PEM Fuel Cells Manufacturing - Stack

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11 th October 2018 PEM Fuel Cells Manufacturing - Stack Richard Peart Head of Manufacturing Development 1

About Intelligent Energy A fuel cell engineering company focused on the development and commercialisation of its PEM fuel cell technologies for a range of markets including automotive, stationary power and UAVs. We are headquartered in the UK, with additional offices and representation in the US, Japan, India, and China. 22

Intelligent Energy fuel cells Two distinct architectures Air Cooled (AC) for low power applications Evaporatively Cooled (EC) for higher power Common advantages Low temperature Low noise Zero emission at point of use Scalable Robust, metallic plate construction Designed for manufacture 3

World-class facilities Access to state of the art, research, development and production facilities 2 semi automated stack production lines 600 square metres of fully hydrogen-enabled test space 90 test stations covering 5W-100kW power range systems 8 environmental chambers, including 2 walk in Close partnerships with 3rd party test houses Acoustic chamber facility 4

Our technology & Sectors Across a wide range of sectors and applications UAVs Motive Stationary Power AC64 fuel cell stack Our technology provides a unique solution Fuel cells offer extended flight times and quick refuelling Fuel cells are a natural solution for UAV manufacturers moving into larger UAVs with heavier payloads Our expertise opens up a range of opportunities in the motive sector, for range extenders and prime power Back-up power and diesel replacement, for telecom towers, construction and a range of other sectors Field proven in India, with a tower uptime of close to 100% The AC64 Air Cooled fuel cell runs on hydrogen and ambient air to produce clean DC power in a simple, cost-effective, robust and lightweight package. The modularity of our proprietary product design allows for scaling to meet precise customer power and form factor requirements. 5

Air Cooled Products Focusing on Air Cooled fuel cell technology up to 20kW AC64 fuel cell stack AC64 lightweight fuel cell stack Fuel cell power for UAVs Fuel Cell Modules FCM 801 Fuel Cell Modules FCM 802/4 6

ZERE Project and Metropolitan Police Scooter Trial Development a 4kW fuel cell system based on Intelligent Energy s air cooled architecture Exploitation of 4kW fuel cell system via 2 wheel scooters, partnered with Suzuki Fleet trial of five fuel cell scooters with Metropolitan Police Scooters based at Alperton (North West Traffic Unit), for the use of Police Community Support Officers within the Roads and Transport Policing Command Trial endorsed by Greater London Authority, running from Sept 2017 for 18 months 7

Evaporatively Cooled Technology 2015 100kW Primary Power Prototype OEM supercar 2008 10kW Range Extender PSA Peugeot Citroen 2012 30kW Range Extender London FC Taxi 2018 30-100kW+ Range Extender & Primary Power On and off-highway 8

Roadmap - Advancing Fuel Cell Stack Manufacturing 9

Advancing Manufacturing FCEVs are now entering the mainstream, but to drive continued adoption need to ensure fuel cell stacks are robustly productionised and remain cost competitive in the future Must be able to mass manufacture and produce in volume Key Drivers Reliability Durability Cost Efficiency Scalability 10

Advancing Manufacturing Stack Assembly & Test Transition to fully automated stack assembly and test, aligned with automotive best practices Key Enablers Format & handling of materials (e.g. flexible non-rigids) Reel-to-reel manufacture and component sub-assembly In-line inspection at production rate Materials non-uniformity classification cause & effects Digitised Quality Control, down-stream & up-stream Stack test handover QC & Commissioning at rate direct to line shipment 11

DIGIMAN addressing the challenge DIGIMAN = DIGItal MANufacturing and Proof-of-Process for Automotive Fuel Cells FCH-01.1-2016 topic: Manufacturing technologies for PEMFC stack components and stacks Start Date: January 2017 Duration: 36 months EU Contribution: 3.5M fully funded 12

DIGIMAN Project Consortium CEA Tech LITEN, France Project Coordinator & Materials Characterisation WP leader Intelligent Energy Ltd, United Kingdom Technical Coordinator & Digital Manufacturing WP leader Toyota Motor Corporation Europe, Belgium Requirement Setting & Proof of Process Measurement WP leader Freudenberg Performance Materials, Germany GDL Digital QC & Converting WP leader Warwick Manufacturing Group, United Kingdom Automated Cell Assembly PoP Development WP leader Pretexo, France Knowledge Management, Communication & Dissemination WP leader 13

Objectives of DIGIMAN programme Develop a ready to deploy, next generation automated assembly processes for next generation stacks Demonstrate automotive best practice creating a robust platform for PEM fuel cell stack production Integrate digital manufacturing techniques with advanced automated production technology to check and ensure the quality of production Develop digital cause & effects capabilities via Industry 4.0 methods Demonstrate for a single line a total stack power output of >5MW Establish integrated European supply chain for key fuel cell components Deliver operational and supply chain cost reduction 14

DIGIMAN Technical Interactions (Work Packages) 15

DIGIMAN Progress Digital QC & Digital Converting Digital Materials Characterisation Requirements Setting (Voice-of-the Customer) Energy Digital Manufacturing Digital Defect Classification Vision System GDL Defect Detection & Mapping GDL Characterisation Cell Assembly PoP Development Toyota Production System House Proof of Process Demonstrator > Blueprint Design 16

DIGIMAN Digital Manufacturing & Big Data Management 17

Summary Fuel cell manufacturing has started to address automotive standard QC requirements and scalability, which will also lead to further cost reduction opportunities Key enablers are: Novel handling techniques for none rigid light weight materials Reel-to-reel manufacture and sub-assemblies In-line QC inspection at rate Non-uniformity classification defect cause & effect Digital QC, Industry 4.0 through the supply chain and field operations Stack end-of-line QC / commissioning for direct to line shipment Europe is playing a full role with support of Government, NGOs and Industry, and by involvement in EU funded programmes such as DIGIMAN 18

Thank you 19

Disclaimer This presentation was prepared on behalf of Intelligent Energy Limited (the Company ) for information and discussion purposes. No reliance may be placed for any purposes whatsoever on the information contained in this presentation or on its completeness. The Company is not under any obligation to update or keep current the information contained in this presentation. No representation or warranty, express or implied, is given by or on behalf of the Company or its respective subsidiary undertakings, affiliates, respective agents or advisers or any of such persons affiliates, directors, officers or employees or any other person as to the fairness, accuracy or completeness of the information, or of the opinions, contained in this presentation and no liability is accepted for any such information or opinions. 20

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