Solar chemically recuperated gas turbine system

We claim: 1. A solar chemically recuperated gas turbine system comprising: an exhaust-gas reformer, a mixer, a heat recovery steam generator, a fuel compressor, a solar reformer, and a gas turbine unit with a combustion chamber and a gas turbine, wherein, a reaction side outlet of the exhaust-gas reformer is connected to an inlet of the solar reformer, a flue gas side inlet of the exhaust-gas reformer is connected to an exhaust-gas side of the gas turbine, and the exhaust-gas reformer is provided with a fuel inlet; the mixer is connected to a steam outlet of a water side of the heat recovery steam generator, the fuel inlet of the exhaust-gas reformer and an outlet of the fuel compressor, respectively; a flue gas side of the heat recovery steam generator is connected to a fuel side of the exhaust-gas reformer, and the heat recovery steam generator is provided with a feed water inlet; an outlet of the solar reformer is connected to an inlet of the combustion chamber, wherein combustion gas drives the gas turbine to work after fuel burns in the combustion chamber, and exhaust gas enters the exhaust-gas reformer; and the solar chemically recuperated gas turbine system is arranged such that feed water enters the heat recovery steam generator through the feed water inlet, evaporates into steam by heat of the exhaust gas, and enters the mixer, then the fuel and steam are mixed in the mixer and enter the reaction side of the exhaust-gas reformer through the fuel inlet, a reforming reaction between the fuel and the steam takes place under heating of the exhaust gas and generates syngas, and a further reforming reaction takes place by absorbing concentrated solar energy after the syngas enters the solar reformer, and reactant is provided for the combustion chamber. 2. The solar chemically recuperated gas turbine system according to claim 1 , further comprising an exhaust gas condenser, wherein, an exhaust gas outlet is provided at the flue gas side of the heat recovery steam generator, and the exhaust gas outlet is connected to the exhaust gas condenser; the exhaust gas emitted from the exhaust gas outlet enters the exhaust gas condenser, the steam in the exhaust gas condenses of the exhaust gas condenser, and condensed water is recycled. 3. The solar chemically recuperated gas turbine system according to claim 1 , wherein, at least one of the reaction side of the exhaust-gas reformer or the solar reformer is filled with nickel-based catalysts. 4. The solar chemically recuperated gas turbine system according to claim 1 , further comprising a solar air receiver, wherein, the solar air receiver is connected to the combustion chamber; and air enters the solar air receiver, enters the combustion chamber after being heated by concentrated sunlight, and then burns with the fuel. 5. The solar chemically recuperated gas turbine system according to claim 4 , further comprising a compressor module, wherein, the outlet of the compressor module is connected to the solar air receiver; the air enters the compressor module and enters the solar air receiver after being compressed. 6. The solar chemically recuperated gas turbine system according to claim 5 , wherein, the compressor module includes a low-pressure compressor, a high-pressure compressor, and an intercooler between the low-pressure compressor and the high-pressure compressor; the intercooler is configured to cool the compressed air from the low-pressure compressor. 7. The solar chemically recuperated gas turbine system according to claim 4 , wherein, the solar air receiver is selected from one or both of a tubular heat collector and a volumetric heat collector. 8. The solar chemically recuperated gas turbine system according to claim 4 , wherein, the concentrated sunlight of the solar air receiver is provided by one or more of a tower concentrator system, a dish concentrator system, a trough concentrator system, and a linear Fresnel concentrator system. 9. The solar chemically recuperated gas turbine system according to claim 1 , wherein, concentrated sunlight of the solar reformer is provided by one or more of a tower concentrator system, a dish concentrator system, a trough concentrator system, and a linear Fresnel concentrator system.