Project POWER-UP Dr Suzannah Hexter

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Project POWER-UP Dr Suzannah Hexter Fuel Cell and Hydrogen Technical Conference 2017 www.afcenergy.com

Contents 01 Overview of AFC Energy 02 Project POWER-UP 03 Project POWER-UP: The Site 04 Project POWER-UP: The Fuel Cell Stack 05 Project POWER-UP: The Balance of Plant 06 Project POWER-UP: Project Highlights www.afcenergy.com 2

Overview of AFC Energy

Overview of AFC Energy AFC Energy is the world s leading developer of industrial scale alkaline fuel cells Formed in 2006, publicly listed on AIM since 2007 Global strategic partnerships with leading electro-chemical and engineering companies AFC Energy is edging increasingly closer to delivery of a commercial-scale fuel cell system capable of deployment across a range of markets. Key technical objectives not only short-term operational success, but also longevity, safety and stability of power supply across the life of the project www.afcenergy.com 4

Technology Overview Simple 98 patents covering key technology Basic modular design Standard industrial materials Low-cost scale-up to automated manufacturing Designed for reuse or recycling AFC KORE module, both as a 3D model and in assembly Ease of Operations and Maintenance www.afcenergy.com 5

Technology Development timeline Stepped development towards realisation of KORE standardised design basis - supports further scaling Alpha 2009 Beta 2012 Next step to complete detail design for 1MW facility KORE 2015 (240 kw) www.afcenergy.com 6

02 Project POWER-UP

Project POWER-UP, Stade - Germany POWER-UP is one of the EU Fuel Cell and Hydrogen Joint Undertaking s stationary fuel cell demonstration projects. This FCH JU co-funded project has a budget of 11.5 million and a scheduled duration of 51 months, starting in April 2013 and concluding in June 2017. Objectives for the project include: 1.Converting industrial grade hydrogen into electricity at competitive prices 2.Scale-up manufacture of fuel cell components to meet ISO standards 3.Demonstrate and validate the automated manufacturing processes to assemble fuel cell components into stacks 4.Verify installation and commissioning times (costs) for the system are reduced, by the development of the modular, containerised Balance of Plant 5.Effective recycling/reconditioning of fuel cell components www.afcenergy.com 8

Project POWER-UP Consortium Partner No. Partner Name Contribution Logo Country Project Coordinator AFC Energy plc Technology and plant owner UK 2 Air Products plc 3 Zentrum fur Brennstoffzellentechnik ZBT Gmbh 4 GB Innomech Limited Site provision & infrastructure support, hydrogen supply CE Marking, Independent data validation Manufacturing automation UK Germany UK 5 Paul Scherrer Life cycle and cost analysis Switzerland 6 FAST in cooperation with European Hydrogen Association Project dissemination www.afcenergy.com 9 Italy

Other key participants Company Foster Wheeler Energy Ltd Artelia GmbH PlantIng GmbH Stadtwerke Stade ( SWS) Siemens AG Georg Fischer (GF Piping Systems) Richard Ditting GmbH & Co. KG Rudolstaedter Systembau (RSB) Zwingmann GmbH Hanseatische MessTechnik (HMT) GmbH & Co. KG Role Gap analysis Civil & structural design, permitting. EPCM until April 2015 Plant design, engineering & construction, EPCM from May 2015, O&M support Power off taker & MV Grid Connection Design, supply, commissioning and BDEW certification of power inverters Fabrication of piping assemblies for the KORE module Civil works sub-contractor Building shell sub-contractor Piping sub-contractor Electrical, C&I sub-contractor www.afcenergy.com 10

03 Project POWER UP: The Site

POWER-UP Site Location www.afcenergy.com 12

POWER-UP Site Preparation Pile driving machinery and piled foundations field executed in April and May 2015 www.afcenergy.com 13

POWER-UP Site Preparation www.afcenergy.com 14

POWER-UP Site Preparation Site ready to accept KORE, July 2015 www.afcenergy.com 15

04 Project POWER UP: The Fuel Cell Stack

Overview of Components and Assembly Electrodes (x4848) Electrodes: produce the power Stack (x24) Consists of 101 fuel cells, each with 2 electrodes one anode and one cathode Cartridge (x24) Contains the stack, local control electronics and power take off Balance of Plant (x1) Balance of Plant: regulates fluid (potassium hydroxide electrolyte) and gas (hydrogen and oxygen) supply and management, superstructure, safety systems, C&E, integration into customer site www.afcenergy.com 17

Scale-up and Automation of Components and Assembly Automated extrusion of electrode layers Automated electrode stacking www.afcenergy.com 18

Scale-up and Automation of Components and Assembly www.afcenergy.com 19

05 Project POWER UP: The Balance of Plant

Building the Balance of Plant The KORE system Pre- assembly check of BOP ahead of shipment www.afcenergy.com 21

Delivery and Final Assembly of Balance of Plant to Site www.afcenergy.com 22

Delivery and Final Assembly of Balance of Plant to Site www.afcenergy.com 23

Delivery and Final Assembly of Balance of Plant to Site 3D CAD model to installed facility 6 th July 2015 - Balance of Plant delivered to site 30 th July 2015 - First power delivered to the grid www.afcenergy.com 24

The Finished KORE System Banks of 4 101-cell stacks Ionic decoupler module CO 2 scrubber Electrolyte tanks www.afcenergy.com 25

The Finished KORE System Repeatable, stacked, modular design Cartridges / piping to fuel cell stacks mainly polypropylene allowing for ease of manufacture of modularised skids Most of the internal stack components can be recycled supporting lower cost OPEX Lightweight overall unit, skid mounted supply www.afcenergy.com 26

Control, Electronics and Power Control System Cell Voltage Monitoring Software Site Integration Power Electronics www.afcenergy.com 27

Remote Monitoring Application for acquiring and managing data from AFC Systems Tool for accessing and viewing data from AFC Systems Notification of alarm conditions via email Versatile data plotting and exporting routines Mobile phone app www.afcenergy.com 28

06 Project POWER UP: Project Highlights

Project POWER-UP Operational Highlights Max power produced from KORE system = 204kW (240kW) Max power produced from 2 tiers = 158.4kW (160kW) Max power produced from 1 tier = 83.3kW (80kW) Max power produced from single cartridge = 10.9kW Max power from single cartridge on bench test = 11.7kW Automation of start up, operation and shutdown fully demonstrated > 1,000h operating time (Design target values) www.afcenergy.com 30

Thank you for your kind attention. www.afcenergy.com

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