Gas generator

What is claimed is: 1 . A gas generator, comprising: a water tank having a first hollow portion for containing water; an electrolysis device disposed in the first hollow portion to receive the water from the water tank and configured to electrolyze the water to generate a gas comprising hydrogen into the water tank; a cooling device coupled to the water tank to cool down the water in the water tank; and a water pump connected between the water tank and the cooling device, the water pump being configured to circulate the water between the water tank and the cooling device. 2 . The gas generator of claim 1 , further comprising: a condense filter coupled to the water tank to receive the gas comprising hydrogen from the water tank, the condense filter being configured to filter the electrolyte out of the gas comprising hydrogen to form a filtered gas comprising hydrogen; and a humidification device coupled to the condense filter to receive the filtered gas comprising hydrogen, the humidification device being configured to contain a supplemental water for humidifying the filtered gas comprising hydrogen to form a humidified gas comprising hydrogen; wherein the condense filter is capable to receive the supplemental water from the humidification device to flush the electrolyte out of the condense filter. 3 . The gas generator of claim 2 , wherein the condense filter is capable to receive the supplemental water to flush the electrolyte back to the water tank. 4 . The gas generator of claim 2 , wherein the condense filter has a gas inlet via and a gas outlet via, the gas inlet via is coupled to the water tank for receiving the gas comprising hydrogen, and the gas outlet via is configured to output the filtered gas comprising hydrogen; wherein the gas outlet via of the condense filter is capable to receive the supplemental water to flush the electrolyte back to the water tank through the gas inlet via. 5 . The gas generator of claim 4 , wherein the condense filter comprises a plurality channels coupled between the gas inlet via and the gas outlet via, the condense filter further comprises a filter material disposed in the channels to filter the electrolyte out of the gas comprising hydrogen. 6 . The gas generator of claim 2 , wherein the humidification device comprises a container with a hollow space, a second pipe, and a outputting pipe, the container contains the supplemental water, the second pipe is coupled to the container for receiving the filtered gas comprising hydrogen, the outputting pipe is disposed in the hollow space and coupled to the second pipe, the surface of the outputting pipe has a plurality of vias for outputting the filtered gas comprising hydrogen into the supplemental water. 7 . The gas generator of claim 2 , further comprising a nebulized gas mixing tank coupled to the humidification device to receive the humidified gas comprising hydrogen, the nebulized gas mixing tank being configured to mix a nebulized gas generated by the nebulized gas mixing tank with the humidified gas comprising hydrogen. 8 . The gas generator of claim 1 , wherein the level of water in the first hollow portion of the water tank and the electrolysis device is higher than 90% of the full level of water of the water tank. 9 . The gas generator of claim 1 , wherein the electrolysis device comprises a plurality of electrodes and a pad disposed above a surface of each electrode, an electrode channel is formed between two adjacent electrodes such that a set of electrode channels are formed within the plurality of electrodes, the pad has a plurality of upper vias respectively corresponding to the set of electrode channels to output the gas comprising hydrogen to the water tank. 10 . The gas generator of claim 9 , wherein a bottom of the electrolysis device has a plurality of lower vias fluidly coupled to the set of electrode channels and the first hollow portion of the water tank. 11 . The gas generator of claim 10 , wherein the electrolysis device comprises a partition extending outward to divide the first hollow portion into an upper portion and a lower portion, so that the upper vias of the pad are fluidly coupled to the set of electrode channels and the upper portion of the first hollow portion, and the lower vias of the electrolysis device are fluidly coupled to the set of electrode channels and the lower portion of the first hollow portion. 12 . The gas generator of claim 1 , further comprising a microcomputer controller coupled to the water pump, wherein the microcomputer controller comprises a temperature sensor configured to detect the temperature of the water, and the microcomputer controller is configured to control an inputting flow rate and an outputting flow rate of the water pump according to the detected temperature of the water. 13 . The gas generator of claim 12 , wherein the microcomputer controller is configured to control the inputting flow rate and the outputting flow rate of the water pump to keep the temperature of the water between 55° C. to 65° C. 14 . A gas generator, comprising: an electrolysis device configured to electrolyze water to generate a gas comprising hydrogen; and a condense filter coupled to the electrolysis device to filter the electrolyte out of the gas comprising hydrogen to form a filtered gas comprising hydrogen; wherein the condense filter is capable to receive supplemental water to flush the electrolyte out of the condense filter. 15 . The gas generator of claim 14 , wherein the condense filter is capable to receive the supplemental water to flush the electrolyte back to the electrolysis device. 16 . The gas generator of claim 14 , further comprising a water tank for containing the water, wherein the electrolysis device is disposed in the water tank to receive the water from the water tank, and the condense filter is capable to receive the supplemental water to flush the electrolyte back to the water tank. 17 . The gas generator of claim 16 , further comprising a cooling device coupled to the water tank and a water pump coupled between the water tank and the cooling device, wherein the cooling device is configured to cool down the water in the water tank and the water pump is configured to circulate the water between the water tank and the cooling device.