Green goals: recycled and bio-based sports balls
CategoriesSustainable News

Green goals: recycled and bio-based sports balls

Spotted: Sports are a cultural staple for countries around the world, whether you enjoy watching matches on TV, attending games, or playing yourself. And, according to FIFA, there are five billion football fans across the globe, making it the world’s most popular sport. To meet this popular demand, over 40 million footballs are made every year, relying on tonnes of crude-oil-based synthetic, animal leather, and rubber for their production. 

This is where the Rebond Project comes in. The French organisation is rethinking traditional manufacturing to create balls that contribute to a circular economy and are made from clean and sustainably sourced materials

The initial problem the Rebond team had to solve was finding an adequate recyclable substitute for the internal or inflatable part of a football (the balloon). Rebond settled on recycled plastic bottles and a natural latex inner tube to make, what the company claims is, the first bio-sourced and recycled balloon that met competition standards. To make the ball completely ‘clean’, Rebond chose to create the external part of the football entirely out of natural vegetable-based biomaterials.  

According to the company, 85 per cent of current ball production occurs in the Punjab region in India. Wanting to boost local production of “Made in France” balls, Rebond set up a French production line in Loire-Atlantique in 2019. Rebond highlights, though, that the goal isn’t to replace Punjabi workshops, but instead to use the France production line to complement them. 

According to Rebond Founder and CEO Simon Mutschler, the company is now aiming to get the FIFA-accredited logo on its balls so they can be sold to official football clubs. 

Springwise has spotted other innovations seeking to make sports more sustainable, including inclusive tennis programmes that recycle used balls and eco-friendly wetsuits for women. 

Written By: Archie Cox

Reference

A green clean: bio-based technology for oil spills
CategoriesSustainable News

A green clean: bio-based technology for oil spills

Spotted: While large oil spills like the Exxon Valdez disaster make the news, smaller spills occur more frequently than the media headlines would suggest. According to the non-profit International Tanker Owners Pollution Federation Limited (ITOPF), 2023 saw one large spill (greater than 700 tonnes) and nine medium spills (7-700 tonnes). On top of this, there are thousands of much smaller spills each year that still have a big impact on marine ecosystems.

To make this clean-up greener, Green Boom has developed a line of biodegradable oil absorbents, which can rapidly soak up four times their weight in oil without producing additional waste. This is important because, according to the company, oil spill clean-up creates around 9,000 tonnes of oil-absorbent waste each year, and most solutions involve single-use plastics that end up in landfills.

Green Boom’s products, including booms and mats, feature cotton-based, tear-resistant fabrics filled with natural fibre biomass that repels water and rapidly absorbs oil from spills. All the products are made from 100 per cent sustainably sourced, renewable raw materials.

Video source Green Boom

The company was launched in 2019 and has earned the USDA Certified Biobased Product Certification for its absorbents. Last year, Green Boom partnered up with Netherlands-based Greaner BV to help accelerate the adoption of its more eco-friendly clean-up solutions.

Springwise has spotted several innovations aimed at oil and pollution clean-up. These include the use of oil-eating microbes and hair from salons stuffed into recycled hosiery.

Written By: Lisa Magloff

Reference

Bio-based ingredients replace microplastics – Springwise
CategoriesSustainable News

Bio-based ingredients replace microplastics – Springwise

Spotted: Every year, approximately three million metric tonnes of microplastics enter the environment worldwide, and they are found everywhere within agriculture, food, and cosmetics. Now, Germany-based Bioweg has created bio-based ingredients to be used as alternatives to plastic-based additives and polymers. 

The startup’s technology combines fermentation, material science, and molecular simulation to develop biodegradable and sustainable bio-ingredients. All Bioweg’s ingredients are customisable, vegan, GMO-free, easily scalable, and sustainably produced without the need for harsh chemicals. 

Bioweg has four products: MicBead and Rheweg are solutions to microplastics in cosmetics and personal care, AgriWeg replaces petroleum and acrylic-based coatings in fertilisers and seeds, while HydroWeg is a sustainably derived hydrocolloid for plant-based food. To make its ingredients sustainable, the company converts low-value by-products, residues, and waste from the food and agriculture industry – like molasses and vegetable peels – into high-value and circular products. 

The company ferments these by-products to create microbial cellulose in a zero-waste process and Bioweg has identified high-yielding strains based on more than 10,000 lab-scale and factorial design-based experiments. And to further improve the yield, the company optimises the genetic makeup of the strains using classical and new genetic engineering techniques. 

So that it may create ingredients that are perfect for end use, Bioweg performs molecular simulations, including structural and thermodynamic analysis. This allows the company to test various cellulose fibrils’ properties with different functionalisation levels. Then, using green chemistry principles, Bioweg can adapt the fibrils for various designs and purposes. 

Microplastics have become a severe problem for the oceans, land, and humans, and Springwise has spotted many innovations looking to clear up and replace these harmful ingredients. One company has created dissolving make-up wipes that leave no microplastics or waste, and researchers are even looking into removing microplastics with sound.

Written By: Anam Alam

Reference

Bio-based membranes for energy storage
CategoriesSustainable News

Bio-based membranes for energy storage

Spotted: While the transition to renewable energy is picking up pace all the time, there are still several technological challenges facing those looking to build a fully sustainable future. One of these is the need for a more efficient way to store energy. Many renewable sources, such as wind and solar power, are intermittent, and it is vital to find ways to store this energy when it is not needed. Redox flow batteries are among the most efficient energy storage technologies. Now, Swedish startup Cellfion is working to make redox flow batteries even more efficient with a unique, bio-based membrane.

Redox flow batteries are a type of electrochemical cell where dissolved chemicals are pumped through the system on separate sides of a membrane, leading to ion transfer and the flow of electric current through an external circuit. Cellfion has developed a novel ion-selective membrane derived from cellulose. The cellulose fibres are extracted from wood and fabricated into membrane sheets that are then used as components in energy storage and conversion devices.

The bio-based membranes have several advantages over traditional membranes, which are often made from chemical polymers such as perfluorosulfonic acid. Cellfion’s cellulose membranes are non-toxic and decomposable but retain the high ion selectivity and conductivity typical of traditional membranes. In addition, at the end of their life, they can be incinerated without releasing any toxins into the environment, unlike traditional membranes.

According to Liam Hardey, Cellfion CEO, “To the best of our knowledge and extensive research, we are the first company working towards the commercialisation of bio-based membranes with no toxic substances at all”. He adds this is vital because, “If the clean energy industry is to become sustainable, we need to ensure that the materials we are using are also truly sustainable.”

More efficient battery storage is a key part of the transition to renewable energy. This is why Springwise is seeing an increase in new, more sustainable battery technologies. Innovations in this space include a green battery made from abundant and locally-sourced components and batteries that dissolve in water.

Written By: Lisa Magloff

Reference

Dezeen Awards 2022 sustainability public vote winners include a bio-based pavilion
CategoriesSustainable News

Dezeen Awards 2022 sustainability public vote winners include a bio-based pavilion

After more than 4,000 votes, Dezeen readers have chosen projects by DP6 Architectuurstudio, FADAA and Kenoteq as the winners of this year’s Dezeen Awards public vote in the sustainability categories.

DP6 Architectuurstudio won for its pavilion made from locally sourced wood and recycled-steel joints in the Netherlands, FADAA for its store coated in grey lime plaster in Jordan and Kenoteq for its brick made from construction waste.

Of the total 55,000 votes that were cast and verified across all categories, the sustainability categories received over 4,000 verified votes.

Dezeen Awards 2022 public vote winners in the architecture, interiors and design categories were published earlier this week, the media winners will be revealed later today and the studio winners will be unveiled tomorrow.

Dezeen Awards winners announced in November

The public vote is separate from the main Dezeen Awards 2022 judging process, in which entries are scored by our distinguished panel of judges. We’ll be revealing the Dezeen Awards 2022 winners ahead of the winners’ party at the end of November.

To stay up to date with the latest Dezeen Awards news, including this year’s winners, subscribe to our newsletter or follow us on Instagram and LinkedIn.

Read on to see who was voted most popular in the sustainability categories:

The Natural Pavilion by DP6 Architectuurstudio
The Natural Pavilion by DP6 Architectuurstudio

Sustainable building

The Natural Pavilion serves as a model to tackle construction challenges faced in the Netherlands, including sustainable energy production, housing shortages, biodiversity recovery and climate change adaptation.

The structure by DP6 Architectuurstudio, which features cross-laminated timber floors and recycled glass windows, was voted sustainable building of the year in the public vote with 29 per cent of votes.

In close pursuit was Mustardseed by Localworks with 25 per cent, Floating Office by Powerhouse Company with 23 per cent, The Exploded View Beyond Building by Biobased Creations with 12 per cent and finally Learning and Sports Centre by General Architecture Collaborative with 11 per cent.

D/O Aqaba by FADAA
D/O Aqaba by FADAA

Sustainable interior

D/O Aqaba won sustainable interior of the year with 26 per cent of the votes. The store by FADAA uses stacked bio-bricks made from crushed shells as partitions to protect from the sun and segment the space.

Next up was Apricity by Object Space Place with 23 per cent, Semba Good Ethical Office by Semba Corporation with 20 per cent, The Circus Canteen by Multitude of Sins with 19 per cent and MONC by Nina+Co with 13 per cent.

K-briqTM by Kenoteq
K-Briq by Kenoteq

Sustainable design

K-Briq was developed through academic circular economy research at Heriot Watt University in Scotland and won the sustainable design of the year category with 35 per cent of votes. Kenoteq’s design is made from construction waste and is coloured using recycled pigments.

The runners-up were Tidal Stool by Robotic Fabrication Lab HKU with 28 per cent, Remix by Open Funk with 18 per cent, Maggie’s Southampton by Local Works and Air-It-Yourself by Jihee Moon with seven per cent.



Reference

Brilliant Bio-Based Materials Curated for Commercial Interiors
CategoriesArchitecture

Brilliant Bio-Based Materials Curated for Commercial Interiors

Our esteemed jury is now reviewing the submissions for this year’s A+Product Awards. Stay tuned for the winner’s announcement later this summer.

We are often introduced to biomaterials regarding their application to support medical advancements. A massive amount of research is being conducted globally, with innovations being announced all the time. You’ve probably heard the word bouncing around the design industry too. However, crucially it must be understood that the two subjects, although identical in name, as products are wildly different. In medical terms, biomaterial refers to a substance engineered to interact with biological systems for a medical purpose (like a heart valve or bone graft). In the design industry, when we discuss biomaterials, we are actually talking about bio-based materials, which are derived and manufactured from living organisms.

Bio-based material is a new and fascinating industry that has come to fruition due to the need for more sustainable construction and manufacturing base materials. Across the world, the quantity of furniture, fabrics and materials that end up in landfill is staggering and arriving there at a rate that cannot be sustained. As a reaction to this, many designers are seeking inspiration from nature and natural life cycles.

Forager Foam by Ecovative Images provided by Ecovative

Forager Leather by Ecovative Image by Vasil Hnatiuk

One such company is Ecovative. Ecovative are experts in something called mycelium. Mycelium is an essential part of fungi. It is a web-like substance formed from the pores of fungi. Often residing beneath ground, the probing webs assist in growing the mushrooms we see above ground while interconnecting the fungi from below. The mycelium search for food, passing on nutrients and other information to the fleshy mushrooms above ground. At Ecovative, they have learned how to guide the growth process of the mycelium to create large webs that are almost completely solid. The result is a wide range of natural, biodegradable materials that form textiles, packaging, and even alternative food products.

As a material, mycelium is incredibly resilient, with many other valuable qualities. By studying the growth of mycelium, scientists at Forager Ecovative have drawn out the most useful traits such as tensile strength, waterproofing, fire resistance, pliability and texture. They are producing foams and leather alternatives that rival any on the market. Mycelium hides and foams offer many advantages over traditional leather and plastic materials. Vivid colors and durable, supple textures are possible without the need for caustic chemicals or waste.

Finishing can be achieved with heat, pressure, and bio-based chemicals rather than petroleum-derived coatings, with a wider variety than traditional leather, minus the variability and blemishes that impact price. The foams produced by Ecovative rival any plastic-based alternative in performance and are unmatched in their circularity — mycelium, when thrown away at the end of a product’s life, returns to the earth as a nutrient rather than a pollutant.

Mogu, Mycelium Resilient Floors ©mogu

Mogu, Floor Flex ©mogu

Also working tirelessly with mycelium’s exceptional properties and potential are the team at MOGU. Offering functional, beautiful and meaningful products with a durable and sustainable life cycle, MOGU is committed to introducing the world to industrial processes with the lowest possible environmental impact.

“MOGU was founded on the belief that it is possible to employ nature’s intelligence to radically disrupt the design of everyday product, seeking a finer balance between the man-made and the rhythms of the ecosystem.”

MOGU’s floor finishes are genuinely remarkable. The floor finishes are made of solid and stable mycelium-based core boards coupled with high-performance bio-based coating. Each tile or roll integrates low-value biomasses such as corn crops, rice straw, spent coffee grounds, discarded seaweed and clam shells as an alternative to traditional industrial pigments. This choice in toning allows the natural pigments embedded in the product to appear visibly on the surface, creating a unique look to the materials that is elegant, on-trend and subtle.

That’s Caffeine by Atticus Durnell

Handmade in London by Atticus Durnell, That’s Caffeine is a unique bio-based material created from recycled coffee grounds that feels and looks like granite stone. The bio-based material is a composite of bio binders, minerals and plant-based resin, making it incredibly lightweight compared to its peers. The material is sustainable and biodegradable, water and heat-resistant, and successfully diverts coffee waste from landfills while enabling its distinctive surface finishes and colors.

Totomoxle by Fernando Laposse Images by Fernando Laposse

Bio-based materials do not need to be grown into something, as is the case for mycelium-based products. Mexico-based innovator Fernando Laposse has shown how waste material from our other consumables can also be utilized in making new, beautiful materials.

Totomoxtle is a new veneer material made with husks of heirloom Mexican corn. Ranging from deep purples to soft creams, Totomoxtle showcases the wealth of diversity of the native corns of Mexico.

Unfortunately, the number of native varieties of Mexican corn are in sharp decline. International trade agreements, aggressive use of herbicides and pesticides, and the influx of highly modified foreign seeds have decimated the practice. At the moment, the only hope for saving the heirloom species of maize lies with the indigenous people who continue to plant them out of tradition rather than for financial gain.

Laposse has been working with a group of families from the community of Tonahuixtla, slowly reintroducing native seeds in the village and returning to traditional agriculture. The husks collected from the harvest are now transformed by a group of local women into the veneering material, thus creating much-needed local employment and beautiful saleable materials that are forgiving to the environment.

Brusseleir, Clay Plaster by BC Materials Image by BC Materials

BC Materials work on several bio-based products made for the construction industry from the construction industry’s waste. Using material taken from the ground during excavation, the Brussels-based company has created Brusseleir. This clay plaster alternative regulates the humidity of indoor climates and is also wholly vapor permeable all the while, the plaster alternative is four times more acoustically effective than traditional plaster finishes.

From an environmental perspective, biomaterials are a compelling choice: They are biodegradable and store carbon dioxide, which means they can lower the carbon footprint of a product or a building during its lifetime. These materials can often perform just as well, sometimes better, than less sustainable alternatives. We have barely scratched the surface of the potential of bio-based materials and are in no position to propose bio-based materials everywhere just yet. However, there is an argument that says that is precisely what we should be striving for.

Consider this, across all industries, consumers have changed; buyers no longer need items that last a lifetime, typically trends drive sales, and the majority of people want their surroundings to evolve as they do. In such a society, products manufactured from bio-based materials have a stronger appeal than ever. As their usefulness is met, items can be discarded without concern. Each piece naturally breaks down and returns to the earth while leaving space for something new. No need for landfill, no need for chemicals to break things down, just a product from the earth, going right back into the earth — like a leaf working its way through the seasons year after year. That is the future of bio-based materials; hopefully, with suitable investments, it’s not too far off.

Our esteemed jury is now reviewing the submissions for this year’s A+Product Awards. Stay tuned for the winner’s announcement later this summer.

Reference

A bio-based electric toothbrush is compostable and recyclable 
CategoriesSustainable News

A bio-based electric toothbrush is compostable and recyclable 

Spotted: The second largest contributor to plastic pollution after plastic bags, plastic toothbrushes are almost all non-recyclable because of the number of tiny parts they contain. Bamboo brushes have become a common replacement, yet for those who love electric toothbrushes, what can they use instead? UK company SURI has the answer. The name stands for Sustainable Rituals, and the brand’s first product is the Sustainable Sonic Toothbrush. 

A mix of recyclable and compostable components, plus a modular design, gives SURI’s electric toothbrush an extensive life. Replacement brush heads come in packs of three, and the company provides a compostable return mailer with each order for users to send back used brush heads in for recycling.

Most current toothbrushes use nylon bristles, a material that contributes to the inability of waste management facilities to recycle them. SURI, on the other hand, uses castor oil for the bristles and corn starch for the brush head. The handle is easy-to-recycle aluminum. Available accessories include a UVC light self-cleaning and charging travel case, a magnetic mirror mount, and a paper washbag. Most components are recyclable or compostable, and the company provides instructions on its website for deconstructing products if a user is unable to ship them back for recycling.

Toothpaste tubes are also part of the personal hygiene pollution problem, and Springwise has spotted innovations seeking to change this through refillable toothpaste dispensers as well as toothpaste tablets.  

Written By: Keely Khoury

Reference