User talk:SAF Brazil

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Roadmap Creators: [1], [2] and [3]

Time Stamp: XX December 2024

Technology Roadmap Sections and Deliverables

Our technology roadmap identifier is shown as:

  • 3BSSAF - Brazil Solution - Sustainable Aviation Fuel

This indicates that we are dealing with a “level 3” roadmap at the product level, where “level 1” would indicate a market level roadmap, "level 2" would indicate our SAF Production and “level 3” or “level 4” would indicate an individual technology roadmap.

Roadmap Overview

(ADD OVERVIEW OF PROJECT)

Figure-2 SAF-roadmap.jpg



Design Structure Matrix (DSM) Allocation

Saf tree.png 

(DESCRIBE THE DSM)

Roadmap Model using OPM

The Object-Process-Model (OPM) of the 2SAF - Sustainable Aviation Fuel roadmap is presented in the figure with the Object-Process-Language (OPL) below.

SAF OPD v1.jpeg


Figures of Merit

(ADD)


Alignment with Company Strategic Drivers

Positioning of Company vs. Competition

Technical Model

CO2-eq emission model


Fuel consumption model


Feedstock availability model


Technical model integration


Financial Model

List of R&D Projects

Key Publications, Presentations and Patents

Technology Strategy Statement

Saf swoosh chart.png

References

[1] C. Bergero, G. Gosnell, D. Gielen, S. Kang, M. Bazilian and S. J. Davis, "Pathways to net-zero emissions from aviation," Nature Sustainability, vol. 6, no. 4, pp. 404-414, 2023.
[2] E. G. O'Rear, W. Jones, G. Bower, E. Wimberger and J. Larsen, "Sustainable Aviation Fuels: The Key to Decarbonizing Aviation," Rhodium Group, 2022.
[3] U.S. Department of Energy, "Alternative Fuels Data Center: Sustainable Aviation Fuel," U.S. Department of Energy, [Online]. Available: https://afdc.energy.gov/fuels/sustainable_aviation_fuel.html. [Accessed 1 December 2023].
[4] N. Detsios, S. Theodoraki, L. Maragou, K. Atsonios, P. Grammelis and N. G. Orfanoudakis, "Recent advances on alternative aviation fuels/pathways: A critical review," Energies, vol. 16, no. 4, p. 1904, 2023.
[5] B. Ausilio , N. Bitossi, L. German, A. Harris and K. Leow, "Sustainable Aviation Fuels : Status, challenges and prospects of drop-in liquid fuels, hydrogen and electrification in aviation," Johnson Matthey Technology Review, vol. 64, no. 3, pp. 263-278, 2020.
[6] Internal Revenue Service, "Sustainable Aviation Fuel Credit | Internal Revenue Service," Internal Revenue Service, 2023. [Online]. Available: https://www.irs.gov/credits-deductions/businesses/sustainable-aviation-fuel-credit#:~:text=Amount%20of%20Credit,that%20the%20reduction%20exceeds%2050%25.. [Accessed 1 December 2023].
[7] Y. Kroyan, M. Wojcieszyk, O. Kaario and M. Larmi, "Modeling the impact of sustainable aviation fuel properties on end-use performance and emissions in aircraft jet engines," Energy, vol. 255, p. 124470, 2022.
[8] C. Wolff and D. Riefer, "Clean skies for tomorrow: Sustainable aviation fuels as a pathway to net-zero aviation," in Proceedings of the World Economic Forum, Davos-Klosters, 2020.
[9] McKinsey, "Clean Skies for Tomorrow: Guidelines for a Sustainable Aviation Fuel Blending Mandate in Europe," 2021.
[10] grants.gov, "VIEW GRANT OPPORTUNITY," 25 September 2023. [Online]. Available: https://grants.gov/search-results-detail/350315. [Accessed 1 December 2023].
[11] Mordor Intelligence, "North American Aviation Market Size & Share Analysis," Mordor Intelligence, 2023.
[12] Mordor Intelligence, "European Airline Industry Size & Share Analysis - Growth Trends & Forecasts," Mordor Intelligence, 2023.
[13] M. Wang, R. Dewil, K. Maniatis, J. Wheeldon, T. Tan, J. Baeyens and Y. Fang, "Biomass-derived aviation fuels: Challenges and perspective," Progress in Energy and Combustion Science, vol. 74, pp. 31-49, 2019.
[14] E. Lotero, K. Fjare, T. Shi, S. Pansare and Y. Bao, "Transportation Fuels from Biomass Oxygenates". USA Patent US8629310B2, 14 January 2014.
[15] A. Schirmer, M. A. Rude, X. Li and S. B. Del Cardayre, "Microbial biosynthesis of alkanes," Science, vol. 329, no. 5991, pp. 559-562, 2010.
[16] Y. J. Choi and S. Y. Lee, "Microbial production of short-chain alkanes," Nature, vol. 502, no. 7472, pp. 571-574, 2013.
[17] K. Kackner, H-J Ziock and P. Grimes, "Carbon Dioxide Extraction from Air: Is It An Option?," InProceedings of the 24th Annual TechnicalConference on Coal Utilization&Fuel System, LA-UR-99-0583,1999.
[18] Y. J. Choi and S. Y. Lee, "Microbial production of short-chain alkanes," Energy Convers. Manag., vol. 292, 117427, 2023.
[19] C. Gebald, W. Meier, N. Repond, T. Ruesch, J. A. Wurzbacher, "Direct air capture device". USA Patent US20170106330A1, 20 April 2017.