the support tube; positioning a first bag on an inner surface of the shape memory alloy foil surrounding the support tube to define a first chamber between the first bag and the support tube, wherein the first chamber is configured to store a motor fluid; and positioning a second bag surrounding an outer surface of the shape memory alloy foil to define a second chamber between the first bag and the second bag, wherein disposing the shape memory alloy foil comprises positioning the shape memory alloy foil in the second chamber between the first and second bags to restrict a flow of a wellbore fluid to the motor fluid. 9. The method of claim 8 , further comprising: aligning a first end of the shape memory alloy foil with a first end of the support tube; and aligning a second end of the shape memory alloy foil with a second end of the support tube. 10. The method of claim 9 , further comprising: coupling a first plate to the first end of the shape memory alloy foil and the first end of the support tube; and coupling a second plate to the second end of the shape memory alloy foil and the second end of the support tube. 11. A submersible pumping system comprising: an electric motor; a pump coupled to the electric motor and configured to pump a wellbore fluid; and a seal assembly positioned between the pump and the electric motor, wherein the seal assembly comprises: a housing; a support tube disposed within the housing; and a shape memory alloy foil disposed within the housing, surrounding the support tube; a first bag positioned on an inner surface of the shape memory alloy foil surrounding the support tube to define a first chamber between the first bag and the support tube, wherein the first chamber is configured to store a motor fluid; and a second bag positioned surrounding an outer surface of the shape memory alloy foil to define a second chamber between the first bag and the second bag, wherein the shape memory alloy foil is positioned in the second chamber between the first and second bags and configured to restrict a flow of a wellbore fluid to the motor fluid. 12. The submersible pumping system of claim 11 , wherein the shape memory alloy foil comprises: a first end aligned with a first end of the support tube; and a second end aligned with a second end of the support tube. 13. The submersible pumping system of claim 12 , further comprising: a first plate coupled to the first end of the shape memory alloy foil and the first end of the support tube; and a second plate coupled to the second end of the shape memory alloy foil and the second end of the support tube. 14. The submersible pumping system of claim 11 , wherein at least one of the first and second bags has a thickness in a range of 5 mm to 20 mm. 15. The submersible pumping system of claim 11 , wherein the shape memory alloy foil has a thickness in a range of 0.5 mm to 3 mm. 16. The submersible pumping system of claim 11 , wherein the shape memory alloy foil, the first bag, and the second bag are configured to expand in response to expansion of the motor fluid in the first chamber. 17. The submersible pumping system of claim 11 , wherein the shape memory alloy foil, the first bag, and the second bag are configured to contract in response to contraction of the motor fluid in the first chamber. 18. The submersible pumping system of claim 11 , wherein the first bag and the second bag are configured to further provide structural support to the shape memory alloy foil. 19. The seal assembly of claim 1 , wherein the first bag and the second bag are configured to further provide structural support to the shape memory alloy foil. 20. The method of claim 8 , further comprising providing structural support to the shape memory alloy foil using the first bag and the second bag.