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Tuesday, September 29, 2020

Archisen a Future High-tech Farming

High tech farming means high collaboration—here's why

Published on 3 Jul 2020

In resource-scarce cities like Singapore, it has become increasingly salient to find new ways to grow food within an urban landscape. A new breed of urban farms like Archisen are envisioning a future built on high-tech farming, which will enable farmers to grow food indoors – in office buildings, for instance.

“Real estate is very much at a premium here, and we don't have the luxury of land to conduct agriculture like other cities,” explains founder Sven Yeo. “So Singapore has to look into urban farming to maintain food security.”

By using technology such as climate control and data analytics, Archisen can grow lettuce, basil and other crops indoors using vertical systems. Various aspects of the plants’ growth and environment are carefully monitored and controlled, for fresher and more nutritious produce. “The result is improved productivity, higher crop quality and a reduction of labour,” adds Mr Yeo. Fresh produce grown at Archisen’s urban farm are currently sold online, under the brand Just Produce, in a variety of salad boxes which include crops such as lettuce, kale, sorrel and more.

Archisen’s vision is in line with plans for a new Agri-Food Innovation Park (AFIP) in Sungei Kadut, which will be rejuvenated into an eco-district that encourages the growth of budding industries such as agri-tech. At AFIP, agri-tech companies can gather to share resources, and collaborate on research and development to innovate new ways to produce food.

Sharing of services between these companies could be a gamechanger, especially in areas where it “doesn’t make sense for individual farms to invest in”, says Mr Yeo. “For instance, many farms here don’t have their own seed supply and have to purchase these from overseas suppliers. The process can be expensive because you need to buy a certificate to show that shipments are free from harmful pests and plant diseases. By pooling together funds and buying in bulk, firms could lower such costs.”

Additionally, he sees the potential for more collaboration between urban farms in Singapore. To date, collaboration has been minimal as the systems and processes used by various farms are not necessarily compatible.

But by being part of a larger ecosystem such as Sungei Kadut, farms could more easily share resources and services, such as diagnostic capabilities. At present, Mr Yeo notes that many farms are unequipped with the expertise to diagnose crop infestation problems or look into the nutritional profile of their produce. Diagnostic lab services to investigate such issues may also be too expensive for a single farm. However, such services are financially sustainable if shared by various farms.

Another possible synergy is coordinating key activities such as transportation to save costs. “For example, one farmer is growing microgreens and the other leafy greens, they share a common customer and are not direct competitors. Therefore, they could aggregate their produce and simplify logistics.”

Archisen itself has much to bring to the table when the eco-district comes to fruition. Aside from farming, the firm offers solutions in the fields of engineering and science.

For instance, the team employs skilled mechanical, electrical and automation engineers. These engineers look at factors like structure, ergonomics, ventilation and ways to maximise energy usage, to ensure that farms operate efficiently.

Archisen has also established numerous partnerships with local and overseas partners to further research & development (R&D).

One such partnership was a recent data science study with A*STAR that explored yield predictions of indoor farms. The team also engages biologists to study the physiology of the plants themselves.

“Food science is important to us too − we look at ways to increase the shelf life of our products and reduce food contamination,” adds Mr Yeo. “Our goal is to maintain the freshness of food for as long as possible, because it eventually goes to the food supply chain.”

Archisen is also exploring the idea of growing fruit crops in addition to its salad varieties. The project is currently in its research phase, and Mr Yeo admits that there are numerous technical challenges to consider.

As plants take months to produce fruit, longer experimentation periods are needed to determine if a particular climate setting is viable for crop growth. “Once the R&D improves and we’re confident that growth is viable, we will be able to launch the product,” he says.

All these efforts point back to Archisen’s main mission. “Beyond demonstrating that a farm is profitable, we’re demonstrating that it can be investable,” says Mr Yeo. He stresses that Archisen isn't merely investing in technology and research for academic purposes, but aims to create a commercially viable farming business in the long run.

“We’re striving to establish the largest network of urban farms in Asia, and we need to have an attractive value proposition to prospective partners and investors to work with us,” he says. “Then we’ll be able to build more farms to address Singapore's food security concerns.”


Sumber :

https://estates.jtc.gov.sg/sked/stories/high-tech-farming-means-high-collaboration-heres-why

Sumber video :

https://www.facebook.com/NasDailyBahasaIndonesia/videos/695146784430522/UzpfSTExNDI4MDY1MDM2MTQ5OToxNzU0ODYyODQyNDA5MzU/

Monday, September 28, 2020

Kurangi Sampah Plastik

Kebijakan Pemerintah Kurangi Sampah Plastik Dapat Dukungan dari Perusahaan Manufaktur 

Penumpukan sampah plastik masih menjadi isu yang susah dipecahkan di Indonesia. Bila tidak segera diselesaikan, masalah tersebut dapat mengancam kelestarian lingkungan. Berdasarkan data dari Asosiasi Industri Plastik Indonesia (INAPLAS) dan Badan Pusat Statistik (BPS) pada 2018, sampah plastik di Indonesia mencapai 64 juta ton per tahun. 

Dari angka tersebut, sebanyak 3,2 juta ton merupakan sampah plastik yang dibuang ke laut. Masalah ini menjadi perhatian khusus bagi pemerintah. Peraturan Menteri Lingkungan Hidup dan Kehutanan Nomor P.75 Tahun 2019 mengenai Peta Jalan Pengurangan Sampah oleh Produsen pun diterbitkan sebagai salah satu upaya pengurangan sampah plastik. 

Melansir Kontan.co.id, Rabu (1/7/2020), Direktur Jenderal Pengelolaan Sampah, Limbah, dan Bahan Beracun Berbahaya (B3), Kementerian Lingkungan Hidup dan Kehutanan (KLHK), Rosa Vivien Ratnawati berharap peraturan tersebut dapat mendorong upaya pengurangan sampah oleh produsen. 

Beleid tersebut mengatur kemasan produk yang dikeluarkan produsen. Kemasan yang dimaksud nantinya harus memenuhi standar dapat didaur ulang atau dikomposkan. Setelah itu, perusahaan diharapkan dapat membentuk sistem penarikan kembali kemasan untuk didaur ulang sebagai bagian dari penerapan ekonomi sirkular. 

Kata Rosa, aturan tersebut bukan hanya untuk kantong plastik, melainkan seluruh kemasan plastik sekali pakai lainnya. “Ada tiga jenis produsen yang diwajibkan mengubah kemasan produk dalam peraturan ini, yaitu manufaktur, ritel, serta jasa makanan dan minuman,” jelas Rosa. 

Langkah nyata kurangi sampah plastik Pada dasarnya, segala upaya pemerintah untuk menyelesaikan permasalahan tak akan menemui jalan keluar jika dikerjakan sendiri. Sesuai dengan Permen LHK tadi, pihak swasta perlu ikut berkontribusi, terutama dalam kemasan maupun hal lain terkait produk. 

Kini, salah satu pihak swasta yang sudah berinisiatif mengurangi penggunaan plastik dalam produknya adalah PT Bridgestone Tire Indonesia (Bridgestone Indonesia). 

Sebagai dukungan terhadap kebijakan pemerintah dalam mengurangi sampah pada 2025 seperti yang diatur pada Peraturan Presiden No 97 Tahun 2017 tentang Kebijakan dan Strategi Nasional Pengelolaan Sampah Rumah Tangga dan Sampah Sejenis Sampah Rumah Tangga, produsen ban asal Negeri Sakura itu mengambil langkah nyata. 

Pada awal September 2020, Bridgestone memperkenalkan label ban baru dengan tampilan yang lebih ringkas dan menarik. Ukuran label tersebut dibuat 40 persen lebih kecil dibandingkan label sebelumnya. Hal ini membuat penggunaan plastik berkurang. 

“Mengingat penggunaan label ban masih diharuskan di pasar Indonesia, kami memaksimalkannya dengan membuat desain yang lebih ringkas dan menarik,” ujar Presiden Direktur Bridgestone Indonesia Mukiat Sutikno dalam keterangan tertulis yang diterima Kompas.com, Rabu (9/9/2020). 

Mukiat menjelaskan, ukuran label baru itu merupakan dukungan perusahaan yang menaunginya terhadap program pemerintah mengurangi jumlah sampah plastik. 

Meski ukurannya lebih kecil, Mukiat menambahkan, label yang terdapat pada setiap ban memuat informasi terkait produk ban, informasi produsen, pemenuhan standar dan sertifikasi yang diperlukan, serta petunjuk penggunaan. Selain ukuran, Bridgestone juga memberi sentuhan terhadap label barunya dengan menambahkan QR code untuk mengakses fitur produk dan informasi produk penting lainnya. 

Menurut Mukiat, jika dihitung berdasarkan angka penjualan rata-rata tahunan ban Bridgestone di Indonesia, pengurangan ukuran label ban ini diperkirakan dapat membantu mengurangi sampah plastik sebesar 7 ton setiap tahunnya. 

“Inisiatif ini tentunya sejalan dengan misi CSR Global Bridgestone yaitu ‘Our Way to Serve’,” ujar Mukiat. Baca juga: INFOGRAFIK: Selain Dibakar, 4 Cara Kelola Sampah Plastik Misi itu, sambung Mukiat, merupakan refleksi dari fisolofi perusahaan yang ingin berkontribusi besar bagi masyarakat dengan memperhatikan dampak jangka panjang. 

Mereka mengistilahkannya dengan "Serving Society with Superior Quality". Dengan komitmen itu, Bridgestone tak hanya memastikan dapat menyediakan produk terbaik, tapi juga memastikan lingkungan yang sehat bagi generasi kini dan mendatang.


Sumber :

https://money.kompas.com/read/2020/09/18/111900226/kebijakan-pemerintah-kurangi-sampah-plastik-dapat-dukungan-dari-perusahaan?utm_source=nativeinarticle&utm_medium=desktop.

Friday, September 25, 2020

Plastic That Biodegrades in Water

A Woman Invented a New Kind of Plastic That Biodegrades in Water, and It’s a Step Oceans Are Crying For

The problem of plastic pollution has been piling up for decades, and finding ways to solve it has become an issue of top priority. Millions of tons of plastic are produced around the globe every year, and half of these are single-use items that are only used once, but stay in nature for hundreds of years. Sharon Barak, a chemical engineer from Israel, found a way to reduce the period of plastic decay from centuries to minutes.

Here at Bright Side we were happy to learn that the planet now has a groundbreaking way to fight plastic pollution, and here’s how it works.


Sharon Barak quit a plastic manufacturing company where she used to work to help the world fight pollution.

We all use plastic items in our everyday life, and now it’s probably impossible to imagine life without them. But conventional plastic is not eco-friendly and when thrown away it can stay in nature for decades and even centuries posing a threat for both animals and people.

According to experts, the average time to biodegrade is 50 years for plastic cups, 200 years for straws, and 450 years for plastic bottles. Chemical engineer Sharon Barak set a goal to make a product that would feel, look, and function like plastic, and dissolve in water doing no harm to nature at the same time. And she did it!

The plastic substitute Sharon invented functions as plastic, but dissolves in water in minutes.

Sharon and her team spent a lot of time mixing a lot of different components, until they finally found the right formula. The “fake” plastic Sharon invented consists of 100% eco-friendly materials that easily dissolve in water and become part of nature.

The product is so safe and natural, that you can even drink its water solution. If a bag made of this product accidentally gets into the ocean, it will become part of it in just a few minutes, posing no threat to sea animals, unlike an ordinary plastic bag.

Additionally, this new invention doesn’t need an elaborate process for recycling. When you’ve used an item, and you don’t need it anymore, you can simply throw it down the drain. As the team’s website says, the manufacturing process is not that complicated either — regular plastic bag making machinery can be adjusted to manufacture this innovative ocean-saving product.

Now Sharon and her team are developing their start-up for a cleaner and safer future for all of us.

Sharon sees a huge potential in this biodegradable plastic substitute that she has developed. It can be used for food wrapping, bottle manufacturing, and any other purposes that regular plastic is used for. Sharon and her team are working hard to introduce their invention to the world, and they believe that mass production of the eco-friendly “fake” plastic will make the world a better place to live.

What do you think of Sharon’s ambitious project? Do you think we’ll ever manage to substitute all of the world’s plastic for an eco-friendly solution like this?


Sumber :

https://brightside.me/wonder-curiosities/a-woman-invented-a-new-kind-of-plastic-that-biodegrades-in-water-and-its-a-step-oceans-are-crying-for-724110/

Sumber video :

https://www.facebook.com/NasDailyBahasaIndonesia/videos/994436321072327/UzpfSTExNDI4MDY1MDM2MTQ5OToxNzU0ODA1OTc1NzQ4Mzc/

Thursday, September 24, 2020

House from Bottle Glass

A small-scale company in Zanzibar transforms waste glass into bricks

Jan, 23, 2018  

The initiative started as a way to deal with the large quantities of waste glass that are produced on the island and stay untreated, ending up into the natural surroundings

Thousands of tourists visit the island of Zanzibar in East Africa each year and have become an important part of its economy. However, they contribute to the waste glass problem on the island as –up to now- there was neither a recycling nor a repurposing scheme set up for the huge amount of discarded glass bottles, which are left in piles in the beautiful natural surroundings. The company Bottle-Up was founded in 2015 to tackle this problem, by creating products made locally from waste glass and being sold in hotels on the island, as a collaboration of Dutch designers and local craftsmen. As a next step, they extended their series of products, by creating the bottle| brick, a building block made from glass and cement that is expected to be as strong as conventional bricks and price competitive with the local alternative.  

The idea of creating the bottle| brick (bb) to serve as aggregate replacement in bricks came up as a solution for the 15500 kg of waste glass brought to the bottle-up workshop by waste collection company Zanrec each month, out of which only 160 kg is used to make products for the Trending Terrazzo collection. For the glass cullet production, a Farasi hammer mill machine was designed, prototyped and built in Zanzibar. This low-tech and cheaply produced machine can process up to 10.000 bottles a day (8 times as much as the current supply of bottles) and can scale up the production of the bottle | bricks.

As part of his Master thesis, Industrial Design Engineer Lou Van Reemst from the Delft University of Technology conducted research on the bottle | brick’s material composition, in order to find the best strength properties, limitations, possibilities and its feasibility and viability for the island. The bb is made from the chupa (bottle) mix, containing 35% aggregate replacement with glass, which accounts for 42% of its weight. Lou made different sample bricks that were brought to the Netherlands to conduct compressive strength tests on. The results were compared with those of local Zanzibari bricks and were promising in terms of economical and mechanical feasibility, as the new material was found to be twice as strong and price competitive with the local alternative.

Although the product is still in its test phase, the first prototypes prove that it is possible to make strong building blocks from cement, glass fragments and crushed glass, while reducing the relatively expensive import of sand and gravel to the island. Bottle-up is considering to further develop the bb and the recycling process next year and use the income from the sale of bottle-up products to fund its expansion to large-scale production of the bottle | brick, while contributing to a cleaner island.  


Sumber :

https://www.thestructuralengineer.info/news/a-small-scale-company-in-zanzibar-transforms-waste-glass-into-bricks

Sumber video :

https://www.facebook.com/NasDailyBahasaIndonesia/videos/613196539363409/UzpfSTExNDI4MDY1MDM2MTQ5OToxNzU0ODA4MTc1NzQ4MTU/

Sunday, September 20, 2020

GREEN SUPPLY CHAIN MANAGEMENT IS IMPORTANT

WHY GREEN SUPPLY CHAIN MANAGEMENT IS IMPORTANT

Supply Chain Sustainability/Circular Economy

Green supply chain management means making transportation more sustainable

Making responsible environmental practices part of supply chain management isn’t just the moral thing to do, it’s also good business. A more sustainable supply chain is also a less wasteful supply chain, and reducing waste can lower a business’ total cost of business (TCOB) while also enhancing industry reputation. This is just one of many reasons why green supply chain management is important.


Crucially, implementing these practices is often a lot less difficult than managers expect. Overweight shipments, product damage, and rejected loads all contribute to increased costs and should be easy to avoid once they are identified. Making green supply chain changes like switching to plastic pallet pooling, improving warehouse lighting, and adopting better recycling practices help improve supply chains from beginning to end.  


Three Reasons Why Green Supply Chain Management Is Important

Sustainable supply chain management has wide-reaching effectsThe most obvious reason supply chain management is important is the environment. Cutting back on carbon emissions and conserving natural resources matters to everyone. But these are just some of the reasons why companies choose to “go green.”


Eighty-one percent of consumers around the world believe that businesses need to help improve the environment.


Aside from the environmental benefits, green supply chain management can offer:


Reduced Waste: Millions of tons of food is wasted within the supply chain every year. By making efforts to reduce that waste through improved process management and the adoption of lean policies, managers can eliminate costly losses that reduce their TCOB. 

Lower Transportation Costs: Companies typically try to bring down the weight of shipments as well as making trips shorter when they’re trying to reduce their greenhouse gas emissions. This results in lower transportation costs, as trips use less fuel and trucks suffer minimized wear and tear. 

Enhanced Reputation: Eighty-one percent of consumers around the world believe that businesses need to help improve the environment. This belief factors in to buying decisions and can hurt companies that don’t adopt sustainable practices. It also affects even businesses that don’t sell directly to consumers, as businesses seeking to reduce their environmental impact will look into their vendors’ policies on sustainable business practices.  


Green supply chain management offers far more benefits than its name implies, as managers also gain dividends from improved productivity and reduced bottom-line costs. Nor does implementing green policies have to be a complex endeavor. 



What Supply Chain Managers Can Do to Improve Their Environmental Impact 

Plastic pallets can make supply chain management more greenWhile many managers look to technology when it comes to improving the sustainability of their supply chains, these high-cost upgrades aren’t the only solutions. In some cases, smaller changes to existing business practices can still reduce environmental impact significantly. Some options to consider include:


Updating warehouse lighting: Lighting a large facility like a warehouse or distribution center is a major energy drain which is made worse when warehouse managers use outdated metal halide bulbs. Compared to modern LED lighting options, these bulbs require far more energy and have a much shorter lifespan. A quality LED lighting fixture can last more than five times as long as a metal halide fixture while consuming less energy and maintaining a consistent lumen output.

Expanding upward rather than outward: When more room is needed in a warehouse or distribution center, the most environmentally friendly (and often, the most cost-effective) option is to maximize the facility’s cube utilization by adding vertical storage racking. Mezzanines can also be used to add extra floors for additional storage while staying energy efficient.

Establishing a recycling plan: Cardboard and paper are generally recycled in the warehouse setting, but other items used in the supply chain are often simply thrown away. The plastic film used to wrap pallets can be recycled, it just requires extra effort in the form of collecting and baling the plastic and finding a recycling company willing to reclaim and process it. The same is true for recyclable plastic slip sheets. While some effort is required to set up a recycling program for these materials, the result can be a big step toward creating a supply chain for the circular economy.

Choosing plastic pallets over wood: Pallet supply provides an excellent opportunity for managers to improve their green practices. While wood is the most commonly used pallet material, wood pallets contribute to ongoing deforestation, pile up in landfills when no longer usable, and, in the case of reusable block pallets, may weigh more than 80 pounds, contributing to heavy fuel consumption and carbon emissions during transportation. Wood pallets also contribute to product damage that causes rejected loads and wasted products. Plastic pallets, on the other hand, don’t leave behind debris, are lighter than wood, better protect their cargo, and are recyclable, making them a green choice and a good way to improve the sustainability of your supply chain.

Pallet pooling is already putting the tenets of the circular economy into practice.


It’s not hard to understand why green supply chain management is important when one considers the impact of sustainable practices not just on the environment, but also on overall business costs. Plastic pallets have the power to transform the practices of a warehouse, distribution center, or an entire supply chain to make it greener and more efficient. Using a plastic pallet pooling program takes this one step further. While the business world is looking for ways to make their business practices more circular, pallet pooling is already putting the tenets of the circular economy into practice. A pallet pooling company is able to minimize transportation and empty miles by moving pallets among customers in the most efficient way possible. Plastic pallets make pooling even more sustainable because of their durability, light weight, long lifespan, low maintenance, and recyclability. 


sumber :

https://igps.net/blog/2019/10/17/why-green-supply-chain-management-is-important/

Thursday, September 17, 2020

Op Shops are So Much More Than Second-Hand Clothing

15 BEST OP SHOPS IN MELBOURNE FOR UNIQUE FINDS

 


We all like a bargain, but op shops are so much more than second-hand clothing at reduced prices. They are popular opportunity stores where you can find donated goods, vintage pre-loved fashion, homeware, or charming pieces of bric-a-brac. Visiting these establishments is sort of like opening a treasure chest, and you never know what you’ll find. From rare period garments and unusual accessories to quirky or chic second-hand items, all at a great value. The concept is also appealing because you can feel good about your purchases, knowing you are contributing to a charitable cause or encouraging a more green approach to fashion. Melbourne is famous for these stores, and we’ve found some of the best.


1. Vintage Sole

Vintage Sole believes that you don’t have to spend a lot of money to look good, and fashion can be both affordable and sustainable. The company first opened in 2005 and has since expanded into three Melbourne stores located in Fitzroy, Melbourne CBD, and Windsor. Shopping is even more convenient thanks to the addition of the online site. Customers can browse a wide variety of garments and brands and will likely come across a vintage find. They also follow contemporary trends and stock prestigious pre-owned brands like Tommy Hilfiger and Calvin Klein.


2. RetroStar Vintage Clothing

Band T-shirts, boots, and great jackets — like the Champion 1996 USA Olympics Spray Jacket — are some of the things you can expect to find during a visit to RetroStar Vintage Clothing. Located in the heritage Nicholas Building in Swanston Street Melbourne, RetroStar is a favorite for garments and accessories from the past. It has become the largest vintage store in Australia and has been in operation for almost two decades. The shop specializes in items from the 1940s to the 1990s and has a fantastic eclectic selection.


3. Camberwell Market

The Camberwell Sunday Market provides an excellent opportunity to pick up or sell second-hand goods and unusual finds. Held every Sunday morning, the market attracts people who want to purchase something different, but also want the thrill of being able to search the stores until they find that one, rare piece. All this, while being entertained by the buskers, who think of the location as their stage. Records, vintage clothes, and buttons are all found here, but the real appeal of Camberwell Sunday Market is that you could uncover a treasure. An interesting example is a story about what happened in 2002. A shopper purchased dolls from the Pacific islands, only to find out that they were rare items that would later fetch an impressive sum.


4. Shag

If you think of your clothes as bits of treasure, then you’ll fit in well with the people over at Shag. The founders of the store view themselves as being hunters and dealers of fine, wearable treasure. Shag was established in 1996 and remains in business today. There are two locations; Windsor and Collingwood, and the op shop source its items both locally and internationally. They bring consumers unique and colorful pieces, and sequinned jackets and bold beaded accessories are just some of the things you may discover.


5. Chapel Street Bazaar

Chapel Street Bazaar is located on Chapel Street, and it is a one-stop-shop for lovers of vintage, retro, and rare goods. It has over 80 stallholders, each passionate about selling their unique products. Visitors will find a wide variety of products, from the standard second-hand clothing and furniture; to records, movie posters, autographs, and advertising memorabilia. You never really know what you will find on a visit to the bazaar because they also stock taxidermy, photographic equipment, and toys.


6. Hunter Gatherer

The Hunter Gatherer stores have established themselves in the second-hand market, and are known and trusted by their consumers. HG, as the company is often referred to, operates under the Brotherhood of St Laurence, an organization that works to alleviate poverty across Australia. The shops are a fantastic source of interesting items, whether that be clothing and accessories or records and books. All items have been hand-picked, and there is a wide variety of things to choose from, making HG the perfect place to spend a morning searching for vintage pieces.


7. Storehouse Thrift

Storehouse Thrift works with Teen Challenge International Victoria, a charity that aims to give hope to those struggling with addiction. In operation since 2006, the establishment has continued to grow steadily with several locations in the city. Perhaps one of the most appealing things about this op shop is that 100 percent of the proceeds go towards supporting Teen Challenge International Victoria. Consumers can find seasonal trends and unusual pieces, and their purchase is also helping a good cause.


8. Secondo

Located in South Yarra, Secondo is considered one of Melbourne’s top second-hand boutiques for second-hand garments and accessories. The store stocks many designer brands, including Balmain, Chanel, Versace, and Zimmerman, and provides the opportunity for fashion lovers to find pre-loved items at bargain prices. Need another reason to love Secondo? They support the Prahran Mission and Siwali Community School for disadvantaged children in West Jakarta, Indonesia. Shoppers will also be pleased to know that the boutique is open every day and has a variety of high-quality items.


9. Sacred Heart Mission

The Sacred Heart Mission has 12 op shops, each of which are dedicated to working with local businesses and residents. Their business concept is quite simple; they want to raise funds and awareness for their work, but also promote a more green approach to shopping. Their stores in Melbourne contribute to 30 percent of their funds and are integral in aiding the homeless by providing care and support. You can find clothing, trinkets, and a wide variety of unusual accessories. You can also do your part by donating saleable goods or volunteering.


10. Red Cross Op Shops

When cleaning out your closet, you may come across high-quality items that you don’t wear anymore. Instead of binning them, consider donating to the Red Cross. These items will find their way to one of the many Red Cross op shop locations in the city, which are run by dedicated volunteers. At one of these stores, you can find anything from second-hand garments and vintage pieces to quirky homewares. Not only does shopping here encourage sustainable practices, but the profits made from the op shops aid their causes, and furthers their ultimate vision of human dignity, safety, and wellbeing for all.


11. Salvos Stores

Salvos Stores are the retail arm of the Salvation Army and are located at hundreds of places across Australia. No two locations will stock the same pieces, so depending on where you visit, you can find a wide range of items. Finds include furniture and homeware, but also second-hand clothing and bric-a-brac. It’s easy to find a Salvos near you with their store locator, but some favorites establishments include the Abbotsford and Fitzroy spots. When purchasing from one of these retail shops, 100 percent of the profits help fund the charity’s various programs. The stores also have an environmental mindset, encouraging efforts to help minimize waste and greenhouse gas emissions.


12. Vinnies Centres

The Vinnies Centres pride themselves on being a place where customers can purchase pre-owned goods at reasonable prices. Part of the St Vincent de Paul Society’s, there are 650 locations across Australia, and 100 in Victoria, making it easy to find one in your area. As for what you can discover during a visit to a local Vinnies, expect bric-a-brac, pre-loved clothing, and accessories, and even furniture. Purchases and donations to the stores will further their causes and help those in need. Vinnies relies on the generosity of individuals who donate items, and customers can also do their part by shopping here.


13. Family Life Opportunity Shops

You could be searching for just about anything and are likely to find it in an op shop. Family Life stocks books, clothing, furniture, and other homewares, and there’s no shortage of treasures to find. Visitors can discover, among other things, superb outfits and designer labels at a massively reduced cost, or snap up a bargain on leisurewear. There are five ‘social enterprise opportunity shops’ that can be found across the Bayside area of Melbourne. The stores have close ties with the community which it serves. The purchase of these products goes towards a good cause, as Family Life helps families in need. They also have a work program in place which trains individuals, allowing them to gain the skills and experience they need to secure jobs.


14. Shappere

Shappere is a must-visit op shop for fashion enthusiasts! The store describes itself as being filled with wearable vintage and is open from Monday to Friday. It’s the perfect place for style-lovers or those who want to add something different and fun to their wardrobe. Items are sourced from multiple locations across the globe, and their highlights include an impressive range of boots. Visitors will also find clothing for both men and women, an excellent selection of bags, leather belts, and shirts that are bold and bright!


15. Vintage Garage

Smith Street in Collingwood is home to Vintage Garage, and it’s a real gem! Perhaps a marketplace would be a more accurate description because this unique establishment has more than 40 specialist dealers, each of whom is passionate and knowledgable about what they’re selling. Vintage Garage has something for everyone and to suit every taste. If you want edgy streetwear, or something funky to wear to a festival, they’ve got it. If records and memorabilia, or unique homewares and signages for your house are more to your liking, this is still the place to go.


Sumber :

https://www.thetrendspotter.net/op-shops-in-melbourne/

Sumber video :

https://www.facebook.com/NasDailyBahasaIndonesia/videos/292394208693037/UzpfSTExNDI4MDY1MDM2MTQ5OToxNzU0ODY0NDc1NzQyNTI/

Tuesday, September 15, 2020

BENEFITS OF A CLOSED LOOP SUPPLY CHAIN

WHAT ARE THE BENEFITS OF A CLOSED LOOP SUPPLY CHAIN?

Supply Chain Sustainability/Circular Economy

One of the benefits of a closed loop supply chain is money saved through reuse
Sustainability and environmentalism have transformed from topics at the fringes of society to mainstream concerns that affect consumers’ daily lives and purchasing decisions. Recyclable packaging and environmentally friendly certifications are found on many products. More and more customers look for these marks when shopping for food and packaged goods. However, there’s a clear consensus that just using recyclable materials in packaging is not enough. Increasingly, closed loop supply chains, which reuse all of their materials as-is, recycle them into new products, and otherwise find ways to prevent waste are being held up as the logistics model of the future.

The most important benefit of a closed loop supply chain is the reduction of waste. However, the upfront design work to create reusable or completely recyclable packaging, the work of tracking it for reuse, and incentivizing its return can involve a significant cost. As a result, companies are looking for direct financial benefits to justify the cost and effort of making the switch to a closed loop supply chain.


The Financial Benefits of Closed Loop Supply Chains

Recycling plastic to keep it in the supply chainIn truth, the benefits of a closed loop supply chain are indirect. Transitioning to a closed loop supply chain only translates into direct financial benefits to a company over the long term. Complicating matters further is the fact that closing the loop can’t be done quickly. It takes years of research to develop a circular business model, and further years of dedicated effort to fully close the loop and create a zero-waste supply chain. In fact, most companies haven’t yet reached the official zero waste mark at which 90 percent of materials are diverted from landfills. Nevertheless, a closed loop supply chain is worth pursuing due to the following benefits:

Reduced Waste: Efficiencies save money on every operation. Redesigning packaging to reduce the amount of packaging material used for each product can save money, and, if the overall weight is reduced, can also help save on fuel costs. If the redesign makes packaging easier to recycle, some material costs can be recouped as well.

Perception: The wider public is concerned about the environment and becoming increasingly so every day. Consumers are willing to pay more for environmentally friendly products. In fact, the public’s perception of the effort to go green is one of the most immediate benefits of working towards a closed loop supply chain and can boost sales, helping to offset many of the costs of initiating recycling and reusability initiatives.

Customer Loyalty: Sincere ongoing efforts to improve recyclability and material reusability can result in loyalty to a brand. This can be reinforced by refill initiatives in which consumers refill reusable packaging instead of discarding it after a single use. A truly closed loop supply chain for consumer package products resembles a product-as-a-service (PaaS) model, similar to digital marketplaces, in which customers are tied to a certain operating system and its ecosystem of applications.

Shaping Regulation: Companies that work towards a closed loop supply chain ahead of any regulatory mandate that they do so pioneer the methodologies that will be used in the future. This gives them an advantage in that they can work with regulators to help shape future regulations and can provide their services to help other companies with compliance when regulations are enacted.
Being “ahead” of other businesses can bolster a company’s reputation, enhancing customer perceptions and building brand loyalty.

Perhaps the biggest of these advantages is the opportunity to be ahead of regulations and to be able to provide the model that shapes those regulations. Being “ahead” of other businesses this way can, in turn, bolster a company’s reputation, enhancing customer perceptions and building brand loyalty. Being ahead of the crowd is not an easy option though. It requires advanced planning and a degree of trial and error.


Building a Closed Loop Supply Chain

Reusing packaging helps create a closed loop supply chainConsumer durables such as appliances and electronics are more often recycled than other goods because the metals and rare earths that go into these devices retain much of their value. This provides some incentive for waste management companies and recyclers to pull these out of the waste stream and tear them down for recycling. However, even with these incentives, only a small percentage of electronics and appliances are recycled. In the consumer packaged goods market, where the monetary value of individual packaging is minimal and the incentive for recycling it is nonexistent, creating a closed loop supply chain is much more difficult.


Building a closed loop supply chain involves incentivizing the recycling of packaging.

Supply chain management within the circular economy is still primarily concerned with reducing, reusing, or recycling consumer packaging, and most consumer packaging is already recyclable to some degree. Part of the issue is that very few consumers make the effort to put it into the recycling stream and it instead ends up in a landfill. At a minimum, building a closed loop supply chain involves incentivizing the recycling of packaging. However, redesigning packaging to be biodegradable or easier to recycle is likely to be more effective and less costly over the long term.

Another option being tested by some of the world’s largest consumer brands is the PaaS model. Instead of purchasing a product, consuming it, and discarding the packaging, consumers instead participate in a refilling service. They receive a container that is meant to be saved and either take it to a retailer to have it refilled or use a service that drops off new, full containers while reclaiming empty ones for washing, sanitization, and refilling. This is a fundamental change in the way that consumer packaged goods do business. However, it does secure a more consistent market share over the long term as the consumer is a part of a product ecosystem that functions similarly to an online product library.

Plastic pallet pooling is one example of a closed loop supply chainAll of these methods for developing a closed loop system take time. However, companies can begin to reap the benefits of a closed loop supply chain model by choosing a pallet pooling service. Pallet pooling companies use a closed loop system to rent pallets to their clients. While pooled wood pallets will eventually wear out and end up in a landfill, plastic pallet pooling programs that use recyclable HDPE plastic pallets are true closed loops. In this cradle-to-cradle model, every plastic pallet can be recycled directly into another plastic pallet after it reaches the end of its long lifespan.


Sumber :
https://igps.net/blog/2019/09/06/what-are-the-benefits-of-a-closed-loop-supply-chain/

Sunday, September 13, 2020

Circular Economy and Effective Waste Management

The Role of Chemical Recycling in a Circular Economy and Effective Waste Management

November 18, 2019 | Jim Lane

By Zoltan Kish, Ph.D., Lee Enterprises Consulting, Inc.


The increasing amount of waste is one of the most challenging problems facing the World, which creates enormous environmental problems. According to the World Bank, Canada produces the most waste per capita in the world. Additionally, Canada recycles just 9 percent of its plastics. Banning foreign waste import by China and other countries has not helped the waste recycling business in Canada. In addition, shifting the recycling program to the producer responsibility by the Ontario Government, will reduce further plastic waste recycling and will increase the plastic pollution. A ban of certain single-use plastic products (e.g., straws, bags) may not solve the spread of plastic litter and environmental problems. Without more effective and sustainable ways to manage produced waste, more and more waste will end up in landfills polluting our land, water, and air.

At the same time, we have a tremendous business opportunity to convert waste into usable sustainable products. According to a market study report prepared by Market Insights Reports, the smart waste management market was valued at $1.41 billion (USD) in 2018 and is expected to reach $5.19 billion by 2024, registering a compound annual growth rate (CAGR) of 25.68%, during the forecast period of 2019-2024.

Contaminated and mixed waste products (e.g., plastic, paper, industrial waste, medical waste, MSW) are challenging to recycle by mechanical/physical processing. Especially, traditional plastic waste recycling has difficulties and limitations. Mechanical sorting is not effective for mixed plastic waste. Thousands of different types of plastic are manufactured by combinations of different resin types, dyes, and additives. In addition, the plastic material quality is very susceptible to contamination. Even carefully selected plastic materials can only be recycled limited times in similar products since it degrades every time after reheating. Therefore, most plastic products are downcycled into items of reduced value, such as textiles, toys or fibres, and eventually, end up in landfills and water resources creating tremendous environmental problems. Replacing plastics with alternative materials, such as glass and metals would cost more to manufacture due to the higher energy and other resource consumption. The problem is the way of the current waste management operating.


On the other hand, waste plastic can be recycled into high-value products using advanced and cost-effective waste conversion technologies. The circular economy is not only based on simple reusing waste products. The purpose the recycling is to redesign and convert waste into forms retaining as high value as possible in a circular economy. We need sustainable and effective waste management to protect our environment and develop a working circular economy. In a circular economy, chemical recycling can play a pivotal role in waste conversion into usable materials and clean energy.


Chemical recycling as waste recycling using effective waste conversion technology is essential for a working circular economy. Illinois and Ohio have become the most recent states to pass laws making it easier to build chemical recycling facilities, regulating them as recycling operations rather than waste processing plants. Canadian Government could also consider that as a tool to develop a new approach – “Chemical Recycling” in waste management. Regrettably, Canada and other G7 countries are planning to use waste-to-energy incineration as part of a plastic pollution solution. However, incineration is a very costly and inefficient way for waste conversion into energy and generating highly toxic and carcinogenic pollutants.

The environmental impact of waste can be minimized by proper waste management applying advanced waste conversion technologies. The government should address the demand to solve the incredible waste accumulation problem by developing appropriate tools for waste management challenges and supporting the development of effective waste conversion technologies. We should focus more on waste diversion from landfills and water resources, and the conversion of waste into high-value products. Garbage can be converted into high-value clean energy and sustainable products using advanced and cost-effective waste conversion technologies, such as anaerobic digestion, pyrolysis, gasification, plasma-enhanced gasification, and steam gasification. Therefore, the circular economy should include the use of effective waste conversion technologies to produce high-value usable products. Perspectives of different waste conversion technologies are provided in the article – “Perspectives on Waste-to-Energy Technologies”.

Chemical Recycling should be based on reliable and cost-effective waste conversion technologies. Therefore, it is very important to do technical due diligence before investing and applying new technology to prevent wasting time and money. Regrettably, investors often do not take the time to evaluate the proposed technology and, therefore, the underlying scientific/technological basis of the business is often neglected in the CleanTech sectors. As a result of this, enormous and overpriced facilities were built producing not profitable products. In addition to financial data and management of the company, the underlying scientific/technology base of the applied technology should be considered. Science is supposed to be an essential pillar of a successful and sustainable business. Consequently, it is very important to properly establish the underlying scientific/technology base for applied technologies to build a successful waste conversion plant. The success of waste conversion technology applications depends on the following main factors:

The underlying scientific/technological basis of the process
Implementation of effective scrubbing systems to remove contaminants
Process modelling
Mass & Energy balance
Proper engineering design
Financial data based on mass & energy balance
Waste feedstock evaluation, preparation and availability
Waste energy conversion efficiency
Quantity and quality of the produced products
Applications of the products
Cost-effectiveness of the project

As a result of many years of development, a unique and cost-effective waste convection technology has been developed and tested at the pre-commercial waste conversion facility.  The developed technology is based on a steam gasification process in combination with a reliable scrubbing/cleaning system. The steam gasification technology represents a potential alternative to the traditional treatments of waste feedstocks (e.g. plastic, biomass, MSW, sewage sludge, industrial by-products) to produce high-quality syngas, which contains no noxious oxides and higher hydrogen concentration than products produced by traditional gasification. The chemistry is different due to the high concentration of steam as a reactant and the total exclusion of air and, therefore, oxygen from the steam reformation process. The proposed technology using an indirectly heated kiln in combination with a reliable and effective scrubbing/cleaning system without a feedstock sorting requirement. The technology uses “off the shelf” commercially proven equipment, which significantly lowers the capital and operating costs compared to other waste conversion technologies.

In a working circular economy, a solution for waste disposal and clean energy and sustainable product regeneration is an effective waste conversion technology application based on thermo-chemical and bio-chemical processes. The produced product type depends on the types of feedstock and reactants, and the applied processing conditions as applied physico-chemical interaction conditions in the system. The applied waste conversion technology type depends on the waste feedstock composition and the market requirement on the produced products from waste. The suitable waste conversion technology can divert waste from landfills and convert waste into usable products and prevent contamination of our environment. The waste steam gasification technology as a cost-effective process is most suitable for contaminated and mixed waste (including plastic waste) conversion into various forms of high-value sustainable products, such as electricity, hydrogen, liquid synthetic fuels, and chemicals. At the current stage, based on market demand, hydrogen production from mixed waste (including contaminated plastic waste) is the most cost-effective solution. Using the steam gasification technology for waste conversion into hydrogen is an opportunity for a profitable business, which can solve the world’s biggest problem – the enormous waste accumulation.

There is a requirement for a new and innovative approach in the development of a solution for waste management challenges, waste recycling, plastic waste pollution reduction and a working circular economy. The used waste conversion technologies should be efficient and combined with a reliable scrubbing/cleaning system to remove contaminants in order to generate clean/ renewable energy and other sustainable products and prevent pollution of the surrounding environment. The application of advanced and effective waste conversion technologies can offer an innovative solution to the waste accumulation problem and making a positive impact on the protection of our environment.

Chemical recycling based on cost-effective waste conversion technologies can provide a fundamental shift in the way of produced waste handling in a circular economy. In the working circular economy, the use of cost-effective waste conversion technologies is an innovative waste management strategy to divert waste from landfills, produce clean energy and sustainable products, reduce depletion of natural resources, protect our environment, save time and money. Chemical recycling is a comprehensive and innovative solution to the complex problem of waste management and moving towards a circular economy.


Sumber :
https://www.biofuelsdigest.com/bdigest/2019/11/18/the-role-of-chemical-recycling-in-a-circular-economy-and-effective-waste-management/

Sunday, September 6, 2020

Circular Economy: A Sustainability Innovation and Solution for Oil, Gas, and Petrochemical Industries

Sami Alnuaim, 2019 SPE President | 01 May 2019

There is no doubt that the world today consumes materials in all domains more than needed, possibly double or even triple what it needs. As a result, part of our world’s natural resources end up polluting the land and sea with a growing trail of waste. Sustainability requires being more efficient—conserving, recycling, and reusing to minimize the impact of everything we do. The developed world must no longer tolerate the buildup of mountains of waste while other places in the world, especially in underdeveloped countries, lack access to energy, food, clean water, and clean air.

The world’s population is projected to increase to 9 billion by 2040, adding 1.7 billion people in 20 years (85 million every year). Sustaining current levels of consumption while population grows that fast will be challenging. Most of the population growth will be in underdeveloped countries, with almost half in Africa, a continent with the highest levels of energy poverty and the lowest economic growth. In 2017, the population of Africa was roughly equivalent to the Organisation for Economic Cooperation and Development’s designated developed countries (each about 17% of the world’s population), but in terms of gross domestic product, the developed countries accounted for 63% of the world, and Africa only 3%. As these countries grow and develop, they will be challenged to overcome the vast disparity and bring energy to their expanding population. 

As the oil and gas industry works to make our operations more sustainable, we can adopt the mindset of a “circular economy.” The circular economy is an alternative to the traditional linear economy (i.e., make, use, and dispose) in which we keep resources in use for as long as possible, extract the maximum value from them while in use, then recover and regenerate products and materials at the end of each product service life. The circular economy keeps goods in use as long as possible through recycling and reuse, thereby decreasing the need for raw materials. This, in turn, reduces carbon intensity and our carbon footprint. 

Recycling used materials and plastics instead of disposing or burning them as waste is one important way to make better use of valuable resources, and create a new economy through new business opportunities. There are opportunities throughout our value chain from upstream to downstream to deploy new models of energy conservation. We are already making significant progress in recycling and reusing produced and flowback water. But where else can we reuse the fluids, materials, and equipment that go into supplying the world with oil and natural gas? Can we reach a certain target (%) for incorporating circular economy concepts across our industry? I believe that there are numerous opportunities for which a positive business case exists.

In the upstream, there are numerous opportunities for recycling and reuse. Many of our tools and equipment are made from steel—creating opportunities for recycling. When we decommission an offshore platform, companies are already working to remove anything that can be recycled, and in some cases, parts of the substructure are turned into beneficial artificial reefs. Companies are being smarter about recycling or reuse of drilling fluids and chemicals. We are conserving energy in our operations through cogeneration using spent steam, waste gas, and heat exchangers.

Globally, our operations produce several billion barrels of produced and waste water. Much of that water is brine, which can be environmentally damaging if not properly disposed. But brine contains valuable and high-demand minerals that can potentially be extracted for use by other industries. The waste water can be further treated and used in other operations or disposed. Where possible, disposal to the original formation can help to maintain reservoir pressure, increase recovery, and eliminate environmental impact. 

The refining segment of our industry has opportunities to address both water use and advanced materials such as catalysts and chemicals. Going forward, refiners need to develop methods for recovering and recycling spent catalysts and chemicals. They can also conserve energy and use spent heat and steam to generate power to meet refinery needs, with the potential to export excess power to a nearby grid. The industry’s procurement strategy should begin to consider the extent to which suppliers take sustainable and circular approaches to products.

The petrochemicals portion of our industry began making R&D investments more than a decade ago to address the environmental aspects of plastics. While plastic has made a huge difference in so many areas of human life and activity, it was purposely designed to be very durable and have a long life cycle. Plastics are nonbiodegradable materials that must be treated, recycled, or disposed of after use.

According to a 2017 study in the journal Science ­Advances, 75% of all plastic made since its introduction has ended as waste. Of this waste plastic, 9% has been recycled, 12% destroyed (burned), and the remaining 79% has ended up as trash, either in landfills or free-floating in the oceans. The opportunities for recycling more of this plastic waste seem substantial. According to McKinsey & Company, the volume of plastic going to recycling could increase fivefold by 2030. McKinsey also projects that the industry based on recycled plastics could generate a worldwide profit of approximately $55 billion/year by 2030. The business case for recycling is clear.

The McKinsey report outlines three principal approaches to plastics recycling:

  1. Mechanical recycling, which physically processes used plastic back to pellets, leaving the polymer chain intact
  2. Chemical recycling, breaking condensation-type polymers down to their monomers
  3. Processing back to feedstock through catalytic or thermal means (circular)


A good example of the petrochemical industry’s commitment to sustainability and the circular economy is the work being undertaken by SABIC, a leading global chemical company based in Saudi Arabia. (On 27 March, Saudi Aramco signed a share purchase agreement to acquire a 70% majority stake in SABIC.) SABIC built a feedstock recovery pilot project in Germany that uses plastic waste to produce synthetic feedstock. This recycled feedstock can be processed into any desired petro­chemical product. The company intends to collaborate with others to build the first commercial plant in the Netherlands to refine and upgrade a valuable feedstock, which will be produced from the recycling of low-quality, mixed-plastic waste otherwise destined for burning or a landfill. I am certain that SABIC is not the only company pursuing such strategies to address the growing challenge of plastic waste. The potential is huge for reducing the growing volume of plastic waste by turning it into other products. I expect to see more R&D investment by our petrochemical cousins in this area. 

Tires are another great opportunity to turn waste into value. Some studies show that every year almost 1 billion tires are disposed globally, with 50% of those tires going either to landfills or burners, allowing a valuable resource to go to waste. According to the US Tire Manufacturers Association, modern tires include up to one-quarter synthetic rubber, which is made of polymers that come from crude oil. Tires include steel, carbon black, silica, and other materials that also have recycling potential. Several companies around the world have established sustainability programs and started recovering these valuable resources in waste tires with the goal of recycling a significant percentage of tires. The future of tires is looking even more circular.

Waste to energy can also be a business opportunity. Energy can be created from waste products through primary treatment or processing. This often comes in the form of electricity, heat, or fuel. Recovering energy from waste is both circular and a means of meeting the energy needs of a growing population.

The benefits of pursuing a sustainable, circular approach to consumption are clear. We can reduce the impact on our planet’s resources, reduce our carbon intensity, and decrease the growing piles of waste materials. There can be a clear case for recycling and reuse, creating new business opportunities. Our companies can make these principles part of their core business across the value chain. Significantly reducing waste will require more investment in R&D as we find new ways to reuse things that would otherwise end up in a landfill. Identifying these new opportunities will be key to reducing our industry’s environmental impact.

I hereby challenge our industry to explore breakthrough technologies that will allow us to achieve this noble objective. We must act together and collaborate with governments and technical, operational, academic, and social societies. We must lead by example. We owe that to the future generations living on Earth for hundreds of years to come.


Sumber :
https://pubs.spe.org/en/jpt/jpt-article-detail/?art=5340

Friday, September 4, 2020

Supply Chain for The Circular Economy

SUPPLY CHAIN MANAGEMENT FOR THE CIRCULAR ECONOMY: REDUCING WASTE AND LOWERING COSTS

Supply Chain Sustainability/Circular Economy


Supply chain management in the circular economy focuses on eliminating waste to improve operational efficiency and cut costs. Finding opportunities to create and support a circular supply chain requires that businesses audit their processes, labor pools, and the tools that support them. By reviewing these elements with a critical eye, most supply chain managers will discover simple ways to improve production efficiency.

One major area of opportunity is the pallet fleet. Many manufacturers use outdated pallets that cause more waste than is immediately evident. If all companies switched from wooden pallets to plastic tomorrow, an estimated $750 million to $3 billion in annual supply chain waste would be eliminated. There is a clear opportunity here for supply chain managers who want to reduce waste in their supply chain and create a circular business model that will ultimately lower their Total Cost of Business (TCOB).


Why Strive for a Circular Economy?

Linear economic models create–and even depend on–an enormous amount of waste. Items like packaging are purchased with the expectation that they will reach the end of their useful lives after one trip through the supply chain. For a long time, these traditional models were a given. Companies made no real effort to avoid waste in production and transportation because resources were cheap and seemed infinite. They kept making and shipping products, paying little attention to what happened to those products and their packaging at the end of the supply chain.

Single-use packaging and transportation equipment, such as plastic wrap and stringer pallets, can be recycled or replaced with longer-lasting reusable versions.

Circular economic models challenge this idea that waste can’t be avoided; instead, they find ways to reuse or reallocate used or extra resources. These circular models seek to extend the useful lives of tools and other items by keeping them in the supply chain through repair or recycling. Machinery can be leased, rather than owned, to allow producers to pivot more easily to new technology as needed. Single-use packaging and transportation equipment, such as plastic wrap and stringer pallets, can be recycled or replaced with longer-lasting reusable versions. The circular economic model strives to close the loop in production and keep resources inside the company.


Why Single-Use Wood Pallets Aren’t a Good Fit for the Circular Economy

Wood pallets aren't a good fit for the circular economyPallets play an important–and large–role in the typical supply chain. It’s estimated that 80 percent of all U.S. commerce is carried on a pallet. As a result, the type of pallet used in a supply chain will have a major impact on that manufacturer’s ability to sustain a circular business model.   

Single-use wood pallets have distinct disadvantages because they have short, linear life cycles. They’re made, they’re used, and they’re trucked to landfills or ground into mulch. When a manufacturer purchases a stringer pallet, they’re getting a guarantee that, eventually, they’ll have to throw that pallet away or sell it at a loss. This directly creates waste that doesn’t support a circular supply chain or do anything to help a business’ bottom line.


Essentially, stringer pallets create waste as a byproduct of their use.

However, direct waste is not the only waste that results from wood pallet use. Wood pallets can leave behind debris and dust that increase housekeeping costs. Wood splinters and fasteners like nails and staples can come loose and damage equipment. That equipment will have to be repaired or replaced at the manufacturer’s expense, which wastes time and creates production delays. Wood particles can even get into products like food or medicine and cause contamination that leads to recalls–and, as a result, food waste.

Essentially, stringer pallets create waste as a byproduct of their use, affecting a company’s ability to build a closed-loop supply chain that will support the planet and their budget. An easy way to reduce waste in the supply chain is to switch out flimsy wood platforms for sturdier pooled platforms such as sustainable, recyclable plastic pallets.


Pooled Plastic Pallets Support Supply Chain Management in the Circular Economy

Plastic pallets being washed to reenter the pallet poolAny change a manager can make to his supply chain that eliminates waste is a step toward a circular economic model. This is why plastic shipping platforms are an increasingly popular alternative to wood pallets. There’s no point in the lifespan of a high-quality plastic pallet in which it becomes waste. Instead, when a plastic pallet reaches the end of its useful life, it’s ground down and used to create other pallets. A plastic pallet essentially has a circular lifespan, making it the perfect choice to support a circular economic model.


Overall, plastic pallets contribute to the reduction of supply chain waste and are simply more sustainable.

Plastic pallets also create less indirect waste than wood pallets; for example, they don’t shed wood splinters that require cleanup. They don’t have metal fasteners that could work loose and get into packages or damage equipment. In addition, since they’re as much as 35 pounds lighter than their wood counterparts, they require less fuel during transportation. Overall, plastic pallets contribute to the reduction of supply chain waste and are simply more eco-friendly, making them a great fit for a circular, sustainable supply chain.


Pallet Pooling Is the Circular Economy in Action 

Leasing pallets rather than purchasing them is another way to practice supply chain management for the circular economy. Renting pallets puts the responsibility for managing and replacing pallets in the hands of a third party specialist who is able to track, retrieve, repair, and recycle pallets in a much more efficient way than if the same assets were managed in-house.

Pallet pooling supports a circular economy because it’s a true circular model, one of a relative few being actively used in business. Both wood block pallets (which are sturdier and more reusable than basic stringer pallets) and plastic pallets can be rented through an efficient, circular pallet pool model; however, plastic pallets are even more durable than block pallets and are better suited for the circular economy. Instead of ending up in landfills, high-quality plastic pallets can be recycled into new pallets at the end of their long useful lives (a strong plastic pallet can make up to 100 trips through the supply chain, far more than a wood pallet’s typical 15 to 20 trips). Any supply chain manager who wishes to build a closed-loop supply chain should consider the low-waste, cost-saving model of plastic pallet pooling.


Sumber :
https://igps.net/blog/2019/07/11/supply-chain-management-for-the-circular-economy-reducing-waste-and-lowering-costs/

Tuesday, September 1, 2020

Recycled Plastic Bottles into Clothing

Kastlfel


We turn recycled plastic bottles into clothing that’s beautiful, comfortable, stylish and good for the planet. Kastlfel is involved in every phase of development—from concept to creation.

ALL INCLUSIVE PRICING!
Shirt cost - 1 location, 1-3 color print - Namedrop design and or logo artwork!

Design:
-100's of namedrop designs
- We work with your artwork
- Custom art at a competitive price

Print:
- Award winning print plant local to Denver, CO
- Best color separators in the world
- Top 5 Screen print shop in the nation
- Water-Based Inks - PVC, Phthalate free, Ecofriendly  (sustainable Value)

Finishing:
- 30ft folding machine
       - Fold 800 shirts an hour!
- Sticker, Tagging, individual folding

Product: All sustainable, super soft, fashionable and at wholesale pricing!
- Shirts
- Hoodies
- Tanks
- Scarves
- Polos
- Henley's



The recycling process of potentially useful waste can end up as wearables. 🧐
This way, consumption of fresh raw materials might be reduced to present a greener future. ♻️


Sumber :
https://www.alignable.com/lakewood-co/kastlfel/kastlfel
https://www.trendsmap.com/twitter/tweet/1300674751606583297

A Robust Circular Economy for Water

We need a robust circular economy for water, our most useful resource

By Nick Jeffries & Tansy Fall

August 28, 2020


Water is a vital resource that has fueled human progress. It transports solids, dissolves minerals, chemicals and nutrients and stores thermal energy. This "carrier characteristic" allows for countless industrial, agricultural and transport processes that enable our society to thrive.

But water is also key to life. The water in our oceans is home to phytoplankton that produce 70 percent of the oxygen we breathe. The lakes and rivers, and the groundwater beneath our feet, are our sources of drinking water without which we would soon perish. The food we eat relies on fresh water to grow.

In nature, water purifies and renews itself endlessly as it flows through the planet’s hydrological cycle. But nature’s capacity to renew on her own is being disrupted. In the last century, intensive industrial activities and urbanization have significantly affected our water supplies.

To make just one pair of jeans, for example, requires around 1,981 gallons of water and produces difficult-to-clean wastewater. With the number of clothes produced annually doubling from 50 billion to 100 billion units in the last 15 years, industrial water use in the clothing industry alone also has increased dramatically.

To make just one pair of jeans requires around 1,981 gallons of water and produces difficult-to-clean wastewater.
Extrapolating this growth across the economy, and factoring in an expanding population, it is easy to understand why the United Nations estimates that water demand will exceed easily accessible supply by 40 percent in 2040.

To make things more complex, the evolving climate emergency is leading to more unpredictable rainfall and greater frequency of extreme and unusual weather events. This has manifested as floods in South East Asia, droughts in California and Australia and wildfires in Greenland. The recent U.N. Water Policy Brief on Climate Change and Water is unambiguous on such effects: "The global climate change crisis is inextricably linked to water."

Water is never waste
With more unpredictable weather events and increased demand for fresh water, the ways in which we use and reuse water resources have never been more important. Reimagining wastewater not as a costly problem but as a valuable resource is a good illustration of this.

One example is the El Torno wastewater treatment plant in Cadiz, southern Spain. Like thousands of similar treatment facilities across the world, El Torno receives wastewater flows from surrounding businesses and homes, which it purifies so the water can be safely discharged into the nearby river. However, an aerial view of the El Torno site shows this plant to be different from the rest.

Extending from the North West corner of the facility is a pair of very straight emerald green channels, each about 328 feet long. In these "raceways," algae are cultivated that produce oxygen to fuel the biological treatment of the wastewater, thus almost eliminating the need for an energy supply to the facility.

To avoid suffocating the water flow, dead algae constantly are harvested and pumped to an anaerobic digester where they are converted into biogas. The gas is then scrubbed of impurities, leaving pure biomethane, which is pressurized and used to fuel a fleet of cars. Results from the full-scale pilot facility indicate that just one hectare of algae can treat the effluent of 5,000 people and produce enough biofuel to power 20 cars driving 18,600 miles a year. Although the burning of biomethane produces carbon dioxide, it releases only the same amount of CO2 that the algae absorbed while it grew. Carbon also remains in the byproducts of this process, which can be returned to the soil of local farms, meaning that the process has the possibility of being net carbon positive.

When we connect systems such as this and think of them as a whole, it is possible to transform a costly carbon emitting process into both an economic opportunity and a means of addressing a number of global challenges. The implications are significant. Wastewater treatment consumes about 3 to 4 percent of U.S. energy demand. In India, inadequate wastewater treatment, due to unreliable or expensive power, costs the Indian economy more than $50 billion a year. Imagine the positive impact that could be made if all future new wastewater treatment facilities in Africa, for example, were designed as power plants.

This is not a pipe dream. Such an idea is rapidly becoming a reality in many cities around the world, not just at El Torno, but also the Ebjy-Molle plant in Aarhus, Denmark, the Strass plant in Innsbruck, Austria, and the Gresham City plant in Colorado, which all operate as energy positive. This thinking is a hallmark of the circular economy — a system re-design inspired by nature that aims to decouple economic growth from the consumption of finite resources.

Not all water is equal — reusing water
While treatment of wastewater always will be necessary, we can also can prevent a lot of water from becoming "waste" in the first place. Depending on the use, different water quality standards are acceptable. For example, a typical microchip facility requires nine custom varieties of water. This includes water for toilet flushing, water fountains, air-con units and mixing of chemicals, as well as the most expensive ultra-pure water for cleaning semiconductors. An IBM microchip factory in Vermont demonstrated that recycling water can generate a whole swathe of additional benefits besides just lowering freshwater consumption. Between 2000 and 2009, IBM engineers started using IoT technology to manage water more effectively in IBM's Burlington factory. As a result, $740,000 per year was saved on water use, which generated almost $3 million in savings on chemicals and energy. In other words, for every $1 saved on water, $4 were saved in other resources.

While treatment of wastewater always will be necessary, we also can prevent a lot of water from becoming ‘waste’ in the first place.
Products and systems also can be developed that enable reuse and recycling of water in the home. Boston-based business Aquafresco has a patent-pending filtration system that allows 95 percent of laundry water to be recycled, and also 90 percent percent of detergent to be collected for reuse. Similarly, Dutch company Hydraloop has developed an easy-to-install system that collects shower and washing water, economically converting it to a quality suitable for washing, toilets, garden use and swimming pools. Hydraloop can save a typical household almost 8,000 gallons of water per year.

Cities have a unique opportunity to make the most of such innovations. Las Vegas, Singapore, Windhoek and Berlin all recycle their water in different ways, allowing the cities to improve water security and greatly reduce costs. The Solaire apartment block in New York recycles 43,600 gallons of water per day, allowing for secondary use in toilets, air-con systems and roof-top irrigation. The reuse system reduces water demand by 50 percent and discharge volumes to local sewers by 60 percent, as well as reducing building energy consumption.

Redesigning systems to save water
In addition to making the most of the water we use every day, changing the way products are designed and made has significant water conserving potential. Take the pair of jeans which requires 1,981 gallons for production. In the Netherlands, a company called MUD offers jeans on a subscription model, as well as using over 40 percent recycled content for each new pair. Together, this saves 1,452 gallons of water for each pair of jeans.

Circular strategies that conserve water resources apply across many sectors. Renault’s Choisy-le-Roi plant collects old gear boxes, turbo injectors and other engine parts, cleaning and remanufacturing them to a good-as-new condition. By doing so the plant uses 88 percent less water than manufacturing from scratch, as well as 80 percent less energy and 90 percent fewer chemicals, and produces 70 percent less waste. The Choisy plant turns over $118 million in revenue and customers save 30 to 50 percent on a good-as-new part. Getting more from less is an enduring feature of a circular economy.

In New York, the Catskill catchment basement program has provided wide-reaching benefits thanks to its holistic response to a federal government regulation change mandating the filtering of surface water supplies in the city. Rather than opting to invest in a new water treatment plant — which would have cost the city $6 billion plus annual running costs of $250 million — a study into alternative solutions was undertaken. It concluded that watershed protection projects, costing a mere $1.5 billion in comparison, would result in the same level of water filtration. Furthermore, this approach resulted in the ecological improvement of thousands of acres of upstate land boosting the rural economy, creating local employment, increasing investment in rural businesses and expanding eco-tourism.

Regenerative action
Regenerating the environment by redesigning systems is a critical element of the circular economy. It advocates that economic activities should go beyond doing less harm, and strive for a regenerative or net-positive impact on nature. Natural systems provide us with food, oxygen and clean water, regulate our climate, absorb floods, provide recreation and much more. The WWF Living Planet Index estimates these "ecosystem services" provide humans with more than $120 trillion of benefits each year. Our current extractive and polluting economic model drastically diminishes the ability of ecosystems to provide these services.

No sector of the economy illustrates the potential for circular economy to regenerate natural systems more than agriculture. And, as farming consumes 70 percent of the planet’s freshwater, no part of the circular economy offers more to the conservation of water resources than regenerative agriculture.

It is possible to produce food for everyone, conserve water, make a decent profit, protect farmers and local communities from harm and enhance the environment all at the same time.
Regenerative agriculture describes a broad set of food production methods with two complementary outcomes: the production of high quality food and the improvement of the natural environment. It recognizes that farms are part of a larger ecosystem, which farming activities must not just extract from, but also support. Farming in this way shifts from monoculture practices heavily reliant on chemical inputs, towards a more holistic way of thinking that cherishes diversity, encourages virtuous cycles of renewal and focuses on the health of the system as a whole.

The specifics vary, or as soil expert David Montgomery puts it: "What works for temperate grasslands may not work so well in tropical forests." However, there are common regenerative practices that can be applied across all soil farming. These include the use of cover crops, wider crop diversity, minimizing soil disturbance and, most important, the building up of soil organic matter. For every 1 percent increase in organic matter in the top 7.9 inches of topsoil, 90 metric tons of carbon can be sequestered and an additional 38,000 gallons of water stored. This shows that regenerative agriculture is a powerful tool for climate mitigation and adaptation, while at the same time meeting demand for food.

On a 50,000-acre farm in Sao Paulo province, Brazil, Leontino Balbo Jr gradually has converted his sugar cane plantation to what he refers to as "ecosystem revitalizing agriculture" that focuses primarily on soil health. Balbo’s regenerative journey has not been straightforward, requiring numerous experiments and course corrections, as well as the need to manufacture his own bespoke "green harvesting" equipment. The homemade machines operate on low pressure tires to avoid over-compaction of soil, cutting the cane while at the same time shredding and returning leaves and other plant residue to the soil. Twenty years on, the farm has increased biodiversity to half that of a national park, increased yield by 20 percent and all but eliminated mechanical irrigation.

In North Dakota, farmer Gabe Brown has integrated livestock grazing with many species of saleable crops. Pigs and chickens help to cycle nutrients so that the ranch can thrive without any synthetic inputs, allowing organic soil content to increase from 1 to 14 percent. This feeds microbes and improves soil structure so his fields store over three times more water than before, providing insurance against years of drought or lower rainfall. The 5,000-acre farm, heavily degraded 20 years ago, is profitable without the need for government subsidies.

The many other types of regenerative agriculture — including agroforestry, conservation agriculture, agro-ecology, silvopasture and 3D ocean farming — all illustrate that agriculture does not have to be a zero-sum game. It is possible to produce food for everyone, conserve water, make a decent profit, protect farmers and local communities from harm and enhance the environment all at the same time.

The need for and importance of water across all sectors of the economy as well as all living organisms and natural systems shows that water is a resource of incomparable value for Planet Earth. As water has allowed humans to thrive in the past, so it can continue to in the future, provided we commit to respecting and valuing it in the appropriate way. Applying circular economy thinking to the way we manage our precious water resources can be one powerful way of fulfilling this commitment.


Sumber :
https://www.greenbiz.com/article/we-need-robust-circular-economy-water-our-most-useful-resource