The information contained in this document belongs to ASCENT team and to the recipient of the document. The information is strictly linked to the oral comments which were made at its presentation, and may only be used by attendees of that presentation. Unauthorized copying, disclosure or distribution of the material in this document is strictly forbidden and may be unlawful. EU-Australia workshop 14 th November 2016 Introduction of the ASCENT project Lausanne, Swiss 14 th November 2016 www.ascentproject.eu
Outline Why an EU- Australia workshop Cooperation with the Australian projects ASCENT presentation
EU-Australian interactions EU-Aus workshop 9 th - 14 th March 2014 @ Sydney HyPerCap meeting 25 th - 26 th March 2015 @ Melbourne EU-EU benchmarking workshop 11 th June 2014 The cooperation between Europe and Australia started in 2010 with several visits until the final publication of a call in the ENERGY programme in 2013. This call received more than 40 proposals with 6 proposals funded and having twinning activities with Australia: HiperCap, Interact, Green-CC, Ascent, M4CO2, Matesa Interaction between the European and Australian Partners in order to valorise complementarities. During the Australian workshop it was identified that all the European/Australian projects have in common benchmarking and technoeconomic analysis. Therefore it was planned to organize a common twinning workshop for benchmarking and technology comparison in Brussels (hosted by the Commission).
EU-Australian interactions EU-Aus workshop 9 th - 14 th March 2014 @ Sydney HyPerCap meeting 25 th - 26 th March 2015 @ Melbourne EU-EU benchmarking workshop 11 th June 2014 The benchmarking workshop has been organized by Hanne Kvamsdal (HIPERCAP) and held in Brussels. Representatives of projects met in Brussels to share information on project and common activities related to technoeconomic analysis and benchmarking. Matteo Romano (POLIMI), Paul Cobden and Wilco Dijkstra from ECN participated to represent ASCENT project Richard Blom from SINTEF has participated to the workshop "Breakthrough Post Combustion Capture Technologies" arranged by the FP7 HiPerCap project in Melbourne where he discussed ASCENT relevant issues with Prof. Rowena Ball (Australia National University, Canberra) who was also attending the workshop.
EU-Australian interactions Matteo Romano has visited the University of Sydney he had the possibility to access the database developed by the research group of Dianne Wiley. Matteo will give the seminar Integration of high temperature CO2 sorbents systems in power and industrial plants for carbon capture and storage (CCS): opportunities and challenges at the University of Sydney The aim of the Matesa workshop is to discuss developments in Novel Technologies for CO2 capture in Europe Benchmarking Seminar 5 th May 2016 @ University of Sydney Material Seminar 10 th November 2016 University of New South Wales EU-EU Matesa workshop 16th June 2016 EU-Aus workshop 14 th November 2016
EU-Australian interactions Matthew Boot-Handford (Imperial College) has given a seminar in UNSW focused on the latest results obtained within the ASCENT project and focused on material developments. The main objective of the ultimate event is to share the knowledge acquired during the last years in the advanced CCS technologies among EU and Australian partners as well for further discussions and structural networking. Demonstrate that the twinning activities have been carried out to deliver results and not to foster general cooperation Benchmarking Seminar 5 th May 2016 @ University of Sydney Material Seminar 10 th November 2016 University of New South Wales We are here EU-EU Matesa workshop 16 th June 2016 EU-Aus workshop 14th November 2016
Other than EU-Australian interactions EU-Kr workshop 9 th February 2014 EU-Qatar workshop 2 nd -3 rd March 2016 To explore new directions for developing advanced and innovative CCS technologies representatives from ASCENT consortium have participated to the 1st Korea-EU CCS workshop in Jeju Island (South Korea). The event was hosted by Korean Ministry of Science and European Commission and organized by Korea CCS Center. The workshop in Doha has been held back to back to the EU-GCC meeting in Riyadh. Directorate-General for Research & Innovation and the Qatar National Research Fund organised the workshop in Doha focused on carbon capture and concentrated solar power technologies.
Why an EU- Australia workshop Cooperation with the Australian projects ASCENT presentation
ASCENT project and its consortium FP7- THEME: ENERGY.2013.5.1.2 topic: New generation high-efficiency capture processes 16 European Partners: 7 Countries: 5 Member States: Netherlands, UK, Italy, France, Spain 2 Associate Countries: Norway Swiss + 1 Twinned country: Australia 4 years duration: Starting date: on March 1st, 2014 Budget size: 9.2M : 7.0M EC grant 2.2M own Partners funding
Overall goal of ASCENT project Provide a proof of concept of three thematically-related and sustainable technologies using industrially relevant materials under industrially relevant conditions for power and H 2 production Material Industrially relevant materials can be manufactured at the scale needed for real implementation Process Industrially relevant conditions are those to be expected in an actually operational environment Proof of concept The Proof-of-concepts will help to increase the Technology Readiness Level of the investigated technologies
Expertise of the ASCENT consortium Each process is backed by an SME seeking to take their technological knowledge to a robust proof of concept Each process is championed by a EERA affiliated research institute translating the needs of industry into relevant questions to be solved at the research level Each process is examined by academic research labs, combining their abilities in chemistry and chemical engineering to address the technological challenges in a robust manner Each process is sponsored by an European material supplier looking to expand their product portfolios related to sustainable processes.
ASCENT: an experimental framework of solid-based technologies for H 2 and power production Ca-Cu C-Shift SER
Three Technologies, Many Synergies Feature Ca-Cu CSHIFT SER Advantage Simultaneous Reaction & Sorption High temperature CO 2 capture Higher conversions and process intensification, reduction in number of pieces of equipment Increased efficiency, reduced steam knock-out Highly engineered CO 2 capture materials Economics, through cheap production methods, increased capacity and lifetime Integrated CaO-CaCO 3 looping cycle In situ heat production through matched chemical reactivity Pressure Swing driven regeneration Decreased demand for regeneration energy Capture of CO 2 at high pressure Increased fuel utility due to pressurized hydrogen, facilitated integration with CC Integrated heat exchange within reactor concept Process intensification Fluidized bed technology Hot Hydrogen Production Allows active control in solid handling, efficient heat transfer, continuous operations Highly aligned to power generating technology Common Framework for techno-economic assessment Direct Comparison Available
Synergies between the ASCENT technologies CaCu process CSHIFT process SER process Task 1. Selection of performance criteria of material and process conditions Task 2. Synthesis of the functional materials for solids looping processes Task 3. Detailed experimental investigation at particle scale Task 4. Development of multi-scale modelling: particle and reactor models Task 5. Proof of concept and validation of the material performances and of the developed models
Project structure WP8: Management Performance Criteria Technology Research WP5: Environmental Impact & LCA WP6: Dissemination WP7: Exploitation Technology Research Benchmarking WP1 WP2: Ca-Cu Looping Cycle WP3: CShift Looping Cycle WP4: SER Looping Cycle Sorbent Criteria Sorbent Qualification Proof of Concept Sorbent Material Research Impact
Why an EU- Australia workshop Cooperation with the Australian projects ASCENT presentation
Main project outcomes and synergy with the Australian partners Potential to which the materials have to be developed
Cooperation with the twinned Australian projects Selection of performance criteria and synthesis and characterisation of the material Thermodynamic optimisation: Australian National University Economic optimisation: The University of Sydney
Australian sister projects Australian National University (Prof. Rowena Ball) Name:(i) The char coal challenge and the clean coal quest; (ii) Thermo-chemical oscillators and applications; Scope: design, simulation and thermodynamic optimisation of endothermic/exothermic cycle Main contribution: thermodynamic analysis of advanced sorbent; The University of Sydney (Prof. Dianne Wiley) Name: Capture Economics Project; Scope: assess and model technologies for post and precombustion CO 2 capture using solid adsorbent, solvent absorption and membrane gas separation Main Contribution: estimation and minimising the cost of electricity and CO 2 avoided, identify critical components
Features of australian cooperation outcomes Relevant: Making use of external and mature expertise in the form of modelling and definition of performance criteria, to support a coherent and realistic framework of activities; Effective: we have agreed in advance on a detailed work programme to meet a goal concerning thermodynamic and economic optimisation. Impact: Results of Twinning will be put in perspective with the socioeconomics and environmental frameworks in order to facilitate the large scale deployment of these technology lines Sustainability: Long-term results and structural professional networking