Second stage Fischer-Tropsch reaction system to enhance the conversion of synthetic gas

摘要

A second stage Fischer-Tropsch reaction system to enhance a conversion ratio of a synthetic gas, includes, at least one first reactor that uses a Fe catalyst, receives a first synthetic gas extracted from a coal, biomass or natural gas, and reacts the first synthetic gas with the Fe catalyst to obtain a synthetic fuel, and a second reactor that uses a Fe.Co or Co catalyst, receives a second synthetic gas discharged from the first reactors after reaction, and reacts the second synthetic gas with the Fe.Co or Co catalyst to obtain a synthetic fuel.

主权项

1. A second stage Fischer-Tropsch reaction system to enhance a conversion ratio of a synthetic gas, comprising:
at least one first reactor for obtaining a synthetic fuel by reacting a Fe catalyst with a first synthetic gas extracted from a coal, biomass or natural gas, each first reactor including a first cooling pipe thereinside for preventing a rapid increase in temperature caused by heat generated during a reaction in the first reactor, wherein the first reactor receives the first synthetic gas having a H2/CO ratio of 0.6 to 1.2 and controls a CO conversion ratio in a range of 50 to 80% during the reaction by adjusting temperature and pressure of the first reactor and a superficial gas flow rate of the first synthetic gas; a second reactor for obtaining the synthetic fuel by reacting a Fe—Co or Co catalyst with a second synthetic gas discharged from the first reactors after the reaction, the second reactor including a second cooling pipe thereinside for preventing a rapid increase in temperature caused by heat generated during a reaction in the second reactor, wherein the second reactor receives the second synthetic gas having a H2/CO ratio of 1.8 to 2.0 discharged from the first reactor and controls the CO conversion ratio in a range of 90 to 95% by adjusting temperature and pressure of the second reactor and a superficial gas flow rate of the second synthetic gas; a connection line connecting an outlet pipe of the first reactor and an inlet pipe of the second reactor and conveying the second synthetic gas to the second reactor for reacting with the Fe.Co or Co catalyst stored in the second reactor; a first heat exchanger mounted on the connection line and collecting water and oil with a low melting point contained in the second synthetic gas into a first collection tank by cooling the second synthetic gas; and a second heat exchanger mounted on the connection pipe and heating the second synthetic gas cooled by the first heat exchanger upto a reaction temperature of the Fe.Co or Co catalyst; a first line connecting the first heat exchanger and an inlet of the first cooling pipe and conveying first cooling water supplied to the first heat exchanger for cooling the second synthetic gas to the first cooling pipe for cooling an inside of the first reactor; a second line connecting an outlet of the first cooling pipe and the second heat exchanger and conveying the first cooling water heated in and discharged from the first cooling pipe to the second heat exchanger for heating the second synthetic gas cooled in the first heat exchanger, the first cooling water in the second line being discharged in a form of water or steam to be used as another heat source; and a third line connecting an outlet of the second cooling pipe and the second line and conveying second cooling water discharged from the outlet of the second cooling pipe to the second line for increasing temperature of the first cooling water flowing into the second heat exchanger along the second line.