D6.4 Presentation at FCH JU General Assembly 2014

Transcription

1 Deliverable D6.4 Presentation at FCH JU General Assembly Dissemination level: Public D6.4 Presentation at FCH JU General Assembly 2014 In preparation of the FCH JU Programme Review Days 2014 the LiquidPower project submitted a report and poster in the standard format requested by the Program Office. The project was not selected for oral presentation so the enclosed report and poster accounts for the deliverable. FCH JU Grant Agreement no

2 FCH JU Programme Review Days 2014 Project Report 1. General project information Full project title Project acronym Call topic Fuel cell systems and Hydrogen supply for Early markets LiquidPower FCH JU Grant agreement number Coordinator organization/affiliation SP1-JTI-FCH H2 Lgic A/S Project start-date (date format: dd/mm/yyyy) Project end-date (date format: dd/mm/yyyy) Table 1: Description of Project Partners (add rows as necessary) Partner No. Partner name Industry or SME Country 1 H2 Logic A/S SME DK 2 Catator AB SME SE 3 Dantherm Power A/S INDUSTRY DK 4 Zentrum für Brennstoffzellen Technik GmbH INDUSTRY DE 1

3 2. Relevance to MAIP and AIP objectives, project achievements MAIP/AIP objectives/targets and project objectives/targets: Describe how the project s objectives and quantitative targets address the specific objectives/targets in the MAIP and in the AIP of the year in which the project was proposed, and how they relate to the European/International technological state-of-art Project achievements and projections: Outline the project s achievements to-date in relation to its objectives and targets (for quantitative targets, achievements should be described quantitatively). For each project objective/target listed, give an estimation of the probability that the project will achieve it by the project end. What is the overall purpose of the project? (2 lines max.) R&D of new generation of LT-PEM fuel cell systems for back-up power and material handling vehicles that are to are to reach full commercial targets at volume production. Additionally to conduct R&D on hydrogen supply to ensure sufficiently low price, among others R&D of new optimized onsite methanol reformer. Timing in project implementation (% of project duration passed): (1 line) 21 months out of 32 months by June 2014 (65%) Table 2: Project objectives and achievements No. Programme Objective/ Quantitative target Corresponding project objectives/ targets Current status/achievements todate Probability of final target achievement (%) Explanation of probabilities <100% MAIP objectives 1 Material handling fuel cell system cost of 1.500/kW in 2015 < unit production % Expected to achieve remainder cost reduction on R&D on cost of hydrogen dispensing 2

4 2 Back-up power fuel cell system cost of 1.500/kW in Material handling fuel cell system efficiency of 50% in Back-up power fuel cell system efficiency of 30% in Hydrogen outlet price of AIP objectives 4 Hydrogen cost at point of consumption of 7/kg unit production < 1.300/kW 52-55% 52-55% 45% 45% < 7/kg Methanol reformer is expected to reach around 6-8/kg. Cost for dispensing also needs to be addressed. Table 3: Assessment against international technological state of the art International state of the art (SoA) International level SoA Project target SoA Present project SoA Comments on progress/status 1 Has not be conducted Has not be conducted Has not be conducted Has not be conducted Has not be conducted Other comments: 3

5 3. Bottlenecks, risks and modifications to targets Describe the bottlenecks faced in the execution of the project to-date, and any risks or threats to the ability to achieve the project objectives and targets. For each of the objectives/targets listed in Table 2 for which the probability of final target achievement is less than 100%, provide a detailed explanation of why this is the case together with the proposed remedial action. Indicate (and explain) if any of the original targets are no longer appropriate and, if so, how they should be modified. Objective no. 1 Bottlenecks and risks: Shortfall of 370/kW in cost reduction on material handling fuel cell system. Revision of targets: No Suggested nature of revision: Expected to achieve remainder cost reduction on R&D on cost of hydrogen dispensing 4. Complementarity/Exploitation of synergies with other projects and programmes Co-funding at national level (within Europe) No. European and international projects/programmes Past projects: The fuel cell R&D activities in LiquidPower are to build in on results from previous field demonstration efforts within material handling and back-up power. For FCH-JU this means the two demonstration projects HyLIFT-DEMO and FCpoweredRBS. The R&D efforts are to enable continued cost reduction on the fuel cell systems and provide a pathway towards commercialization. Current projects: No at present. 4

6 Table 4: Nature of interactions with European-level projects (past and present) FCH and FP projects FCH JU projects HyLIFT-DEMO FCpoweredRBS Description of complementarity, nature of interaction and/or joint activities (if any) Demonstration project provides input and lessons learned for LiquidPower Demonstration project provides input and lessons learned for LiquidPower Table 5: Nature of interactions with international-level projects (past and present) Name of programme and/or projects Countries involved None None None Description of complementarity, nature of interaction and/or joint activities (if any) Other comments: 5. Horizontal and Dissemination Activities Describe horizontal and dissemination activities being conducted in the project. Please give full references for conferences, workshops, publications, patents etc. Table 6: Horizontal and dissemination activities Activity type Horizontal activities Description of activities/achievements Training and education Safety, Regulations, codes and standards Not part of project activities Public awareness Dissemination Conference presentations Presentation at FCH-JU GA 2013 Workshops organized by the project Publications and Patents Publications Patents Other Other (free-flow text, the table should occupy no more than three-quarters of the page maximum) Not planned in project Public project reports are due by end of project Patents are strived for results reported by end of project Other comments: 5

7 6. Exploitation Plan Describe the way in which you anticipate the project s results will be exploited and the timescale by which you expect them to have a commercial impact. Will further RTD or demonstration activities be required after the termination of the project in order to make a commercial impact or achieve the relevant MAIP targets? If so, describe in what way For the fuel cell systems the aim are to reach targets that are commercial at sufficient market volume, however in case these are not meet further RTD may be required. Also following demonstration of the technologies are expected as a stepping stone towards a market deployment. On methanol reforming further R&D are expected to mature the technology for field demonstration. 7. Comments regarding FCH JU programme None. 6

8 FCH JU Poster Template PRD 2014 Project Acronym Project Long Name Call topic LiquidPower LiquidPower Fuel cell systems and Hydrogen supply for Early markets SP1-JTI-FCH Start-date End-date Total budget (EUR) FCH JU contribution (EUR) Other contribution Partnership/consortium list 3.68 milllion 1.99 million None Coordinator: H2 Logic A/S Partners: Catator AB, Dantherm Power A/S, Zentrum für Brennstoffzellen-Technik Gmbh The LiquidPower project objectives are: Main objectives of the project (max. 100 words) R&D of a fuel cell system for Back-up-power and Telecom applications (BT) R&D of a fuel cell system for material handling vehicles (MH) R&D of a methanol reformer for onsite Hydrogen supply, enabling the low cost hydrogen for the early markets of BT and MH Progress/results to-date (max. 5 bullets) Future steps (max. 5 bullets) Methanol reformer design completed, including test and selection of catalyst Reformer PSA design completed Theoretical R&D of back-up power fuel cell system conducted Theoretical R&D of material handling fuel cell system conducted Construction and test of methanol reformer laboratory protype Construction and test of back-up power fuel cell laboratory protype Continued R&D of material handling fuel cell and R&D efforts on cost reduction of hydrogen dispensed Conclusions, major findings and perspectives (max. 5 bullets) Project website/url Project contact information Public end-reports are expected by end of the project None info@h2logic.com

9 FCH JU Poster Template PRD 2014 Contribution to the programme objectives Source of objective/ target (MAIP, AIP) Aspect addressed Programme objective/ quantitative target Project objectives/ quantitative targets Current Status/ Achievements to-date MAIP Material handling fuel cell system cost 1.500/kW 1.800/kW MAIP Back-up power fuel cell system cost 1.500/kW 1.300/kW MAIP Material handling fuel cell system efficiency 50% 52-55% >52% MAIP Backup power fuel cell system efficiency 45% 45% 45% AIP Hydrogen cost at point of consumption 7/kg 7/kg 9-11/kg Project roadmap Year of implementation Year 1 Year 2 Year 3 Present situation Project milestone achieved (past years) / Future project milestones (future years) Milestone 1: R&D Specification & planning Milestone 2: Midterm evaluation Milestone 3: Prototypes finalized & laboratory tested Milestone 1+2 completed