Multi-component bipolar plate for an electrochemical cell

What is claimed is: 1. A bipolar plate assembly, comprising: a first seal assembly including a first high pressure seal, a second high pressure seal, and an insert plate disposed between the first high pressure seal and the second high pressure seal; the insert plate has a plurality of ridges formed on an upper surface and a lower surface of the insert plate configured to penetrate into the first high pressure seal and the second high pressure seal when the first high pressure seal and the second high pressure seal are pressed onto the insert plate, thereby forming the seal assembly; and a frame and a base configured to be joined to form a bipolar plate and define a high pressure zone; wherein the seal assembly when installed in the bipolar plate is configured to seal the portion of the high pressure zone defined by the bipolar plate. 2. The bipolar plate assembly of claim 1 , wherein the frame defines a void configured to contain the seal assembly. 3. The bipolar plate assembly of claim 1 , wherein the seal assembly further includes two high pressure port seals that are configured to be pressed onto the upper surface of the insert plate at opposite ends. 4. The bipolar plate assembly of claim 1 , wherein the plurality of ridges are formed by photo etching of the insert plate. 5. The bipolar plate assembly of claim 1 , wherein the seal assembly may be replaced by removing the seal assembly through the frame. 6. The bipolar plate assembly of claim 1 , further comprising a second seal and a third seal that are arranged in a cascade seal configuration between the frame and the base. 7. The bipolar plate assembly of claim 1 , wherein the seal assembly may be installed and removed without separating the frame and the base. 8. The bipolar plate assembly of claim 1 , wherein when the first high pressure seal and the second high pressure seal are pressed onto the insert plate, the plurality of ridges are configured to cause plastic deformation of the first high pressure seal and second high pressure seal creating a first sealing surface between the insert plate and the first high pressure seal and a second sealing surface between the insert plate and the second high pressure seal. 9. The bipolar plate assembly of claim 1 , wherein the seal assembly is configured to seal the high pressure zone for pressures of at least 15,000 psi. 10. The bipolar plate assembly of claim 1 , where the plurality of ridges are at least one of knife edge shaped ridges, cusp shaped ridges, or flat blade shaped ridges. 11. A method of assembling a multi-component bipolar plate, the method comprising: pressing a first high pressure seal onto a lower surface of an insert plate, wherein the lower surface has a first plurality of ridges configured to penetrate the first high pressure seal thereby creating a first sealing surface; pressing a second high pressure seal onto an upper surface of the insert plate, wherein the upper surface has a second plurality of ridges configured to penetrate the second high pressure seal thereby creating a second sealing surface; wherein pressing the first high pressure seal onto the lower surface of the insert plate and pressing the second high pressure seal onto the upper surface of the insert plate forms a first seal assembly; and installing the seal assembly into a frame and a base of the bipolar plate, thereby sealing a high pressure zone of the bipolar plate. 12. The method of claim 11 , wherein pressing the first high pressure seal onto the lower surface of the insert plate causes the first high pressure seal to plastically deform thereby creating the first sealing surface. 13. The method of claim 11 , wherein pressing the second high pressure seal onto the upper surface of the insert plate causes the second high pressure seal to plastically deform thereby creating the second sealing surface. 14. The method of claim 11 , wherein installing the seal assembly includes inserting the seal assembly through the frame and placing the seal assembly on the base. 15. The method of claim 11 , further including pressing two high pressure port seals onto the upper surface of the insert plate at opposite ends. 16. The method of claim 11 , wherein the seal assembly is configured to be removed from the bipolar plate by removing the seal assembly through the frame. 17. The method of claim 11 , further comprising installing a second seal and a third seal between the frame and base, such that the first seal assembly, the second seal, and the third seal are arranged in a cascade seal configuration. 18. The method of claim 11 , wherein the high pressure zone is configured to handle pressures of at least 15,000 psi. 19. The method of claim 11 , wherein the seal assembly is configured to self-align with the frame and the base. 20. An electrochemical cell comprising: a pair of bipolar plates and a membrane electrode assembly located between the pair of bipolar plates; wherein at least one of the bipolar plates comprises: a first seal assembly including a first high pressure seal, a second high pressure seal, and an insert plate disposed between the first high pressure seal and the second high pressure seal; the insert plate has a plurality of ridges formed on an upper surface and a lower surface of the insert plate configured to penetrate into the first high pressure seal and the second high pressure seal when the first high pressure seal and the second high pressure seal are pressed onto the insert plate, thereby forming the seal assembly; and a frame and a base configured to be aligned to form the bipolar plate and define a high pressure zone; wherein the seal assembly when installed in the frame and the base is configured to seal the high pressure zone of the bipolar plate.