wedon'tbelieveinwaste
24 Balfour Road Parnell Auckland NZ +64 9 304 2110 +64 9 929 3038781 Cailun Road Room 215 Zhangjiang HiTech Park Pudong Shanghai CHINA 201203 +86 21 50116322 +86 21 50116323 contact us >>
Carbon monoxide gas is produced in high volumes by the steel industry. Industrial waste gases contain elevated concentrations of carbon monoxide gas and little or no hydrogen-this is pumped out of the flue stacks and causes pollution. The LanzaTech Process captures the gas and uses it as a resource. Another resource LanzaTech uses is syngas. The LanzaTech process is feedstock agnostic -ANY biomass resource (municipal waste, organic industrial waste (tyres), waste wood can be used as a feedstock to produce syngas. The gasification process breaks down the chemical bonds in the biomass making up to 80% of the energy available for fermentation. The carbon monoxide containing gases are then scrubbed, cooled and sent to a bioreactor.The carbon component is used as a food source for the proprietary LanzaTech microbes during the biofermentation process. The microbes use this energy to produce liquid biofuel. Once product recovery has taken place, the liquid biofuel produced can be used as a high octane premium fuel.
Carbon monoxide gas is produced in high volumes by the steel industry. Industrial waste gases contain elevated concentrations of carbon monoxide gas and little or no hydrogen-this is pumped out of the flue stacks and causes pollution.
The LanzaTech Process captures the gas and uses it as a resource. Another resource LanzaTech uses is syngas. The LanzaTech process is feedstock agnostic -ANY biomass resource (municipal waste, organic industrial waste (tyres), waste wood can be used as a feedstock to produce syngas. The gasification process breaks down the chemical bonds in the biomass making up to 80% of the energy available for fermentation.
The carbon monoxide containing gases are then scrubbed, cooled and sent to a bioreactor.The carbon component is used as a food source for the proprietary LanzaTech microbes during the biofermentation process. The microbes use this energy to produce liquid biofuel. Once product recovery has taken place, the liquid biofuel produced can be used as a high octane premium fuel.
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