Assessment of conceivable CCU technologies for Austria
Research output: Thesis › Master's Thesis
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2024.
Research output: Thesis › Master's Thesis
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TY - THES
T1 - Assessment of conceivable CCU technologies for Austria
AU - Knaak, Alexander
N1 - no embargo
PY - 2024
Y1 - 2024
N2 - The utilization of carbon dioxide in production processes, targeted for implementation by 2030 or 2040, necessitates timely technological readiness and a substantial impact on greenhouse gas reduction compared to conventional manufacturing methods. Within this context, a comprehensive literature review has identified ten distinct CCU technologies, presenting their methodologies and possible operational conditions. Aligned with national objectives, climate target compatibility criteria are formulated for comparative analysis and to determine technology-specific emission factors. These factors, in conjunction with emissions data from domestic operators, highlight the value of CO2 as an alternative raw material and potential GHG emission savings through a substitution approach. Furthermore, this thesis explores considerations and challenges involved in selecting suitable CCU pathways, tracing the journey of carbon dioxide from its origin to its re-release at the end of a product's lifecycle.
AB - The utilization of carbon dioxide in production processes, targeted for implementation by 2030 or 2040, necessitates timely technological readiness and a substantial impact on greenhouse gas reduction compared to conventional manufacturing methods. Within this context, a comprehensive literature review has identified ten distinct CCU technologies, presenting their methodologies and possible operational conditions. Aligned with national objectives, climate target compatibility criteria are formulated for comparative analysis and to determine technology-specific emission factors. These factors, in conjunction with emissions data from domestic operators, highlight the value of CO2 as an alternative raw material and potential GHG emission savings through a substitution approach. Furthermore, this thesis explores considerations and challenges involved in selecting suitable CCU pathways, tracing the journey of carbon dioxide from its origin to its re-release at the end of a product's lifecycle.
KW - climate change mitigation
KW - GHG emissions
KW - CCU
KW - LCA
KW - technology readiness level
KW - industry
KW - Austria
KW - Klimaschutz
KW - Treibhausgasemissionen
KW - CCU
KW - Industrie
KW - Österreich
KW - LCA
KW - TRL
U2 - 10.34901/mul.pub.2024.162
DO - 10.34901/mul.pub.2024.162
M3 - Master's Thesis
ER -