HARMONI fosters European innovation

As stakeholders from the European process industry continue their search for measures to facilitate the transfer of innovation to the market, the Horizon 2020 funded SPIRE project HARMONI (Harmonised assessment of regulatory bottlenecks and standardisation needs for the process industry) has acted as a catalyst, bringing together over 150 experts to foster innovation activities.

On 16 and 17 January, the 2019 HARMONI Summit took place with the objective to encourage dialogue on an effective framework to facilitate and foster innovation. More than 150 experts from all sectors of the process industry, the European Commission and European standardisation bodies engaged in the exchange of ideas.

Summit solutions

The summit addressed solutions for non-technological challenges that hinder innovation and the transfer of solutions, such as regulation, standardisation needs and the lack of innovative business models. Based on the themes within the HARMONI project, the summit selected priority discussion areas that included innovation transfer and the harmonisation of EU regulation and EU standardisation.

Six sessions took place during the two-day workshop, dealing with context specific priority areas, such as the circular economy, CO2 valorisation and waste management. Each session included experts, and opportunity for Q&A’s, as well as working groups and discussion panels. This allowed for a hands-on evaluation of possible solutions for industry needs while, in parallel, giving a voice for representatives from the European Commission in an open and transparent dialogue.

HARMONI, in the words of the DG Research and Innovation, “can play a very interesting role in the future of the Horizon Europe Programme”, especially due to its good practise of integrating regulation and standardisation.

What’s next?

The HARMONI project continues until October 2019. The results of the project mainly address industry, regulatory and standardisation bodies. Identified priorities and results from the working groups will serve to provide recommendations to the responsible authorities.

The HARMONI team welcomes your input and looks forward to engaging with you in order to move towards a sustainable and competitive European process industry. Why not subscribe to the HARMONI newsletter to keep up to date with upcoming events and results?

More information on Harmoni

HARMONI aims to bring together all the relevant stakeholders in the process industry to jointly identify, analyse and propose solutions to the regulatory bottlenecks and standardisation needs that hamper their innovation processes and the market uptake of their results.

To do this, the project is developing and applying a methodology that ensures effective collaboration between the eight sectors involved in the SPIRE contractual Public Private Partnership to elaborate the solutions to the common challenges they face due to non-technological barriers including regulatory issues and lack of appropriate European Standards relevant to improving resource efficiency. In addition, HARMONI is analysing, comparing and proposing recommendations to trigger the transferability of technical solutions among and beyond the SPIRE sectors.

The project activities should enable an optimised EU regulatory and standardisation framework that facilitates and supports innovation in the process industry; improved participation of the SPIRE community in EU regulatory and procedures; earlier and more active involvement of the SPIRE community in the EU standardisation process; and an overall better environment that maximises transferability rates for technologies across SPIRE sectors.

For more information, please take a look at the HARMONI website.

A Roadmap for the Chemical Industry in Europe towards a Bioeconomy

The final event of the Horizon 2020 project RoadToBio will take place on Monday 18 February 2019 in Brussels. This stakeholder workshop event will present and discuss the project’s ‘Roadmap for the Chemical Industry in Europe towards a Bioeconomy’.

Over the last 18 months, the RoadToBio consortium has developed suggestions on how to produce 25% of organic chemical products in Europe as biobased goods by 2030. The results of the project have been achieved in close cooperation with many stakeholders from industry, associations, NGOs, and academia.

At this final workshop, the project will share the insights that have been gained and discuss the results of the analysis, the proposed actions and the messages that can help to facilitate the participatory development of Europe's bioeconomy going forward.

Objectives

There are three main objectives to the workshop.

• Firstly, to present the analysis on the selected nine product groups with a high potential to switch from a fossil-based to a biobased production pathway and to discuss their market opportunities. These nine products groups are: Agrochemicals, Adhesives, Cosmetics, Lubricants, Man-Made fibres, Paints and Coatings, Plastics, Solvents, and Surfactants. Participants to the workshop will be able to choose two breakout sessions covering specific aspects of each product group.
• Secondly, to discuss general barriers that may hinder the development of Europe’s bioeconomy and the recommended actions from the project to overcome these.
• And, thirdly, to explain how biobased products could be communicated better and what tools and messages can be used to better engage stakeholders and the public

The event will be held on the afternoon of 18 February 2019 at the Bluepoint Conference Centre in Brussels. You can download a draft agenda for the event here. Registration will be open until 13 February 2019 by emailing Lea Koening at Dechema indicating which two product groups you are particularly interested in.

More on RoadToBio

How can the chemical industry in Europe meet the challenges in global markets while becoming more sustainable at the same time? RoadToBio is a Horizon2020 project funded via the Biobased Industries JU that aims to pave the way for the European chemical industry towards a higher biobased portfolio and competitive success based on the benefits offered by the bioeconomy. The Project will deliver a roadmap for the chemical industry that will specify benefits as well as barriers towards a biobased economy to meet societal needs in 2030.

Start using the Funding & Tender Portal for Horizon2020

In case you missed it, the European Commission has recently launched a new corporate Funding & Tender Opportunities Portal. The new Funding & Tenders Portal will become the entry point (the Single Electronic Data Interchange Area) for participants and experts in funding programmes and tenders managed by the European Commission and other EU bodies including Horizon 2020 and Horizon Europe.

The new corporate Funding & Tender Opportunities Portal replaces the previous Participant Portal for Horizon 2020 and will become the single entry point for finding and managing EU grants and procurement contracts. It will cover all centrally managed programmes by the start of the next EU multi-annual programme period in 2021.

The new portal includes all functions currently available on the Participant Portal, as well as a new layout and graphic design, and an improved keyword search function with new features and search behaviour. The new portal reflects its multi-programme coverage and integrates the calls for tenders.

What is on the portal?
Using the new portal, you can:

• Search and apply for funding opportunities in calls for proposals
• Search a call for tender and submit a tender 
• Manage your grants
• Register as an expert, manage contracts and payments online.

Start using it now!

Cefic-LRI Innovative Science Award 2019 call now open!

European-based early career scientists can now apply for the 2019 Innovative Science Award, a €100.000 prize to support promising new research in the field of environmental toxicology.  This year’s call focuses on chemical substances that bind to soil and sediments very strongly, also known as non-extractable residues (NERs).

“There is uncertainty about the risks associated with NERs and their persistence in the environment. Chemicals released into the environment often end up binding strongly to terrestrial soil and aquatic sediments and remain trapped unless an event - such as degradation - significantly changes the nature of the compound or the structure of the matrix to which they are bound” says Dr Océane Albert, Long-range Research Initiative (LRI) Programme Manager.

In 2018, the European Chemical Agency (ECHA) released a Technical and Scientific Report reviewing the state-of-science on the role of NERs and identified several technical challenges and directions for future research.

“Cefic-LRI aims to contribute to the research by supporting early career scientists with out-of-the-box thinking who can advance the science in this area”, concluded Dr Albert.

Innovative science
The Cefic-LRI Award is intended for a European-based scientist with less than ten years post-doctoral experience. Active involvement in interdisciplinary research, current academic track record, and access to appropriate networks will be considered in the selection. There is no age limit for applicants. Previous award winners are not eligible to apply.

The award is offered by the European Chemical Industry Council (Cefic), in conjunction with the Society of Environmental Toxicology and Chemistry (SETAC), the Association of European Toxicologists and European Societies of Toxicology (EUROTOX), and the International Society of Exposure Sciences (ISES). Application details are available through the Cefic-LRI website.

How does it work?
In January every year, the topic for that year's award is announced with a call for entries on the LRI website. This year, applicants must submit a  two-page proposal by 24 March 2019. Short-listed researchers are then requested to send in a more detailed description of their work, after which the three finalists are selected to present their proposal before a jury panel in Brussels. The LRI Innovative Science Award is officially presented at the LRI Annual Workshop in November, and the Awardee is invited to present the results of the research supported by the Award at the LRI Annual Workshop the following year.

Learn more about the Cefic-LRI Award by watching the video on the 2018 Award Ceremony below.



For more information on the topic and on how to apply, please visit the Cefic-LRI Award 2019 web page, or send an email to the LRI secretariat at Cefic.

SusChem wishes you a successful 2019!

Dear colleagues and members of the SusChem community,

The past year showed us once again the enormous challenges and changes that our world and our industry have to cope with, whilst striving to achieve sustainable development. An extended summer across Europe reminded me and many of us that CO2 emissions are still on the rise; and the issue of plastics waste became more urgent on the political agenda.

Identifying solutions to global challenges like these is achieved via science and technology – and through collaboration. This is exactly the purpose of SusChem, and I think in 2018 we made further progress in sharing a ‘European voice’ on research and innovation priorities in Sustainable Chemistry and Industrial Biotech.

One highlight was our response to Horizon Europe, the ambitious research and innovation programme that the European Commission is forging to succeed Horizon 2020.  At our annual stakeholders event in June, the potential of the contribution of SusChem and Key Enabling Technologies (KETs) under Horizon Europe was highlighted. And we initiated our consultation to build a new SusChem Strategic Innovation and Research Agenda (SIRA). I am sure the new SIRA will be a solid base for advising the European Commission on future technology priorities for Horizon Europe. Delivery of a final draft is planned in the course of 2019 – a major task for next year.

Looking back on 2018, I also well remember our brokerage event in October which was supported by keynote speakers from the Commission and also the disruptive innovation community. The event brought together some 200 European innovators to form strong consortia under open Horizon 2020 calls – a really impressive number! Also the number of national technology platforms (NTPs) rose in 2018 with the accession of Bulgaria, Finland and Sweden, so that our community now comprises 17 NTPs across Europe. 

2018 also saw SusChem making significant contributions to the innovation discussion in Europe. Our extended ‘Key Enabling Technologies in Horizon Europe’ paper was published in February, while two new white papers gave insight and recommendations on recycling of polymer composites and battery energy storage. And most recently, ‘SusChem Plastics Strategic Research and Innovation Agenda in a Circular Economy’ was published with contributions from across the full plastics value chain, as a contribution to the implementation of the EU Plastics strategy.

So 2018 was really impactful. Our key focus for 2019 will be to build on SusChem’s role as a multi-stakeholder advisory forum engaging with both academia and industry. Together we can provide a vision and direction on innovation and technology priorities in Sustainable Chemistry and industrial biotechnology to ensure the success of Horizon Europe. We therefore invite you to join us in formulating together the new SusChem SIRA!

On behalf of the SusChem Board and the SusChem secretariat, I would like to thank you all very much for your continuing commitment to our platform and activities. I wish you a relaxing Christmas break and a healthy, happy and “sustainable” New Year. We look forward to working with you on new SusChem inspired initiatives over the next 12 months!

Best wishes,




Dr Markus Steilemann
Chairman of the SusChem Board

REE4EU Pilot Plant success

The SusChem-supported Horizon 2020 project REE4EU has successfully demonstrated at a pilot scale a closed-loop permanent magnet recycling process for the first time in Europe. The REE4EU pilot has successfully treated several tons of in-process wastes and end-of-life magnetic products containing rare earth elements, resulting in the recovery of almost hundred kilos of rare earth alloys. The alloy will be reused in the manufacturing of permanent magnet products, thereby closing the materials loop!

The successful recycling of permanent magnet waste is a major result for the REE4EU SPIRE project whose full title is: Integrated High Temperature Electrolysis (HTE) and Ion Liquid Extraction (ILE) for a Strong and Independent European Rare Earth Elements Supply Chain.

Rare earth elements (REEs) are the seventeen chemical elements including the lanthanides, Scandium and Yttrium that are key-enablers of sustainable technologies. They are used in hybrid electric vehicles, wind turbines, and highly efficient electric motors. Currently European industries are highly reliant on imports of these valuable and rare materials. Recycling the elements from REE-containing waste streams could constitute an important secondary source of the materials for Europe.

A recent study estimated the global trade in REE-containing products in 2010 is around EUR 1.5 trillion, or 13% of global trade. However, only 1% of REE waste is being recovered as no adequate process is currently available. REE4EU’s success could open-up a brand-new route to recover process wastes from permanent magnet production.

Pilot demo

During the third year of this four-year project that started in October 2015, work has focused on constructing and running the REE4EU's pilot units: the high temperature electrolysis (HTE) and ionic liquid extraction (ILE) units. The technology has now been demonstrated at pre-industrial scale using permanent magnet wastes.

Enough waste material (in-process waste and end-of-life magnets) has been treated to obtain enough rare earth alloy (REA) to run a 600 kg batch of strip cast rare earth master alloy (REMA) and output material from the HTE pilot cell has been used to manufacture permanent magnets in a laboratory line.

The quality of both the REMA input and the permanent magnet output obtained in terms of magnetic properties and chemical composition show that the magnets prepared have the same properties as magnets from mass production using virgin materials. This validates the REE4EU technology to obtain REA for permanent magnet production using magnet waste materials.

The two-step process (ILE then HTE) has been optimised for direct REA production, suitable for REMA to be used in permanent magnet manufacturing. In this way, a complete closed-loop permanent magnet recycling has been demonstrated at a pre-industrial scale using less steps than conventional methods currently carried out in China.

The process and its advantages are explained in this REE4EU video.

Next steps

In the next few months, the REA obtained in the HTE unit will be used to manufacture REMA for permanent magnets in a real magnet production line and benchmarked against magnets produced using virgin materials.

Data collection and modelling activities on permanent magnet waste recycling routes have been carried out and these results will be used to eco-design the recycling chain and to compare it to the conventional supply route of REA currently used for permanent magnet production.

For more information on the REE4EU processes visit their website.

What is the value of Industrial Water?

At the end of November SusChem and the European Water Technology Platform (WssTP) joined forces to present ‘The Value of Industry Water’ at Dechema’s Industrial Water 2018 conference in Frankfurt. The conference was attended by around 150 participants, mostly from Europe but with international representations from China, India, South America and the US, all active and interested in Industry Water Innovation. The conference was supported by SusChem, WssTP and SPIRE.

Water is essential for life. As the world’s population grows and the effects of climate change become apparent the demand for water will increase. And too many people around the world still do not have access to clean water or adequate sanitation. The Industrial Water 2018 conference on 27-29 November sought to highlight today's challenges in industrial water management and discuss the new strategies, developments and technologies that can make industrial water use more efficient.

The Industrial Water conference and exhibition is a biennial platform that addresses all relevant topics along the industrial water value chains: from raw water to waste water treatment; from sensors to digitisation in industrial water management; from alternative water resources to zero liquid discharge and integrated management.

The contribution from SusChem and WssTP was presented by Henk Pool from Cefic during the Digitalisation in Industrial Water Management session of the conference on the morning of 28 November.

Multiple waters
The paper, jointly authored with Durk Krol and Andrea Rubini from WssTP, was entitled ‘The Value of Industry Water: Integrated multiple waters, Digitally Connected and Smartly Managed’ and focused on the new ‘Multiple Waters’ Governance model and how Digital Waters enable a totally different, bottom-up and multi-stakeholder approach.

The basis for the paper stems from joint workshops organised by SusChem and WssTP to identify critical innovations in the context of an Industry Water transition from Single Use to Integrated Management.

The concept of Multiple Waters entails the employment of different water sources and qualities (such as fresh ground and surface water, rainwater, brackish water, saline water, brines, grey water, black water, recycled water) for various purposes by multiple users. The Multiple Waters concept targets the right water for the right purpose to the right users in a synergetic combination of centralised and decentralised water treatment. Water use can then be optimised based on the circularity principle for water such as cascading, reuse or recycling, while enacting new economic mechanisms and models based on the true value of water.

Value drives innovation
Considering Industrial Water management and the true Value of Water leads to the identification of industry innovation needs, which are driven by four factors:

1. Sensor Networks: Sensor development provides a unique opportunity for enhancing the Value of Water. Advanced sensor development is required to ensure continuous understanding and control of water quality. Handling of dynamic water systems requires advanced sensors. Full implementation, reliable operation costs and maintenance are important considerations.

2. Big Data: Identifying the Value of Water system in terms of the data that it generates and creates is central to its economic value. The creation of a resilient basis for cyber security and privacy legislation is necessary, as no holistic overview currently exists in the sector. Links between data silos and pockets of data should be established and prioritised.

3. Modelling and Analysis: Many models for enhancing water management exist in academia or within other research organisations. However, these methodologies need to be brought into context before moving to the next (pilot) phase. It is necessary to identify models and tailor them to the requirements of users in order to develop more efficient water systems while observing the interactions and implications.

4. Smart Governance: Smart governance models vary from region to region. The selection process for an appropriate governance design requires extensive consideration. Education and communication are crucial for its successful understanding and implementation.

The presentation addressed the above factors in detail and built connections between them.

“A balanced combination of innovation across all the factors will enhance the true Value of Water and therefore drive the industry water transition from single use to integrated management,” Henk Pool concluded.

Water efficiency
On 30 November an additional workshop on increasing water and energy efficiency in process industry took place looking at relevant tools, technologies and concepts. The workshop was jointly organised by the EU-funded Horizon 2020 projects WaterWatt and INSPIREWATER – a SPIRE project. The workshop included a number of case studies from the steel and the chemical industry regarding water and energy efficiency measures. Participants were also introduced to the recently developed online tool for evaluating energy efficiency (E3 Platform) and got the opportunity to test the tool during the workshop.