Abstract: Hydrogen-producing fuel cell systems (HPFCS) and methods. The HPFCS includes a fuel processor configured to produce generated hydrogen gas, a hydrogen storage device configured to contain stored hydrogen gas, and a fuel cell stack configured to produce an initial electrical output from the stored hydrogen gas and an oxidant and to produce a subsequent electrical output from the generated hydrogen gas and the oxidant. The methods include detecting an inability of a primary power source to satisfy an applied load. Responsive to the detecting, the methods include initiating a startup of the fuel processor, supplying stored hydrogen gas to the fuel cell stack to produce the initial electrical output, satisfying the applied load with the initial electrical output, supplying generated hydrogen gas to the fuel cell stack after the startup to produce a subsequent electrical output, and satisfying the applied load with the subsequent electrical output.

Abstract: Hydrogen-producing fuel cell systems (HPFCS) and methods. The HPFCS includes a fuel processor configured to produce generated hydrogen gas, a hydrogen storage device configured to contain stored hydrogen gas, and a fuel cell stack configured to produce an initial electrical output from the stored hydrogen gas and an oxidant and to produce a subsequent electrical output from the generated hydrogen gas and the oxidant. The methods include detecting an inability of a primary power source to satisfy an applied load. Responsive to the detecting, the methods include initiating a startup of the fuel processor, supplying stored hydrogen gas to the fuel cell stack to produce the initial electrical output, satisfying the applied load with the initial electrical output, supplying generated hydrogen gas to the fuel cell stack after the startup to produce a subsequent electrical output, and satisfying the applied load with the subsequent electrical output.

Abstract: Hydrogen-producing fuel cell systems (HPFCS) and methods. The HPFCS includes a fuel processor configured to produce generated hydrogen gas, a hydrogen storage device configured to contain stored hydrogen gas, and a fuel cell stack configured to produce an initial electrical output from the stored hydrogen gas and an oxidant and to produce a subsequent electrical output from the generated hydrogen gas and the oxidant. The methods include detecting an inability of a primary power source to satisfy an applied load. Responsive to the detecting, the methods include initiating a startup of the fuel processor, supplying stored hydrogen gas to the fuel cell stack to produce the initial electrical output, satisfying the applied load with the initial electrical output, supplying generated hydrogen gas to the fuel cell stack after the startup to produce a subsequent electrical output, and satisfying the applied load with the subsequent electrical output.

Abstract: Hydrogen-producing fuel cell systems (HPFCS) and methods. The HPFCS includes a fuel processor configured to produce generated hydrogen gas, a hydrogen storage device configured to contain stored hydrogen gas, and a fuel cell stack configured to produce an initial electrical output from the stored hydrogen gas and an oxidant and to produce a subsequent electrical output from the generated hydrogen gas and the oxidant. The methods include detecting an inability of a primary power source to satisfy an applied load. Responsive to the detecting, the methods include initiating a startup of the fuel processor, supplying stored hydrogen gas to the fuel cell stack to produce the initial electrical output, satisfying the applied load with the initial electrical output, supplying generated hydrogen gas to the fuel cell stack after the startup to produce a subsequent electrical output, and satisfying the applied load with the subsequent electrical output.

Abstract: A fuel mixing apparatus for fuel cell system includes a first fluid tank, a second fluid tank, a tube assembly, a pump, and a mixing tank. The first fluid tank is for containing a first fluid. The second fluid tank is for containing a second fluid. The tube assembly connects to the first fluid tank and the second fluid tank. The pump is disposed on the tube assembly. The mixing tank is connected to the tube assembly. The pump transmits the first fluid in the first fluid tank to the mixing tank via the tube assembly, and the pump transmits the second fluid tank to the mixing tank via the tube assembly.