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ICAO Global Aviation Partnerships on Emissions Reductions (E-GAP) Multiplying Environmental Action Project Associate Professor Hiroshi Shibutake, Center for Aviation Innovation Research, The University of Tokyo

First, JAL, ANA and NCA conducted a test flight with bio jet fuels. Type Boeing 747-300 Boeing 787-8 Boeing 747-8F Engines Pratt & Whitney Rolls Royce General Electric Day of flight Jan 30, 2009 Apr 16, 2012 Aug 02, 2012

INAF: Initiatives for Next-generation Aviation Fuels - 7 Steering members (UTokyo, Boeing, JAL, NCA, ANA, Narita Airport Corp., Japan Petroleum Exploration) - 46 member organizations from industry, administration, academy - 4 subcommittees for 6 raw materials and 6 plenary sessions for 1 year (May 2014-July 2015) Reported the Roadmap to establish a supply chain for nextgeneration aviation fuels by 2020, the year of Tokyo Olympics and Paralympics. (July 2015) A committee for implementation was established by JCAB(MLIT) and the Agency for Natural Resources and Energy(METI). http://inaf-japan.tumblr.com/tagged/english

Subcommittee 1: supply chains using municipal waste for the raw material Subcommittee 2: supply chains using oils produced by microalgae for the raw material Subcommittee 3: supply chains using other materials for the raw material Subcommittee 4: legal system

SC1 Municipal waste 3 methods on the table Waste > gas > FT synthesis > upgrading Waste > gas > ethanol > Alcohol to Jet (ATJ) Waste > dehydrated pulp > fermentation > ethanol > Alcohol to Jet (ATJ)

Chart 7: Roadmap for Supply of Next-Generation Aviation Fuel Using Municipal Waste as the Raw Material E-GAP Fiscal Opportunities Year Challenges < Formulation of business plan > 2015 Set up business entity for demonstration project, review plant concept, formulate business plan < Design, construction and trial operation of demonstration plant for production of 2016 next-generation aviation fuel (1) > Appropriately managing project Estimate cost of constructing demonstration plant, and construct the plant < Design, construction and trial operation of demonstration plant for production of next-generation aviation fuel (2) > Appropriately managing project 2017 Construct demonstration plant and prepare for trial operation Establishing trial operation framework < Increase in production scale (1) > Launch organization to study commercial plant project < Design, construction and trial operation of demonstration plant for production of next-generation aviation fuel (3) > Trial operation of demonstration plant < Production of next-generation aviation fuel (1) > 2018 Produce next-generation aviation fuel at demonstration plant < Increase in production scale (2) > Determine scale and site for construction of commercial project, and review systems for collecting municipal waste over a wide area < Production of next-generation aviation fuel (2) > Supply alternative aviation fuel which combines the fuel produced at the 2019 demonstration plant < Increase in production scale (3) > Prepare basic design of commercial plant < Production of next-generation aviation fuel (3) > Operate demonstration plant, conclude operations, and reassess them 2020 < Increase in production scale (4) > Make a determination on investment in commercial project 2021 ~ Roadmap for Supply of Next-Generation Aviation Fuel Using Municipal Waste < Increase in production scale (5) > Design, construct, operate and maintain commercial plant Ascertaining the specific properties of the mystical waste serving as a raw material, and selecting cleanup technology Appropriately managing project Analyzing results of demonstration plant operation Appropriately managing project Analyzing results of demonstration plant operation Reflecting the results of analysis of demonstration plant in the basic design for a commercial plant Conducting feasibility study for commercial project Reflecting the results of analysis of demonstration plant in the commercial project Soliciting and securing operators, investors and other parties to be involved in commercial project Establishing the business entity to produce next-generation aviation fuel using municipal waste as the raw material Advancing the commercial project to be undertaken by the business entity Notes: This is a roadmap organizing the path and issues to be addressed which are anticipated for producing next-generation aviation fuel and commencing the supply of alternative aviation fuel by FY 2020 on the basis of the review results produced by the First Subcommittee.

SC2 Microalgae Outdoors cultivation Breeding Collection Refining Jet Fuels Repeatable < microalgae existing in the nature are used Warm, sunny climate, broad area for growth Each microalgae produces different oil content Made by/in Japan

Chart 7: Roadmap for Supply of Next-Generation Aviation Fuel Using Municipal Waste as the Raw Material E-GAP Roadmap for Supply of Next-Generation Aviation Fuel Using Oil Produced from Microalgae Fiscal Year Opportunities <Formulation of business plan (1)> Increase productivity of microalgae cultivation 2015 Develop a process integrating the extraction of algae oil from cultivation and the production of next-generation aviation fuel from algae oil Determine locations suitable for cultivation < Formulation of business plan (2) > Increase productivity and formulate business plan which takes into account the 2016 integrated process Construct a demonstration level large volume cultivation facility at a site suited for cultivation < Design, construction and trial operation of demonstration plant for production of next-generation aviation fuel (1) > 2017 Review technology for low-cost, large volume and stable cultivation of microalgae Design and construct demonstration plant for production of next-generation aviation fuel < Design, construction and trial operation of demonstration plant for production of next-generation aviation fuel (2) > 2018 Conduct trial application of technology for low-cost, large volume and stable cultivation at a demonstration cultivation facility Design and construct demonstration plant for production of next-generation aviation fuel < Design, construction and trial operation of demonstration plant for production of next-generation aviation fuel (3) > 2019 demonstration project Construct and have trial operation of demonstration plant for production of nextgeneration aviation fuel < Production of next-generation aviation fuel > Cultivate microalgae and demonstration facility, and produce next-generation aviation 2020 < Increase in production scale (1) > Increase scale of microalgae cultivation taking into account the scale of the commercial project < Increase in production scale (2) > 2021 Advance commercial project which takes into account the scale of microalgae able to be ~ cultivated Increase scale of next-generation fuel production by increasing scale of cultivation Challenges Establishing technology for large volume and stable cultivation of microalgae Taking into account that the properties of algae oil produced differ depending on the type of microalgae, and conducting review on sharing processes when producing fuel from each of these algae oils Consolidating the issues to be addressed accompanying importation of algae oil into Japan Consolidating a process for sharing and a process for not sharing the processes for producing fuel from algae oils having different properties Appropriately managing project Appropriately managing project Appropriately managing project Analyzing results of demonstration plant operation Reflecting the results of analysis of demonstration plant in the commercial project Securing site for large volume cultivation Reducing cultivation costs in stages, and improving cultivation productivity by increasing cultivation scale Improving refining efficiency when producing next-generation aviation fuel from algae oil Notes: This is a roadmap organizing the path and issues to be addressed which are anticipated for producing next-generation aviation fuel and commencing the supply of alternative aviation fuel by FY 2020 on the basis of the review results produced by the Second Subcommittee.

SC3 Other materials 4 materials were picked up Natural oils (excluding waste food oil) Waste food oil Non-edible biomass (cellulosic sugar) Woody biomass How to collect in a large volume?

Roadmap for establishing a supply chain Fiscal year 2015 2016 2017 2018 2019 2020 2021 ~ Production of next-generation aviation fuels Items within squares are Opportunities Items in parentheses are Challenges Formulate business plan (demonstration project) Design, construct and have trial operation of demonstration plant for producing nextgeneration aviation fuels (demonstration project) Produce next-generation aviation fuels (demonstration project) Expand scale of production (commercial project) Determine plant size and construction location Verify applicable laws and systems Select and determine technology to be used Verify treatment of intellectual property rights Set up a business promotion framework Determine the defrayment of expenses and assignment of results Plan markets for by-products Etc. Prepare basic design and detailed design Procure materials, equipment, machinery, etc. Manage project Operate plant and establish maintenance system Establish markets for by-products Analyze results of demonstration plant ( production process, fuel quality ) Etc. Reflect results of analysis of demonstration project in commercial project Reduce production costs through system optimization and development of mass production technology Formulate business plan, and design, construct and have trial operation of commercial plant, produce next- (Raw material ) Municipal waste (ASTM standard ) FT-SPK (ATJ *) Micro algae Natural oils Used food oil Nonedible biomass Woody biomass HEFA-SPK HEFA-SPK HEFA-SPK (ATJ *) FT-SPK Handling in mixture, transport, airports, aircraft Notes: The size of the plant project increases in order from small to large beginning with lab, bench, demonstration and commercial. Here, an assumption that the size will increase beginning in FY 2021 has been taken into account, and the projects have been arranged so that a demonstration project is implemented by FY 2020 and a commercial project in FY 2021 or thereafter. The roadmap for each raw material is based on the results of reviews conducted by each subcommittee (see appendix (only Japanese version) pp. 76, 105, 135 and 136). Provisions for the ASTM standard ATJ have not been prescribed in D7566 Annex as of May 2015, but enactment of such provisions is anticipated in 2015 or 2016.

2020 for Japan - More interactions and exchanges with whole world during the Olympics and Paralympics 1964 First Olympics and Paralympics http://www.joc.or.jp/past_games/ tokyo1964/story/vol01_02.html First Shinkansen Hikari YS-11 carried the Flame http://blog.goo.ne.jp/mbne230/m/201505-2020 Tokyo http://y-onsensomurie.blog.sonet.ne.jp/2013-09-10 New Linear Shinkansen is under construction MRJ is Coming up

ICAO Partners multiplying environmentally sustainable aviation action Thank you.

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