초록 ▼

A system or method for producing gasoline or dimethyl ether from natural gas via methanol includes: steam-reforming natural gas to generate reformed gas; synthesizing methanol from the reformed gas; synthesizing gasoline or dimethyl ether from the methanol; and at least one is selected from the grou

A system or method for producing gasoline or dimethyl ether from natural gas via methanol includes: steam-reforming natural gas to generate reformed gas; synthesizing methanol from the reformed gas; synthesizing gasoline or dimethyl ether from the methanol; and at least one is selected from the group consisting of: pre-reforming natural gas prior to the steam-reforming; recovering carbon dioxide from flue gas generated in the steam-reforming; and preheating combustion air to be supplied to the steam-reforming by using synthesis heat generated in the synthesis of gasoline or dimethyl ether. In addition, an overall energy balance of the system is constructed by using heat recovery from flue gas generated in the steam-reforming, heat recovery from the reformed gas, synthesis heat generated in the synthesis of methanol, synthesis heat generated in the synthesis of gasoline or DME, and heat recovered in the pre-reforming, carbon dioxide recovering, or air preheating, respectively if selected.

대표청구항 ▼

1. A system for producing gasoline or dimethyl ether from natural gas via methanol, comprising: a steam-reforming device for generating reformed gas by steam-reforming natural gas;a flue gas-steam heat exchanger for obtaining steam or heat to be used within the system by recovering heat from a flue

1. A system for producing gasoline or dimethyl ether from natural gas via methanol, comprising: a steam-reforming device for generating reformed gas by steam-reforming natural gas;a flue gas-steam heat exchanger for obtaining steam or heat to be used within the system by recovering heat from a flue gas generated in a burning portion of the steam-reforming device;a methanol synthesis device for synthesizing methanol from the reformed gas generated by the steam reforming device;a reformed gas-steam heat exchanger for obtaining steam or heat to be used within the system by recovering heat from the reformed gas which is not yet supplied to the methanol synthesis device;a gasoline or dimethyl ether synthesis device for synthesizing gasoline or dimethyl ether from the methanol synthesized by the methanol synthesis device; and a pre-reforming device for pre-reforming the natural gas prior to the steam-reforming of the natural gas;a first heat exchanger for preheating the natural gas which is not yet supplied to the pre-reforming device by the flue gas generated from the steam reforming device; anda second heat exchanger for preheating the pre-reformed natural gas discharged from the pre-reforming device by the flue gas generated from the steam reforming device,wherein an overall energy balance of the system comprising an amount of fuel supplied to the burning portion of the steam reforming device, heat recovered by the flue gas-steam heat exchanger, heat recovered by the reformed gas-steam heat exchanger, synthesis heat generated in the methanol synthesis device, synthesis heat generated in the gasoline or dimethyl ether synthesis device, and steam or heat to be used within the system is self-balanced by reducing the amount of the fuel supplied to the burning portion of the steam reforming device for the installation of the pre-reforming device to the system, and by using the synthesis heat generated in the gasoline or dimethyl ether synthesis device to compensate for a decrease in the heat recovered by the flue gas-steam heat exchanger for heat recovered by the first and second heat exchangers to the system to obtain steam or heat to be used within the system. 2. The system according to claim 1, further comprising: a carbon dioxide recovery device for absorbing and removing carbon dioxide from flue gas of the steam reforming device by bringing CO2 absorbing liquid into gas-liquid contact with the flue gas to recover carbon dioxide from the flue gas; anda carbon dioxide supply line for supplying the recovered carbon dioxide gas from the carbon dioxide recovery device to the methanol synthesis device,wherein the overall energy balance of the system is further self-balanced by increasing the production of methanol for the installations of the carbon dioxide recovery device and the carbon dioxide supply line to increase the synthesis heat generated in the methanol synthesis device and the synthesis heat generated in the gasoline or dimethyl ether synthesis device, and by consuming the energy for the carbon dioxide recovery device. 3. The system according to claim 1, further comprising: a flue gas-combustion air heat exchanger for preheating combustion air to be supplied to the steam-reforming device by the flue gas generated from the steam reforming device;a combustion air introduction line for introducing the preheated combustion air to the gasoline or dimethyl ether synthesis device; andan air preheating device for further preheating the preheated combustion air by the synthesis heat generated from the gasoline or dimethyl ether synthesis device,wherein the overall energy balance of the system is further self-balanced by reducing the amount of the fuel supplied to the burning portion of the steam reforming device for the installations of the air preheating device, the combustion air introduction line and the flue gas-combustion air heat exchanger, and by using the synthesis heat generated in the gasoline or dimethyl ether synthesis device to compensate for a decrease in the heat recovered by the flue gas-steam heat exchanger for heat recovered by the flue gas-combustion air heat exchanger to obtain steam or heat to be used within the system. 4. The system according to claim 2, further comprising: a flue gas-combustion air heat exchanger for preheating combustion air to be supplied to the steam-reforming device by the flue gas generated from the steam reforming device;a combustion air introduction line for introducing the preheated combustion air to the gasoline or dimethyl ether synthesis device; andan air preheating device for further preheating the preheated combustion air by the synthesis heat generated from the gasoline or dimethyl ether synthesis device,wherein the overall energy balance of the system is further self-balanced by reducing the amount of the fuel supplied to the burning portion of the steam reforming device for the installations of the air preheating device, the combustion air introduction line and the flue gas-combustion air heat exchanger, and by using the synthesis heat generated in the gasoline or dimethyl ether synthesis device to compensate for a decrease in the heat recovered by the flue gas-steam heat exchanger for heat recovered by the flue gas-combustion air heat exchanger to obtain steam or heat to be used within the system. 5. A system for producing gasoline or dimethyl ether from natural gas via methanol, comprising: a steam-reforming device for generating reformed gas by steam-reforming natural gas;a flue gas-steam heat exchanger for obtaining steam or heat to be used within the system by recovering heat from a flue gas generated in a burning portion of the steam-reforming device;a methanol synthesis device for synthesizing methanol from the reformed gas generated by the steam reforming device;a reformed gas-steam heat exchanger for obtaining steam or heat to be used within the system by recovering heat from the reformed gas which is not yet supplied to the methanol synthesis device;a gasoline or dimethyl ether synthesis device for synthesizing gasoline or dimethyl ether from the methanol synthesized by the methanol synthesis device;a carbon dioxide recovery device for absorbing and removing carbon dioxide from flue gas of the steam reforming device by bringing CO2 absorbing liquid into gas-liquid contact with the flue gas to recover carbon dioxide from the flue gas; anda carbon dioxide supply line for supplying the recovered carbon dioxide gas from the carbon dioxide recovery device to the methanol synthesis device, in the case of selecting the carbon dioxide recovery device,wherein an overall energy balance of the system comprising an amount of fuel supplied to the burning portion of the steam reforming device, heat recovered by the flue gas-steam heat exchanger, heat recovered by the reformed gas-steam heat exchanger, synthesis heat generated in the methanol synthesis device, synthesis heat generated in the gasoline or dimethyl ether synthesis device, and steam or heat to be used within the system is self-balanced by increasing the production of methanol for the installations of the carbon dioxide recovery device and the carbon dioxide supply line to increase the synthesis heat generated in the methanol synthesis device and the synthesis heat generated in the gasoline or dimethyl ether synthesis device, and by consuming the energy for the carbon dioxide recovery device. 6. The system according to claim 5, further comprising: a flue gas-combustion air heat exchanger for preheating combustion air to be supplied to the steam-reforming device by the flue gas generated from the steam reforming device;a combustion air introduction line for introducing the preheated combustion air to the gasoline or dimethyl ether synthesis device; andan air preheating device for further preheating the preheated combustion air by the synthesis heat generated from the gasoline or dimethyl ether synthesis device,wherein the overall energy balance of the system is further self-balanced by reducing the amount of the fuel supplied to the burning portion of the steam reforming device for the installations of the air preheating device, the combustion air introduction line and the flue gas-combustion air heat exchanger, and by using the synthesis heat generated in the gasoline or dimethyl ether synthesis device to compensate for a decrease in the heat recovered by the flue gas-steam heat exchanger for heat recovered by the flue gas-combustion air heat exchanger to obtain steam or heat to be used within the system. 7. A system for producing gasoline or dimethyl ether from natural gas via methanol, comprising: a steam-reforming device for generating reformed gas by steam-reforming natural gas;a flue gas-steam heat exchanger for obtaining steam or heat to be used within the system by recovering heat from a flue gas generated in a burning portion of the steam-reforming device;a methanol synthesis device for synthesizing methanol from the reformed gas generated by the steam reforming device;a reformed gas-steam heat exchanger for obtaining steam or heat to be used within the system by recovering heat from the reformed gas which is not yet supplied to the methanol synthesis device;a gasoline or dimethyl ether synthesis device for synthesizing gasoline or dimethyl ether from the methanol synthesized by the methanol synthesis device;a flue gas-combustion air heat exchanger for preheating combustion air to be supplied to the steam-reforming device by the flue gas generated from the steam reforming device;a combustion air introduction line for introducing the preheated combustion air to the gasoline or dimethyl ether synthesis device; andan air preheating device for further preheating the preheated combustion air by the synthesis heat generated from the gasoline or dimethyl ether synthesis device,wherein an overall energy balance of the system comprising an amount of fuel supplied to the burning portion of the steam reforming device, heat recovered by the flue gas-steam heat exchanger, heat recovered by the reformed gas-steam heat exchanger, synthesis heat generated in the methanol synthesis device, synthesis heat generated in the gasoline or dimethyl ether synthesis device, and steam or heat to be used within the system is self-balanced by reducing the amount of the fuel supplied to the burning portion of the steam reforming device for the installations of the air preheating device, the combustion air introduction line and the flue gas-combustion air heat exchanger, and by using the synthesis heat generated in the gasoline or dimethyl ether synthesis device to compensate for a decrease in the heat recovered by the flue gas-steam heat exchanger for heat recovered by the flue gas-combustion air heat exchanger to obtain steam or heat to be used within the system.