Regenerative fuel cell

What is claimed is: 1. A regenerative fuel cell system comprising: a) a regenerative fuel cell comprising: i) a membrane electrode assembly comprising: a proton conducting layer comprising an ion conductive media; an anode; and a cathode; wherein the proton conducting layer is onfigured between the anode and cathode; b) a hydrogen storage reservoir oupled with a storage side of the membrane electrode assembly when the regenerative fuel cell operates in a hydrogen pumping mode; c) a power supply that provides an electrical potential between the anode and cathode when operating in the hydrogen pumping mode; wherein in said hydrogen pumping mode, the anode is exposed to air and humidity in said air, and said humidity is reacted on the anode to produce protons that move across the proton conducting layer to the cathode where the protons are reacted to form pumped hydrogen that is stored in the hydrogen storage reservoir, and in a fuel cell mode, the anode is exposed to the pumped hydrogen and the pumped hydrogen is reacted on the anode to produce protons that move across the proton conducting layer to the cathode where the protons are reacted with oxygen to form water. 2. The regenerative fuel cell system of claim 1 , wherein the air is ambient air. 3. The regenerative fuel cell system of claim herein the hydrogen storage reservoir comprises a metal hydnde forming alloy. 4. The regenerative fuel cell system of claim 1 , comprising an integral metal hydride electrode as the cathode when operating the in the hydrogen pumping mode and wherein the integral metal hydride electrode comprises a metal hydride forming alloy. 5. The regenerative fuel cell system of claim 4 , wherein the integral metal hydride electrode is attached to the proton conducting layer. 6. The regenerative fuel cell system of claim 4 , wherein the integral metal hydride electrode is attached to the proton conducting layer and wherein the ion conducting media penetrates into the integral metal hydride electrode. 7. The regenerative fuel cell system of claims 4 , wherein the integral metal hydride electrode comprises a catalyst. 8. The regenerative fuel cell system of claim 7 wherein the catalyst is coated onto the metal hydride forming alloy. 9. The regenerative fuel cell system of claim 1 , compris compressor between the regenerative fuel cell and the hydrogen storage reservoir. 10. The regenerative fuel cell system of claim 9 , wherein the compressor is an electrochemical compressor comprising a membrane electrode assembly. 11. The regenerative fuel cell system of claim 1 , comprising a pump between the regenerative fuel cell and the hydrogen storage reservoir. 12. The regenerative fuel cell system of claim 1 , comprising a filter to filter incoming fluid to a source side of the membrane electrode assembly of the regenerative fuel cell. 13. The regenerative fuel cell system of claim 1 , comprising an air moving device force incoming fluid to a source side of the membrane electrode assembly of the regenerative fuel cell. 14. The regenerative fuel cell system of claim 1 , comprising gas diffusion media coupled with the anode. 15. The regenerative fuel cell system of claim 1 , comprising gas diffusion media coupled with the cathode. 16. The regenerative fuel cell system of claim 1 , further comprising an electrochemical heat transfer device. 17. The regenerative fuel of cell system of claim 16 , comprising a heat exchanger coupled with the regenerative fuel cell. 18. The regenerative fuel cell system of claim 16 , wherein the electrochemical heat transfer device comprises a first reservoir comprising a metal hydride forming alloy that is coupled with and receives hydrogen from the regenerative fuel cell, and wherein heat is generated when hydrogen is pumped to the first reservoir and wherein heat is lost when hydrogen is pumped from the first reservoir. 19. The regenerative fuel of cell system of claim 18 , wherein the hydrogen is pumped by the regenerative fuel cell to and from the first reservoir. 20. The regenerative fuel cell system of claim 18 , wherein the electrochemical heat transfer device comprises said first reservoir comprising a first metal hydride forming alloy and a second reservoir comprising a second metal hydride forming alloy and wherein the second reservoir is coupled with and receives hydrogen from the regenerative fuel cell wherein the hydrogen is pumped by the regenerative fuel cell to and from the first reservoir and second reservoirs. 21. The regenerative fuel cell system of claim 20 , further comprising an electrochemical compressor configured between the first and second reservoirs to pump hydrogen from the first reservoir to the second reservoir.