How This Outdoor App Is Using Data to Improve Sustainability
With easy, innovative technology, Fishbrain is enabling anglers and researchers to work together to ensure sustainability of fisheries.
Source: www.backpacker.com
With easy, innovative technology, Fishbrain is enabling anglers and researchers to work together to ensure sustainability of fisheries.
Source: www.backpacker.com
The European Environment Agency (EEA) has published its report on the circular economy and the bioeconomy. The circular economy and the bioeconomy — Partners in sustainability shows that the two policy agendas have similar objectives and areas of intervention, including food waste, biomass and bio-based products, and that they would benefit from stronger links, particularly in product and infrastructure design, and collaboration throughout the value chain. According to the report, the increasing demand for food, feed, biomaterials and bioenergy resources could worsen the over-exploitation of natural resources. By extending the lifetime of products and recycling materials, a circular, bio-economy approach can help retain material value and functionality for longer time as well as avoid unrecycled biowaste. Promising innovations and strategies for circular biomass use include biorefinery, 3D printing with bioplastics, multi-purpose crops, better use of residues and food waste, and biowaste treatment. Consumers can also contribute to bioeconomy’s sustainability, for example, by eating less animal-based protein, preventing food waste and separating biowaste from other waste streams, the report says. The report argues that biobased approaches should be tailored to the specific use context in order to maximise the benefits of biobased and biodegradable products. The technological innovation, covering product and infrastructure design, should be embedded in a wider system innovation that also tackles consumer behaviour, product use and waste management. The circular economy and the bioeconomy — Partners in sustainability is the third EEA report on the circular economy that aims to support the framing, implementation and evaluation of European circular economy policy from an environmental perspective. The two previous reports were: Circular economy in Europe – Developing the knowledge base; and Circular by design – Products in the circular economy.
Read the full article at: ilbioeconomista.com
There’s a relatively small number of naysayers about your sustainability program. Ignore them.
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Europe is full of broken-down equipment. With more than 12 million tons per year — the equivalent of 30,000 jumbo jets — Europe ranks second only behind Asia in terms of e-waste. The European Commission wants to implement a new ecodesign directive at the EU level to help ensure home appliances…
The need for reliable renewable energy is growing fast, as countries around the world—including Switzerland—step up their efforts to fight climate change, find alternatives to fossil fuels and reach the energy-transition targets set by their governments. But renewable energy can’t be incorporated into power grids efficiently until there is a way to store it on a large scale. “Most forms of renewable energy are dependent on weather conditions, which results in large fluctuations in the power they supply,” says Danick Reynard, a Ph.D. student at EPFL’s Laboratory of Physical and Analytical Electrochemistry (LEPA). “But power grids aren’t designed to manage these kinds of fluctuations.” Hydrogen, because it can supply energy consistently regardless of the weather, is now attracting growing attention.
Aluminum scrap in recycled form can have considerable cost savings for producers who have re-melting furnaces to process scrap; this reduces the dependability of virgin metal supplied from traditional primary smelters and increases production flexibility. Aluminum as a material is circular and can be recycled unlimited times without losing its original properties. Economies moving forward should facilitate scrap handling smoothly and efficiently, from end-of-life scrap to reusing scrap during the production stage (in-house scrap). Aluminum can help in achieving circular economy goals. Policies are tailor-made by countries to increase recycling rates, reduce the burden on natural resources such as bauxite, and use lower energy to the tune of only 5%, ensuring CO2 cut-down. Globally, recycling occupies around 20% of the overall primary aluminum production. Primary aluminum contributes 80%, which is set to reduce in the next 5-10 years as recycling constantly replaces primary aluminum due to its many commercial advantages coupled with companies’ target of going carbon-free.