Elsevier Foundation Green and Sustainable Chemistry ChallengeStay informed
Elsevier is proud to partner with the Elsevier Foundation on the "Elsevier Foundation Green and Sustainable Chemistry" Challenge in 2017. The Challenge will open for submissions on June 1, 2016. The deadline for proposals is September 15th 2016. Visit the Elsevier Foundation for more information about Challenge Rules and how to apply.
The Elsevier Foundation Green and Sustainable Chemistry Challenge is open to individuals or organizations from all countries operating in the nonprofit sectors. Projects can be in any field of Green or Sustainable Chemistry as long as they are applicable for use in developing countries.
Projects will be reviewed against the following criteria:
- Be replicable, scalable, sustainable and set a benchmark for innovation – new ideas or concepts in development will be given preference over more advanced projects.
- Have practical applicability include an implementation plan. Please note that if the project has been developed in a high income country, contextually appropriate development knowledge will need to be demonstrated, for instance through a developing country implementation partner.
- Be suitable for use in developing countries. Have considered the project's social impact on local communities, including whether it has a possible gender dimension either in design or implementation.
- Have at least two of the following Green and Sustainable Chemistry objectives:
- Reduce or eliminate the use or generation of one or more hazardous substance or material
- Provide a more sustainable use of resources, materials, or products, or more sustainable manufacturing or application of a chemical product
- Provide increased reuse, repair or recyclability
- Present a new business model fitting into the criteria of green and sustainable chemistry.
Congratulations to Dr. Yunsang Kim who won the first prize of €50,000 for his proposal ‘Sustainable Textile Dyeing Using Nanocellulosic Fibers’. The runner up, who received €25,000 was Prof. Suzana Yusup for her proposal ‘Biopesticide for Improvement of Paddy Yield’
The Elsevier Green and Sustainable Chemistry Challenge is open to individuals or organisations operating in the not-for-profit and for-profit sectors from all countries. Projects can be in any field of Green or Sustainable Chemistry so long as they are applicable for use in developing countries.
To encourage researchers to come up with new solutions, Elsevier organized this Green & Sustainable Chemistry Challenge. At Elsevier, it’s our vision is to create information solutions that improve outcomes for our customers and also benefit society. This challenge will enable us to work with the research community to make a positive impact on society.
RELX Group and its businesses, including Elsevier, have a positive impact on the environment, principally through the information we produce which informs debate, aids decision makers and encourages research and development. We also have an impact through consumption of natural resources such as energy, water and waste generation, through our direct operations, supply chain and customer use of our products and services. We are committed to reducing any negative environmental impacts, while continually improving our environmental performance.
Throughout 2014 we made good progress toward reaching our 2015 targets, achieving our goals for Scope 1, Scope 2, office energy use intensity and data centre energy efficiency. In the longer term, we aim by 2020 to achieve 100% of our electricity from renewables or Renewable Energy Certificates, and zero waste to landfill at key locations under our control.
Our direct operations
Although all environmental impacts are important, we prioritise climate change (we continue to produce more online products and services with associated energy usage and associated emissions) and water, given its use in our own operations and in our supply chain.
Our supply chain
We uphold our values in our supply chain by requiring our suppliers to meet the same high standards we set for our own behaviour.
As a founding member of the Publishing Industry Product Safety Forum, we monitor our product safety standards encompassing ink, varnish, spiral wire, lamination, glue and packaging (defined as packaging materials or packaging components that enter landfills, waste incinerators, recycling streams and, ultimately, the environment). We go beyond minimum legislative requirements to eliminate substances of concern from our products and have mapped the second tier raw material suppliers of 93% of our first tier print suppliers by country and component category. These suppliers have confirmed that no substances of high concern are used in the manufacture of our products.
Collective action with our peers
To improve our environmental performance we engage in constant dialogue with a range of stakeholders, from employees to NGOs such as Earthwatch. We participate in sector initiatives such as the Publishers’ Database for Responsible Environmental Paper Sourcing (PREPS) and further our understanding through environmental benchmarking activities such as the CDP.
Public policy engagement
We support progressive environmental legislation, and, in 2014, continued our involvement with the UK Aldersgate Group, which engages with government on environmental reporting and other key issues. In the year, we served on the steering committee of the Aldersgate Working Group exploring the potential benefits of a UK electricity and carbon labelling scheme, which resulted in a July 2014 report entitled Enable the Label. In October, businesses were invited to trial the electricity label on their UK energy supply.
Employee engagement in environmental projects
Employees are integral to our environmental improvement efforts and 66% of key locations have Green Teams. In 2014, we offered special events, training and competitions at locations throughout the year.
In 2014, Elsevier Camden completed the move to a new office in the heart of the City of London. When more than 300 employees were relocated, old desks, chairs, computer equipment and other materials remained. Waste to Wonder, an organisation which we have worked with for nearly 10 years, helped us redistribute items to UK homeless charity Emmaus and the British Heart Foundation, while nearly five containers of furniture were sent to Agrolinks Academy in Kampala, Uganda, a school with over 2,000 students. Items that could not be reused were recycled.
We make a positive environmental impact through our leading-edge environmental publications and services which spread good practice, encourage debate, and aid researchers and decisions makers. They range from journals like Water Research, magazines such as New Scientist and The Environmentalist, databases such as ScienceDirect and Scopus, and exhibitions including Pollutec and World Future Energy Summit.
Green & Sustainable Chemistry
As the world’s population edges towards 9 billion, the strain on the planet’s resources is steadily increasing. In both the developed and developing world there is a growing demand for better food, more manufactured goods and improved access to utilities such as clean water and electricity. These are needs that can only be met by intensifying production in all areas of industry, thus increasing the need for raw materials.
In addition to the rapidly expanding demands on the world’s finite resources, a byproduct of increasing productivity is the production of unwanted chemicals which, when released into the environment, are often harmful. Since publication of the Bruntland report 30 years ago, it has become clear that increasing productivity without reducing the output of pollutants has serious consequences for the planet.
Chemists have a major role to play in ensuring a continued supply of the fertilizer, medicines and other chemicals needed to support the world’s population. It is also their responsibility to design processes that reduce or eliminate the production of unwanted or hazardous chemicals that can potentially damage the environment.
In 2012, as an extension of Millennium goals for the years up to 2015, the United Nations agreed to develop a set of sustainable development goals (SDGs).
Among the goals proposed are:
- by 2030 enhance international cooperation to facilitate access to clean energy research and technologies, including renewable energy, energy efficiency, and advanced and cleaner fossil fuel technologies, and promote investment in energy infrastructure and clean energy technologies.
- by 2020 achieve environmentally sound management of chemicals and all wastes throughout their life cycle in accordance with agreed international frameworks and significantly reduce their release to air, water and soil to minimize their adverse impacts on human health and the environment.
- Strengthen the means of implementation and revitalize the global partnership for sustainable development.
The Elsevier Green and Sustainable Chemistry Challenge aims to contribute to these sustainable development goals by helping countries to develop sustainable and environmentally sound chemical processes.
Green & Sustainable Chemistry Conference
Five candidates were selected by the judges from the Green and Sustainable Chemistry Challenge and invited to the Green and Sustainable Chemistry Conference. The applicants presented their proposals at a session in the beginning of the conference. At the end of the conference the winners were announced.
The Green and Sustainable Chemistry Conference was held in Berlin, 3-6 April 2016. The chair of the conference was: Professor Klaus Kümmerer, Chair for Sustainable Chemistry and Resources, Director of the Institute for Sustainable and Environmental Chemistry, Faculty for Sustainability, University of Lüneburg, Germany. It was a truly international scientific meeting with top speakers from around the world and a unique aspect of this meeting was the Green and Sustainable Chemistry Challenge.
For further information please visit the conference website: www.greensuschemconf.com
Prof. Dr. Borhane Mahjoub
University of Sousse, Tunisia
Prof. Dr. Borhane Mahjoub (1973) received his MSc and PhD in Waste Sciences and Technologies (1999) from the National Institute of Applied Sciences (INSA) of Lyon (France). Then, he went to the Polytechnic High School of Montréal (Canada) for a post-doctoral research study in 1999-2000.
Prof. Dr. Klaus Kümmerer
Director Institute of Sustainable and Environmental Chemistry
Leuphana Universität Lüneburg, Germany
Prof. Dr. Klaus Kümmerer joined Leuphana University as Professor of Sustainable Chemistry and Material Resources in 2010. He studied Chemistry at the Universities of Würzburg and Tübingen, where he graduated in an environmental analytical theme.
Prof. Dr. Regina Palkovits
Regina Palkovits is Full Professor for Heterogeneous Catalysis and Chemical Technology at RWTH Aachen University. Research in her group focuses on the development of novel solid catalysts for the efficient utilization of fossil and renewable resources and on process design for the transformation of biomass into value-added chemicals and biofuels.
Prof. Joel A. Tickner
Department of Community Health and Sustainability
University of Massachusetts Lowell, Lowell, MA, USA
Dr. Joel Tickner is Associate Professor in the Department of Community Health and Sustainability at the University of Massachusetts Lowell where he also directs the Chemicals Policy and Science Initiative of the Lowell Center for Sustainable Production.
Dr. Helmut Krist
GIZ (Deutsche Gesellschaft für Internationale Zusammenarbeit)
Dr. Helmut Krist is an environmental engineer. He worked since 1975 with the German technical cooperation in various countries in Northern Africa, South East Asia and the head quarter in Germany in the field of water resources management and environmental protection.