Inter-Task Project Synergies of Green Hydrogen and Bio-based Value Chains Deployment

Inter-Task project Synergies of green hydrogen and bio-based value chains deployment (T39 T6) Task 39 Business Meeting Franziska M ller-Langer, DBFZ Online| February 23, 2023 The IEA Bioenergy Technology Collaboration Programme (TCP) is organised under the auspices of the International Energy Agency (IEA) but is functionally and legally autonomous. Views, findings and publications of the IEA Bioenergy TCP do not necessarily represent the views or policies of the IEA Secretariat or its individual member countries.

Work Packages T39 project team T39 Franziska M ller-Langer (DE), Glaucia Souza (BR), Dina Bacovsky (AT), Tomas Ekbom (SE), Luiz Augusto Horta Nogueira (BR), Rubens Maciel (BR), Nicolaus Dahmen (DE); Marco Buffi (EC), Steve Rogers (AUS), Paul Benett (NZ) T39 T39 2 www.ieabioenergy.com

Timeline From June 2022 to November 2024 (30 months) Initial plan: From Jan 2022 to June 2024 (30 months) Note: WP 1+x Workshop proposed for end of March 2023 in Berlin First expert workshop in Oct 2022 Kick-off meeting June 2022 Work package / Project month WP 1 | Status quo of synergy value chains WP 2 | Case Studies on hydrogen from biomass WP 3 | Case Studies on hydrogen use in bio-based processes WP 4 | Synergies and services from hydrogen and bio-based value chains deployment WP 5 | Assessment and Synthesis WP 6 | Project management and dissemination x is workshop (either internal or with externals) R is report W is webinar PS is project status to ExCo 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 X R1 R2 W1 R2 W1 X R3 W2 R3 W2 PS PS PS PS PS 3 www.ieabioenergy.com

WPs T39 contribution WP 2 & 3 | Work in progress Report Renewable hydrogen and bioenergy: prospects in Brazil (Glaucia, Rubens, Luiz, Heitor): Considered cases: Hydrogen from ethanol reforming Electric vehicles with hydrogen fuel cells generated by reforming ethanol on-board Production of green ammonia using hydrogen produced by reforming biomethane generated in the biodigestion of ethanol vinasse Production of HVO and SAF with renewable hydrogen Work on initial list of case studies for WP 3 (Franziska with Glaucia, Marco, Nico): Considered cases: Pilot-SBG >> renewable methane/LNG PTG-HEFA >> HEFA SPK refuels >> Green refineries with focus on fuel production Omega Green >> hydrogen in HVO plants Further case studies from Australia and IEA AMF >> we can decide to include them later. 5 www.ieabioenergy.com

WPs T39 contribution WP 2 & 3 | Work in progress Project Project/ / company company WP 3 WP 3 contact contact Country Country Technology Technology TRL TRL Indication on commercial Indication on commercial availability of the availability of the technology TRL9 technology TRL9 today today 2030 2030 Feedstock Feedstock Products/ Products/ by by- -products products (energy, (energy, materials), pls materials), pls name name Technical Technical data data available available (Y/N) (Y/N) E Economic conomic data data available available (Y/N) (Y/N) Environ Environ- -mental data available data available (Y/N) (Y/N) mental specific comments related to the technology specific comments related to the technology to outline adv to outline advantages antages (e.g. hard (e.g. hard- -to to- -abate sectors), sectors), pls name pls name other system services (inte other system services (inte- -gration of VRE, CCS, CCU, etc.), VRE, CCS, CCU, etc.), pls pls name name gration of abate 1 1- -3 3 4 4- -5 5 6 6- -7 7 8 8- -9 9 2050 2050 c carbon arbon foot foot- - print print other other LCA LCA data data T32/ Morten F nen Denmark Biomass combustion with CCU T33/ Joakim T34/ Daniele LTU Green Fuels Silvagreen Fuel Pilot-SBG (pilot project) Sweden Hybrid biomass gasification and electrolysis process Upgrading of HTL oil Methanol/DME Y T39/ Franziska Germany electrolytical hydrogen in HVO/HEFA plants X (X) X RED Annex IX A Renewable methan Fertilizer, HTC products like biochar HEFA-SPK, HVO-Diesel, naphtha SAF, Marine fuels, Road transport fuels HVO, HEFA- SPK, green naphta Y Y Y Renewable methane for LNG for heavy duty road transport and marine Link to CCU via SynBioPTx T39/ Franziska PTG-HEFA (feasibility study) reFuels Germany and other regions Germany PTG-HEFA-SPK x x Different HEFA sources like veg oils, UCO Focus RED II Annex IX A Y Y Y Focus on aviation; study elaborated until 2017 Link to SynBioPTx T39/ Franziska&Ni colaus T39/ Glaucia Green refineries with focus on fuel production X (X) X Y Y Y Refinery approach based on renewable intermediates Omega Green advanced biofuel plant Paraquay electrolytical hydrogen in HVO plants x x N N N First information in report from Glaucia and colleagues from 12/22 e.g. currently being implemented by BSBios Paraguay, total production capacity of 20,000 barrels per day of HVO, SPK/SAF and green naphtha, startup foreseen for 2024 Link to SynBioPTx T40/ n.n. Replacing grey hydrogen with green hydrogen in biorefinery or chemical manufacturing processes Upgrading/ hydrodeoxygenation of lignin - T42/ Aris X X Lignocellulosic biomass/Ligni n Aromatic monomers/BT X/phenols/cycl oalkanes Yes Yes No No Opportunty of integration with Green Hydrogen. Obtaining of aromatic and/or cyclic compounds it s impossible to produce by other bio-based processes. Valorization of waste biorefinery/pulp industry streams (I.e. lignin). - In situ green hydrogen production allows to avoid transportation of green hydrogen and/or centralized bio-based processes. Opportunity to match wastewater streams and electrolyzers. X T42/ Aris Co-locating of electrolyzers and bio-based processes to make use of excess electricity from VRE sources X Each biomass Each process using green hydrogen Yes Yes No No T44/ Tilman Biogas upgrading by methanation Bio-LNG production via gasification with the option for flexible hydrogen addition 6 www.ieabioenergy.com T44/ Tilman

Contact Dr.-Ing. Franziska M ller-Langer Head of Department Biorefineries franziska.mueller-langer@dbfz.de | +49 341 2434 423 The IEA Bioenergy Technology Collaboration Programme (TCP) is organised under the auspices of the International Energy Agency (IEA) but is functionally and legally autonomous. Views, findings and publications of the IEA Bioenergy TCP do not necessarily represent the views or policies of the IEA Secretariat or its individual member countries.