Fuel system using redox flow battery

1 - 134 . (canceled) 135 . A bipolar electrochemical cell, comprising: a terminal anode current collector; a first ion-permeable membrane spaced from the terminal anode current collector and at least partially defining a first anode; a bipolar electrode spaced from the first ion-permeable membrane and at least partially defining a first cathode between the first ion-permeable membrane and a first surface of the bipolar current collector; a second ion-permeable membrane spaced from the bipolar current collector and at least partially defining a second anode between the second ion-permeable membrane and a second surface of the bipolar current collector; and a terminal cathode current collector spaced from the second ion-permeable membrane and at least partially defining a second cathode between the terminal cathode current collector and the second ion-permeable membrane, wherein at least one of the first anode, the second anode, the first cathode, and the second cathode includes a semi-solid or condensed liquid ion-storing redox composition, the semi-solid or condensed liquid ion-storing redox composition including a conductive additive and an ion-storing solid phase, wherein a volume percentage of the ion-storing solid phase is between 20% and 70%, and wherein the semi-solid or condensed liquid ion-storing redox composition is capable of taking up or releasing ions, and remains substantially insoluble during operation of the cell. 136 . The bipolar electrochemical cell of claim 135 , wherein the bipolar electrochemical cell is a flow cell. 137 . The bipolar electrochemical cell of claim 135 , wherein at least one of the first anode, the second anode, the first cathode, and the second cathode includes the semi-solid ion-storing redox composition, the semi-solid ion-storing redox composition comprising a mixture of a liquid phase and a solid phase. 138 . The bipolar electrochemical cell of claim 135 , wherein at least one of the first anode, the second anode, the first cathode, and the second cathode includes the semi-solid ion-storing redox composition, the semi-solid ion-storing redox composition comprising a slurry. 139 . The bipolar electrochemical cell of claim 135 , wherein at least one of the first anode, the second anode, the first cathode, and the second cathode includes the semi-solid ion-storing redox composition, the semi-solid ion-storing redox composition comprising a particle suspension. 140 . The bipolar electrochemical cell of claim 135 , wherein at least one of the first anode, the second anode, the first cathode, and the second cathode includes the semi-solid ion-storing redox composition, the semi-solid ion-storing redox composition comprising a colloidal suspension. 141 . The bipolar electrochemical cell of claim 135 , wherein at least one of the first anode, the second anode, the first cathode, and the second cathode includes the semi-solid ion-storing redox composition, the semi-solid ion-storing redox composition comprising an emulsion. 142 . The bipolar electrochemical cell of claim 135 , wherein at least one of the first anode, the second anode, the first cathode, and the second cathode includes the semi-solid ion-storing redox composition, the semi-solid ion-storing redox composition comprising a micelle. 143 . The bipolar electrochemical cell of claim 135 , wherein the bipolar electrode includes an anode current collector, a cathode current collector, and a heat sink disposed between the anode current collector and the cathode current collector. 144 . The bipolar electrochemical cell of claim 135 , wherein the bipolar electrode includes an anode current collector, a cathode current collector, and an insulator disposed between the anode current collector and the cathode current collector. 145 . The bipolar electrochemical cell of claim 137 , wherein the liquid phase includes a non-aqueous liquid electrolyte. 146 . A bipolar electrochemical cell, comprising: a terminal anode current collector; a first ion-permeable membrane spaced from the terminal anode current collector and at least partially defining a first anode; a bipolar electrode spaced from the first ion-permeable membrane and at least partially defining a first cathode between the first ion-permeable membrane and a first surface of the bipolar current collector; a second ion-permeable membrane spaced from the bipolar current collector and at least partially defining a second anode between the second ion-permeable membrane and a second surface of the bipolar current collector; and a terminal cathode current collector spaced from the second ion-permeable membrane and at least partially defining a second cathode between the terminal cathode current collector and the second ion-permeable membrane, wherein at least one of the first anode, the second anode, the first cathode, and the second cathode includes a semi-solid electrode, the semi-solid electrode including a suspension of an ion-storing solid phase material and a conductive additive in a non-aqueous liquid electrolyte, and wherein the volume percentage of the ion-storing solid phase material is between 20% and 70%. 147 . The bipolar electrochemical cell of claim 146 , wherein the bipolar electrochemical cell is a flow cell. 148 . The bipolar electrochemical cell of claim 146 , wherein the suspension is a particle suspension. 149 . The bipolar electrochemical cell of claim 146 , wherein the bipolar electrode includes an anode current collector, a cathode current collector, and a heat sink disposed between the anode current collector and the cathode current collector. 150 . The bipolar electrochemical cell of claim 146 , wherein the bipolar electrode includes an anode current collector, a cathode current collector, and an insulator disposed between the anode current collector and the cathode current collector. 151 . A bipolar electrochemical cell, comprising: a terminal anode, a terminal cathode, and at least one bipolar electrode disposed between the terminal anode and the terminal cathode, the bipolar electrode including an anode portion, and a cathode portion opposite the anode portion; a first ion-permeable membrane disposed between the terminal anode and the cathode portion of the bipolar electrode; and a second ion-permeable membrane disposed between the terminal cathode and the anode portion of the bipolar electrode, wherein at least one of the terminal anode, the terminal cathode and the at least one bipolar electrode includes a semi-solid electrode, the semi-solid electrode including a suspension of an ion-storing solid phase material and a conductive additive in a non-aqueous liquid electrolyte, and wherein the volume percentage of the ion-storing solid phase material is between 20% and 70%. 152 . The bipolar electrochemical ceil of claim 151 , wherein the bipolar electrochemical cell is a flow cell. 153 . The bipolar electrochemical cell of claim 151 , wherein the suspension is a particle suspension. 154 . The bipolar electrochemical cell of claim 151 , wherein the bipolar electrode includes an anode current collector and a cathode current collector. 155 . The bipolar electrochemical ceil of claim 154 , wherein the bipolar electrode further includes a heat sink disposed between the anode current collector and the cathode current collector. 156 . The bipolar electrochemical ceil of claim 154 , wherein the bipolar electrode further includes an insulator disposed betwee