Sustainable development and climate
Gwendolyn Schaeken, Vinnova National Contact Point Legal & Financial issues and SC4; Transport
Increased investment in sustainable development and climate related R&I: The Paris Agreement 35% of the budget for climate action 60% objective for contribution to sustainable development Includes several areas
Principles Open Science, Open Innovation, Open to the World Political Drivers International Cooperation Digitisation Market Creating Innovation Societal Resilience Sustainable Development H2020 SC3, SC5 SC1, SC2, SC4, NMBP Excellent science Industrial leadership Societal challenges
John Tumpane, Formas Expert and National Contact Point SC5; Climate Action, Environment, Resource Efficiency and Raw Materials
John Tumpane, Expert for societal challenge 5
Climate action, environment, resource efficiency and raw materials WP 2018-2020 426 million 560M Building a low-carbon, climate resilient future: climate action in support of the Paris Agreement Greening the economy in line with the Sustainable Development Goals (SDGs)
Building a low-carbon, climate resilient future climate action in support of the Paris Agreement Decarbonisation Climate adaptation, impacts and services Climate change, biodiversity & ecosystemservices The cryosphere Knowledge gaps
Greening the economy in line with the Sustainable Development Goals The circular economy Raw materials Water for our environment, economy and society Innovating societies for sustainability and resilience Natural and cultural heritage
Human dynamics of climate change Research and innovation action 2018 2019 2020 international cooperation is encouraged social sciences and humanities, gender issues encouraged
Visionary and integrated solutions to improve well-being and health in cities 2019 (Innovation action) participation of humanities and social sciences essential projects should engage in substantial networking and dissemination activities outside the consortium clustering with other ongoing and future projects on sustainable cities encouraged establish long-term sustainable data platforms 2018 2019 2020
Methods to remove hazardous substances and contaminants from secondary raw materials Research and innovation action 2018 2019 2020 multidisciplinary consortium significant participation of industry partners and recyclers participation of SMEs desirable
Lisa Lundmark, Energimyndigheten Expert and National Contact Point SC3; Secure, Clean and Efficient Energy
Secure, clean and efficient energy Building a Low-Carbon, Climate Resilient Future Lisa Lundmark Swedish Energy Agency
Political Context Paris Agreement (2015) 2030 Climate-Energy Package (2014) 40% reduction of Greenhouse Gases 27% of renewable energy 27% improvement in energy efficiency Energy Union (2015) and revised legislation Energy security, solidarity and trust A fully integrated internal energy market Energy efficiency first Transition to a low-carbon society An Energy Union for Research, Innovation and Competitiveness Strategic Energy Technology-Plan Integrated Roadmap Communication on Integrated SET-Plan (C[2015]6317) Implementation plans Clean Energy for All Europeans Package (2016) - Accelerating Clean Energy Innovation
Activities are expected to deliver: on the supply side, cheaper and more performant generation technologies which are better integrated in various levels of the energy system*; a smarter, more flexible and resilient energy system*; on the demand side, increased overall energy efficiency and provision of means to enable consumers to play a more active role* in the energy transition; a better understanding of the specific socio-economic contexts in which the energy transition takes place which will allow to address obstacles in a more effective way; increased market-uptake of innovations, including the implementation of energy policy, the preparation for rolling-out investments, and the support for capacitybuilding.
Overview of activity areas in the call Next Renewable energy solutions Renewable energy solutions for energy system level* implementation Renewable Fuels for transport Market Uptake Support Nearly-zero CO2 emissions from fossil fuels Global leadership in renewables Smart cities and communities Crosscutting Energy efficiency Smart and clean energy for consumers Smart citizencentered energy system Upgrading buildings' energy performance and smartness Energy efficient industry and services Energy efficiency is an investment* Energy efficiency is an energy source* Support for policydriven innovations
Topic example: LC-SC3-EE-13-2018-2019-2020: Enabling next-generation of smart energy services valorising energy efficiency and flexibility at demand-side as energy resource (2018 CSA and 2019 IA) Challenge: Untapped potential in sectors and with actors to trigger energy, CO2 and cost savings, improve indoor environment New technologies new services using new ICT solutions to monitor and verify energy savings and flexibility providing for appropriate remuneration of optimised consumption bundling various services and benefits Structure and label the quality of demand side service providers and improve their accessibility 2018: Focus on developing integrated concepts and models which enhance and refine successful energy performance contracting include pay-for-performance schemes include customer individualized energy services, understanding behavior based on new data tools engage new sectors and actors integrate energy efficiency services with other energy services distributed generation and demand response and/or non-energy related services factor in potential legal and contractual aspects
Topic example: LC-SC3-RES-5-2018:Increased performance of technologies for local heating and cooling solutions (2018 IA) Challenge: Making existing technologies more performant and therefore more cost-efficient and attractive for the market. stimulate market uptake of solutions using local renewable energy sources with potential to drastically reduce the use of primary energy for both heating and cooling in residential and commercial buildings. Improving design and operation of heating and cooling systems reducing investments and operation costs and increasing the systems' performance. Innovation in resource mapping, monitoring and control tools 2018: bring the technologies from TRL 5-6 to 6-7 Optimisation of the different components of a renewable heating and cooling system; Development of tools and systems to optimize the design and monitoring of the different components of a heating and cooling system; Development of integrated control systems for the smart operation of a heating and cooling system.
Gwendolyn Schaeken, Vinnova National Contact Point Legal & Financial issues and SC4; Transport
Principles Open Science, Open Innovation, Open to the World Political Drivers International Cooperation Digitisation Market Creating Innovation Societal Resilience Sustainable Development H2020 SC3, SC5 SC1, SC2, SC4, NMBP Excellent science Industrial leadership Societal challenges
SC1 - Health, demographic change and wellbeing SC1-BHC-13-2019: Mining big data for early detection of infectious disease threats driven by climate change and other factors (Research and Innovation Action)
SC2 - Food security, sustainable agriculture and forestry, marine, maritime and inland water research and the bioeconomy CE-BG-06-2019: Sustainable solutions for bio-based plastics on land and sea Innovation Action
SC4 - Smart, green and integrated transport LC-MG-1-6-2019: Aviation operations impact on climate change Research and Innovation Action
Nanotechnologies, Advanced Materials, Biotechnology and Advanced Manufacturing and Processing LC-EEB-06-2018-20: ICT enabled, sustainable and affordable residential building construction, design to end of life (Innovation Action)
Mikael Ramström / Morgan Rody, Atlas Copco Epiroc SIMS; Sustainable Intelligent Mining Systems World
Sustainable Intelligent Mining Systems World Class Demonstrations Mikael Ramström / Morgan Rody Atlas Copco Epiroc www.simsmining.eu
, SIMS
SIMS Project SIMS is a 3 year Horizon 2020 funded European wide project and will demonstrate that the European Mining Industry and Technology providers are Global Leaders with Sustainable Intelligent Mining Systems. Project Coordinator: Atlas Copco Epiroc Project Total Budget: 16.3 Million Euros Project Start: May 2 nd, 2017 Project Length: 3 Years 29 www.simsmining.eu
Demonstration Locations and Partners Successful demonstrations of each technology are key points in the SIMS project. 30 www.simsmining.eu
Demonstrations of the entire Mining cycle Drone Inspection / Material Identification Battery Powered Tramming Drill Rig Robotizing the Charging Machine Optimization of Production Blasting Roof Crack Detection Semi-Autonomous Battery Vehicles Increased Bolting Efficiency Communication & Positioning Process Control 31 www.simsmining.eu
Once upon a time The call was SC5-14-2016-2017: Intelligent mining on land (2016) The main objective is to develop innovative pilots demonstrating clean and sustainable production of non-energy non-agricultural raw materials in the EU from primary and/or secondary sources. with a clear link to EU EIP Strategic Implementation Plan (SIP), 2013 [weblink] Identify the drivers for the call to understand EU COM focus and priorities! 32 www.simsmining.eu
The consortium A mix of stake holders from: >2 member states Industry and academia Known to each other from before Prepared to compromise But start with a strong vision! Sustainable Intelligent Mining Systems 33 www.simsmining.eu
The application Vision: The SIMS project aspires to create a long lasting impact on the way we test and demonstrate new technology and solutions for the mining industry. With a selected consortium ranging from mining companies, equipment and system suppliers to top-class universities, the SIMS project will boost development and innovation through joint activities aiming at creating a sustainable intelligent mining system SIMS aims to develop, test and demonstrate new innovative technologies within the designated consortium, consisting of well developed mining operations, selected due to their maturity regarding innovative technologies, world-leading equipment and system suppliers, highly specialized SMEs and top-class universities. The consortium origins in the EIT RawMaterials partnership, and has joined for this proposal due to the common challenges and needs. Objectives: Efficiency - To increase resource efficiency and competitiveness Safety - To reduce the risk of rock falls and exposure of workers to hazardous situations Environment -To minimize environmental impact of mining operations Trust - To increase public trust, awareness and acceptance for mining. How: We address the call intelligent mining on land and aim to develop, test and demonstrate relevant technologies all aiming at realizing the vision of the intelligent mining system. To meet the project vision and support EU strategies as outlined in the call we have addressed the project objectives by selecting pilot test areas and tests that will support this. Relevance: Specific challenge Raw materials Innovative pilot actions : We will bring the most innovative new products in the area of mining and test these in a real life environment in the selected test mines. Addressing actions stated in: EIP-SIP Raw Materials Technology pillar 1A (priority area raw material research and innovation coordination), 1B (technology area for primary and secondary raw materials production). 34 www.simsmining.eu
The evaluation Criterion 1 Excellence Score: 3.50 (Threshold: 3.00/5.00, Weight: 100.00%) The objectives are clear and pertinent. The proposal addresses most criteria of the call and is well in line with the topic of the call. Criterion 2 Impact Score: 4.00 (Threshold: 3.00/5.00, Weight: 100.00%) If successful the project will have significant impact, in line with the topic of the work programme. Criterion 3 Quality and efficiency of the implementation Score: 4.00 (Threshold: 3.00/5.00, Weight: 100.00%) The work plan is coherent and effective and the consortium partners are complementary. This is a strong consortium with representatives from four countries. The contributing partners have a track record of working within major collaborative EU funded projects and have demonstrated their knowledge and expertise of collaborative research and development in this environment. Management of risks is presented insufficiently for such an ambitious project, especially the risks related to the respective technology development. 35 www.simsmining.eu
Thank you! www.simsmining.eu Meet us in the exhibition area today! www.simsmining.eu European Sustainable Intellingent Mining Systems for the Global Mining Industry 36
Thank You!
I. Sustainable development and climate PLENUMSALEN IV. Societal Resilience RUM 307 LUNCH - Utställningarna V. Market creating innovation RUM 202 II. Digitisation in industrial technologies and societal challenges PLENUMSALEN III. Strengthening international R&I cooperation RUM 202 KAFFE - Utställningarna Erfarenheter från utvärderingsprocessen i Horisont 2020 Dan Andrée och paneldiskussion Sverige i Horisont 2020 Karin Röding, statssekreterare vid Utbildningsdepartementet MINGEL - Utställningarna