TH155628A - Efficient cogeneration processes and systems using steam, gas based biomass production and metallurgy. - Google Patents

Abstract

DC60 (29/02/16) This current invention provides efficient gas-steam cogeneration processes and systems using Biomass production and methanation including biomass production unit, transport unit, purification unit Methanation Unit and Methane Concentration Unit Gas generating unit uses air flow bed Local external high temperature heat source, which can efficiently develop CO and H2 gas components and improve biomass production efficiency. Gas generating units can reduce the amount of tar produced. At high temperatures Improved carbon conversion rates and reduced investment in tar removal equipment in methanation processes. The CO conversion efficiency is up to 100% and the H2 conversion efficiency reaches 99%. In addition, the medium pressure superheated steam is a large number of side effects and the The energy consumption of the compressor creates a reduced circulation in the traditional methanation reaction. The present invention has the advantage that biomass energy can be converted to clean natural gas. The heat value is high and is convenient to use. And large amounts of heat released in biomass production and methanation can be used. Efficiently new through high quality superheated steam production mode Revised Invention Summary 29/02/2016 This present invention provides efficient steam, gas cogeneration processes and systems using Biomass production and methanation including biomass production unit, transport unit, purification unit Methanation Unit and Methane Concentration Unit The gas generating unit uses an air feed bed. Local external high temperature heat source, which can efficiently develop CO and H2 gas components and improve biomass production efficiency. Gas generating units can reduce the amount of tar produced at temperature, improve the carbon conversion rate, and reduce the investment in tar removal equipment in the metallurgy process. The CO conversion efficiency is up to 100% and the H2 conversion efficiency reaches 99%. In addition, the medium pressure superheated steam is a large number of side effects and the The energy consumption of the compressor creates a reduced circulation in the traditional methanation reaction. The present invention has the advantage that biomass energy can be converted to clean natural gas. The heat value is high and is convenient to use. And large amounts of heat released in biomass production and methanization can be used. Efficiently new through high quality superheated steam production mode -------------------------------------------------- ------------------- This present invention provides efficient steam, gas, process and cogeneration systems using Biomass production and methanation including biomass production unit, transport unit, purification unit Methanation Unit and Methane Concentration Unit The gas generating unit uses an air flow bed. Local high temperature heating, which can effectively develop CO and H2 gas components and improve biomass production efficiency. Gas generating units can reduce the amount of tar produced at high temperatures, improve the carbon conversion rate, and reduce the investment in tar removal equipment in the metallurgy process. The CO conversion efficiency is up to 100% and the H2 conversion efficiency reaches 99%. In addition, the medium pressure superheated steam is a large number of side effects and The energy consumption of the compressor, generating circulation in the traditional moutation reaction is reduced, the present invention has the advantage that biomass energy can be converted to clean natural gas. The heat value is high and is convenient to use. And a large amount of heat released in biomass production and metallurgy can be used. Efficiently new through high quality superheated steam production mode

Claims (1)

: DC60 (29/02/16) This current invention provides efficient gas-steam cogeneration processes and systems using Biomass production and methanation including biomass production unit, transport unit, purification unit Methanation Unit and Methane Concentration Unit Gas generating unit uses air flow bed Local external high temperature heat source, which can efficiently develop CO and H2 gas components and improve biomass production efficiency. Gas generating units can reduce the amount of tar produced. At high temperatures Improved carbon conversion rates and reduced investment in tar removal equipment in methanation processes. The CO conversion efficiency is up to 100% and the H2 conversion efficiency reaches 99%. In addition, the medium pressure superheated steam is a large number of side effects and the The energy consumption of the compressor creates a reduced circulation in the traditional methanation reaction. The present invention has the advantage that biomass energy can be converted to clean natural gas. The heat value is high and is convenient to use. And large amounts of heat released in biomass production and methanation can be used. Efficiently new through high quality superheated steam production mode Revised Invention Summary 29/02/2016 This present invention provides efficient steam, gas cogeneration processes and systems using Biomass production and methanation including biomass production unit, transport unit, purification unit Methanation Unit and Methane Concentration Unit The gas generating unit uses an air feed bed. Local external high temperature heat source, which can efficiently develop CO and H2 gas components and improve biomass production efficiency. Gas generating units can reduce the amount of tar produced at temperature, improve the carbon conversion rate, and reduce the investment in tar removal equipment in the metallurgy process. The CO conversion efficiency is up to 100% and the H2 conversion efficiency reaches 99%. In addition, the medium pressure superheated steam is a large number of side effects and the The energy consumption of the compressor creates a reduced circulation in the traditional methanation reaction. The present invention has the advantage that biomass energy can be converted to clean natural gas. The heat value is high and is convenient to use. And large amounts of heat released in biomass production and methanation can be used. Efficiently new through high quality superheated steam production mode -------------------------------------------------- ------------------- This present invention provides efficient steam, gas, process and cogeneration systems using Biomass production and methanation including biomass production unit, transport unit, purification unit Methanation Unit and Methane Concentration Unit The gas generating unit uses an air flow bed. Local high temperature heating, which can effectively develop CO and H2 gas components and improve biomass production efficiency. The gas generating unit can reduce the amount of tar produced at high temperatures, improve the carbon conversion rate, and reduce the investment in tar removal equipment in the metallurgy process. The CO conversion efficiency is up to 100% and the H2 conversion efficiency reaches 99%. In addition, the medium pressure superheated steam is a large number of side effects and The energy consumption of the compressor, generating circulation in the traditional moutation reaction is reduced, the present invention has the advantage that biomass energy can be converted to clean natural gas. The heat value is high and is convenient to use. And a large amount of heat released in biomass production and metallurgy can be used. Efficient new through high quality superheated steam production mode (Item one) which will appear on the advertisement page: edit 29/02/2016 1.Gas steam cogenerate using gas production and biomass methanation This method consists of 1) biomass production: mixing oxygen and steam produced from an air separation plant with biomass, delivering the resulting mixture through a nozzle to the gasifier. Temperature biomass gasification 1500-1,800? C and pressure 1-3 MPa to tag: