Apparatus for generating power using synthetic gas according to the present invention includes equipment constructed and arranged to reform a hydrocarbon gas, material or biogas produced from a source into synthetic gas. Supply means are provided for supplying hydrocarbon gas, material or biogas fee
Apparatus for generating power using synthetic gas according to the present invention includes equipment constructed and arranged to reform a hydrocarbon gas, material or biogas produced from a source into synthetic gas. Supply means are provided for supplying hydrocarbon gas, material or biogas feedstock to a reformer contained in the equipment and the hydrocarbon material or biogas feedstock is produced by fuel producing apparatus by use of solar radiation. A gas turbine unit includes a compressor for producing compressed air, a combustor for combusting the synthetic gas and heating the compressed air to produce heated, compressed air, and a turbine coupled to a generator and to the compressor for expanding the heated, compressed air and producing power and hot exhaust gases. Further supply means are provided for supplying the synthetic gas produced by the equipment to the combustor, while a vaporizer preferably containing water is responsive to the hot exhaust gases produced by the gas turbine for producing steam. This steam can be used as process steam in, for example, an industrial process or in other cogeneration processes. Preferably, however, a steam turbine is provided for expanding steam produced by the vaporizer and producing power and expanded steam. In addition, a method for carrying out the present invention makes use of the above mentioned apparatus for generating power using synthetic gas.
대표청구항▼
Apparatus for generating power using synthetic gas according to the present invention includes equipment constructed and arranged to reform a hydrocarbon gas, material or biogas produced from a source into synthetic gas. Supply means are provided for supplying hydrocarbon gas, material or biogas fee
Apparatus for generating power using synthetic gas according to the present invention includes equipment constructed and arranged to reform a hydrocarbon gas, material or biogas produced from a source into synthetic gas. Supply means are provided for supplying hydrocarbon gas, material or biogas feedstock to a reformer contained in the equipment and the hydrocarbon material or biogas feedstock is produced by fuel producing apparatus by use of solar radiation. A gas turbine unit includes a compressor for producing compressed air, a combustor for combusting the synthetic gas and heating the compressed air to produce heated, compressed air, and a turbine coupled to a generator and to the compressor for expanding the heated, compressed air and producing power and hot exhaust gases. Further supply means are provided for supplying the synthetic gas produced by the equipment to the combustor, while a vaporizer preferably containing water is responsive to the hot exhaust gases produced by the gas turbine for producing steam. This steam can be used as process steam in, for example, an industrial process or in other cogeneration processes. Preferably, however, a steam turbine is provided for expanding steam produced by the vaporizer and producing power and expanded steam. In addition, a method for carrying out the present invention makes use of the above mentioned apparatus for generating power using synthetic gas. particulate filter are reversed. 10. The exhaust gas purifier according to claim 5, wherein it is determined that the discharge amount of particulates has become equal to or smaller than the set discharge amount as soon as it is judged that a clutch pedal has been depressed, and the upstream and downstream sides of the particulate filter are reversed. 11. The exhaust gas purifier according to claim 5, wherein an active oxygen discharging agent is carried on the collecting wall, and active oxygen discharged from the active oxygen discharging agent oxidizes particulates. 12. The exhaust gas purifier according to claim 11, wherein the active oxygen discharging agent absorbs and retains oxygen if there is an excessive amount of oxygen around, and discharges the retained oxygen in the form of active oxygen if the concentration of ambient oxygen decreases. 13. The exhaust gas purifier according to claim 5, wherein it is determined that the discharge amount of particulates has become equal to or smaller than the set discharge amount as soon as it is judged that the engine is being decelerated, and the upstream and downstream sides of the particulate filter are reversed. 14. The exhaust gas purifier according to claim 13, wherein it is judged upon detection of depression of a brake pedal that the engine is being decelerated. 15. The exhaust gas purifier according to claim 13, wherein it is judged upon detection of a decrease in the depression
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