US2020056304A1PendingUtilityA1
Carbon fibers which can be produced regeneratively or part-regeneratively from co2 using combined production methods
Est. expiryNov 1, 2036(~10.3 yrs left)· nominal 20-yr term from priority
C08F 120/44C08F 220/44D01F 9/22C12P 7/20C12N 1/12C12P 7/6445Y02T50/678Y02E50/10
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Claims
Abstract
The invention relates to carbon fibers which are produced from CO2 based on different process chains. Amongst these, there are ways to produce, from natural base materials such as algal biomass, carbon fibre base materials such as PAN from CO2, but there are also purely artificial ways to produce, by means of Fischer-Tropsch synthesis, via which carbon fibre precursors are also produced from CO2. Auxiliary products such as biodiesel and nutrients, which can generate an additional benefit, are produced according to said method.
Claims
exact text as granted — not AI-modified1 . Carbon fibers, characterized in that the polyacrylonitrile required for the production of carbon fibers is being derived from algal biomass triglycerides from which via glycerol methanol is being obtained via the GtM process and then via the mobile process propylene is being derived from the methanol, and then from the propylene acrylonitrile is being derived via the Sohio process and finally polyacrylonitrile is being derived,
or the polyacrylonitrile is being derived from the biomass gasification via a BtL process from synthesis gas, via the methanol synthesis and via the mobile process to propylene, to form acrylonitrile via the Sohio process, or the polyacrylonitrile in being derived from the conversion of triglycerides on one hand to methanol and on the other hand via the by-product biodiesel and its conversion via autothermal reforming—AtR—into synthesis gas and its conversion via methanol synthesis of this share of the production of methanol as well, followed by the entire methanol conversion into propene via the mobile process and then being converted into acrylonitrile using the Sohio process, or the polyacrylonitrile is being obtained using Fischer-Tropsch-Synthesis to form methanol, from this propene being obtained via the Mobil process, as well as forming acrylonitrile from propene via the Sohio process and subsequent polymerization to polyacrylonitrile, or the polyacrylonitrile needed for carbon fiber production is obtained by a combination of these processes.
2 . Carbon fibers according to claim 1 , characterized in that the process required for the polyacrylonitrile synthesis process is supplied with the necessary oxygen from the required electrolysis for the Fischer-Tropsch process.
3 . Carbon fibers according to claim 1 , characterized in that the required CO2 for the polyacrylonitrile synthesis originates from the flue gases from fossil power plants, from process-related CO2 emissions from steel, cement and aluminum production or from natural sources such as air.
4 . Carbon fibers according to claim 1 , characterized in that the required CO2 for the polyacrylonitrile synthesis originates from the flue gases of renewable biodiesel power plants and thus comes to 100% from natural sources.
5 . Carbon fibers according to claim 1 , characterized in that the required CO2 for the synthesis of polyacrylonitrile originates from the flue gases from natural biomass based electricity production.
6 . Carbon fibers according to claim 1 , characterized in that the required electricity for the Fischer-Tropsch synthesis originates from biomass used for electricity production or other renewable electrical power sources such as wind and PV systems.Cited by (0)
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