Gaurav Gupta’s Post

Ensuring a Sustainable Future As the world grapples with the challenges of climate change, environmental degradation, and resource depletion, the importance of recycling and reusing cannot be overstated. The era of extract, use, and discard is coming to an end, and it's time for a paradigm shift in how we approach raw materials. The End of Raw Materials - The Earth's natural resources are finite, with some estimates suggesting that we have only 50-100 years of reserves left for certain critical materials like copper, zinc, and phosphorus. (Source: USGS) - The extraction of raw materials has severe environmental and social consequences, including deforestation (13 million hectares lost annually), pollution (8% of global greenhouse gas emissions), and habitat destruction (60% of biodiversity loss). (Sources: WWF, EPA, IPBES) The Solution: Recycling and Reusing we can significantly reduce the demand for raw materials, decrease waste, and mitigate the environmental impacts of production. - Recycling can save up to 95% of the energy needed to produce new materials from raw resources. (Source: EPA) - The recycling industry generates over $117 billion in economic activity each year in the United States alone. (Source: ISRI) Extended Producer Responsibility One crucial step towards a sustainable future is Extended Producer Responsibility (EPR). EPR requires manufacturers to take back materials from recyclers, ensuring that they are responsible for the entire lifecycle of their products. This approach encourages companies to design sustainable products, reduces waste, and promotes recycling. - EPR policies have led to a 20-30% increase in recycling rates in countries like Germany and Japan. (Source: OECD) Benefits of Recycling and Reusing: Conserves natural resources: Recycling one ton of paper saves 17 trees. (Source: EPA) - Reduces energy consumption: Recycling aluminum cans uses 95% less energy than producing new aluminum. (Source: Aluminum Association) - Decreases greenhouse gas emissions: Recycling reduces CO2 emissions by 117 million metric tons annually. (Source: EPA) - Saves water: Recycling steel saves 2.5 tons of water per ton of steel produced. (Source: Steel Recycling Institute) - Reduces landfill waste: Recycling has helped reduce landfill waste by 34% in the United States since 1980. (Source: EPA) - Creates jobs and stimulates innovation: The recycling industry employs over 1.5 million people in the United States alone. (Source: ISRI) Call to Action As individuals, businesses, and governments, we must work together to prioritize recycling and reusing. We must adopt circular economy practices, support EPR policies, and invest in recycling infrastructure. By taking responsibility for the materials we use and waste we generate, we can ensure a consistent supply of raw materials without resorting to war. The future of our planet depends on it. Let's recycle, reuse, and restore – for a sustainable tomorrow.

#Talentserve#task31#blog1 Effiency in a recycling: recycling efficiency of a recycling process means the ratio obtained by dividing the mass of output fractions accounting for recycling by the mass of the waste batteries input fraction, expressed as a percentage; Sample 1Sample 2Sample 3. More and more people recycle everyday. This helps to reduce the need for landfill and more costly forms of disposal. Recycling also reduces the need for extracting (mining, quarrying and logging), refining and processing raw materials all of which create substantial air and water pollution. The efficiency of recycling batteries: This regulation stipulates how the efficiency of battery recycling processes must be calculated and mustnot fall below 75% by mass for NiCd batteries, 65% for lead and 50% for all other battery chemistries. These existing minimumrules are valid until 2026 and will then be replaced by the quotas shown in the diagram. Recycling Important 10 Benefits of Recycling: 1.Protects Ecosystems and Wildlife. 2.Conserves Our Natural Resources. 3.Saves Energy. 4.Reduces the Need to 5.Harvest New Materials. 6.Reduces Carbon 7.Emissions. 8.Saves Money. 9.Brings People 10.Together. Educates People About the Importance of Protecting the Environment. Effective Waste Disposal Methods Methods to overcome the above issues include reuse and recycling which help to mitigate the harmful effects of waste by reducing the amount that ends up in landfill. Recycling conserves natural resources and reduces energy demands (for making virgin materials). The efficiency of energy from waste: This is where heat produced by burning waste produces heat, driving a turbine to generate electricity. This indirect approach to generation currently has an efficiency of around 15-27%, albeit with a lot of potential for improvements. Five Benefits of Recycling: 1.Recycling reduces waste sent to landfills and incinerators. 2.Recycling prevents pollution. 3.Recycling conserves 4.natural resources. 5.Recycling conserves energy. 6.Recycling creates jobs, producing economic benefits. recycling important speech: Recycling is the need of the hour as pollution is at a peak, and it is very much important to control it as soon as possible. Recycling is one of the ways to minimize pollution, so it should be implemented in every country by creating proper awareness among the people and industries. The seven types of waste result in the acronym TIMWOOD (Transport, Inventory, Motion, Waiting, Overproduction, Overprocessing, Defects), which can still be found in older guidebooks. Power efficiency refers to a compute resource's ability to convert electrical power into useful work with minimal waste or loss. It's typically measured in tasks per watt (or watts per task) and is increasingly important for coping with power-limited data centers and achieving sustainable computing.

E Waste E-waste outstrips recycling UN reports global problem hit 62M tons in ’22 with pollution set to pile up even more by ’30 As storks sit on a church, a man scavenges for recyclables Wednesday at Dandora, the largest dump in Nairobi, Kenya. Brian Inganga/ap  By Moses Ndungu and Jamey Keaten Associated Press NAIROBI, Kenya — U.N. agencies have warned that waste from electronics is piling up worldwide while recycling rates remain low and are likely to fall even further. The agencies were referring to e-waste, which is defined as discarded devices with a plug or battery, including cellphones, electronic toys, TVs, microwave ovens, e-cigarettes, laptop computers and solar panels. It does not include waste from electronic vehicles, which fall into a separate category. In a report released this week, the U.N.’s International Telecommunications Union and research arm UNITAR said some 62 million tons of e-waste was generated in 2022, enough to fill tractor-trailers that could be lined up bumper to bumper around the globe. It’s on track to reach 82 million tons by 2030. Metals — including copper, gold and iron — made up half of the 62 million tons, worth a total of some $91 billion, the report said. Plastics accounted for 17 million tons and the remaining 14 million tons include substances like composite materials and glass. The U.N. says 22% of the e-waste mass was properly collected and recycled in 2022. It is expected to fall to 20% by the end of the decade because of “staggering growth” of such waste due to higher consumption, limited repair options, shorter product life cycles, growing “electronification” of society, and inadequate e-waste management infrastructure, the agencies said. They said some of the discarded electronic devices contained hazardous elements like mercury, as well as rare Earth metals coveted by tech industry manufacturers. Currently, only 1% of the demand for the 17 minerals that make up the rare metals is met through recycling. About half of all e-waste is generated in Asia, where few countries have laws on e-waste or collection targets, according to the report. Recycling and collection rates top 40% in Europe, where per-capita waste generation is highest: nearly39 pounds. In Africa, which generates the least of any of the five big global regions, recycling and collection rates hover near 1%, it said. “The latest research shows that the global challenge posed by e-waste is only going to grow,” said Cosmas Luckyson Zavazava, head of the ITU telecommunication development bureau. “With less than half of the world implementing and enforcing approaches to manage the problem, this raises the alarm for sound regulations to boost collection and recycling.” For some, e-waste represents a way to earn cash by rummaging through trash in the developing world to find coveted commodities, despite the health risks.

Collection and Recovery of End-of-Life Tires: A Sustainable Approach End-of-life tires (ELTs) present a significant environmental and industrial dilemma. Each year, millions of tires reach the end of their service life, creating a substantial disposal problem. However, with the right technologies and processes, this waste can be converted into a valuable asset, promoting sustainability and advancing the circular economy. End-of-Life Tire (ELT) Management Stages: 1. Collection and Transport: Collection starts with the segregation of ELTs at designated points like tire shops, garages, landfills, and recycling centers. An effective logistics system is vital to ensure the safe and timely transport of tires to processing facilities. 2. Sorting: At the processing facilities, tires are sorted and categorized according to their condition and type. Some may be refurbished for reuse, while others are processed for material recovery. 3. Shredding: The tires undergo mechanical shredding, being broken down into smaller pieces. 4. Granulation and Pulverization: These shredded pieces are then further processed into fine rubber granules or powder for use in various industrial applications. Recovery and Recycling Technologies 1. Material Recovery Extracting rubber, steel, and textile fibers from end-of-life tires (ELTs) is known as material recovery. The recycled rubber is then utilized in various products, including shock-absorbing mats, sports surfaces, acoustic insulation, and industrial rubber compounds. 2. Pyrolysis Pyrolysis, a thermochemical process, breaks down tires without oxygen, yielding pyrolytic oil, gas, and char. The resulting oil can serve as a fuel or a chemical feedstock, and the char can be used as an additive in industrial processes. 3. Re-treading Re-treading is a process where certain tires undergo vulcanization and tread reconstruction to prolong their lifespan. Advantages of ELT Recovery 1. Lessening Environmental Impact   The recovery and recycling of ELTs decrease landfill waste and lower the risks of pollution from their unchecked decay and burning. 2. Preserving Natural Resources   Tire recycling conserves precious natural resources, diminishing the demand for synthetic rubber and other materials from finite sources. 3. Boosting the Economy   The industry of ELT recycling generates employment, fosters new technology and market growth for recycled products, and offers cost savings over new materials. Conclusion The retrieval of end-of-life tires is a prime example of how waste management can shift towards sustainable, circular models. With the adoption of cutting-edge technologies and effective processing, we can convert an ecological issue into a source of economic and environmental gains. Please consider connecting with me on LinkedIn for in-depth discussions on sustainable methods in the rubber sector and to investigate possible partnerships.

Ever wondered what happens to your waste when it is collected by our team here is a little overview Here’s a clear, bullet-pointed explanation of what happens to domestic waste collected during a man-and-van waste clearance service: 1. Collection and Transportation Initial Sorting On-Site: During the clearance, reusable or recyclable items are separated from general waste wherever possible. Loading: The waste is carefully loaded onto the van, with heavier or bulkier items secured for safe transport. Transport to Licensed Facilities: The waste is transported to licensed waste transfer stations or recycling centers in compliance with regulations. 2. Processing at the Waste Transfer Station Weighing and Documentation: Upon arrival, the waste is weighed, and a consignment note is recorded for legal compliance and traceability. Comprehensive Sorting: Trained operatives sort through the waste to extract recyclable materials such as metals, plastics, wood, and glass. Reuse Potential Assessed: Items that can be refurbished or donated (like furniture) are identified and sent to relevant charities or reuse centers. 3. Recycling and Recovery Recyclable Materials: Sorted recyclables are sent to specialized recycling facilities to be processed into raw materials for new products. Energy Recovery: Non-recyclable waste that cannot be reused is often sent to energy recovery facilities (incinerators) where it is converted into electricity or heat. 4. Responsible Disposal Landfill as a Last Resort: Only waste that cannot be recycled, reused, or recovered is sent to landfill, following strict environmental guidelines. Environmental Impact Monitoring: Transfer stations and disposal sites monitor emissions and implement measures to minimize their ecological footprint. 5. Reporting and Compliance Proof of Disposal: A waste transfer or hazardous consignment note is issued, ensuring legal compliance and confirming responsible disposal. Feedback Loop: The service provider may share disposal data with clients, highlighting recycling rates and environmental contributions. By following these steps, Direct Waste Removals ensures waste is handled responsibly, aligning with both legal and environmental standards.

♻♻♻♻♻♻♻♻ UPVC ♻♻♻♻♻♻♻♻ UPVC, which stands for unplasticized polyvinyl chloride, is a common material used in windows, doors, and other building applications due to its durability and low maintenance requirements. Recycling UPVC typically involves the following steps: Collection: UPVC waste is collected from various sources such as construction sites, renovation projects, and end-of-life products. It's essential to separate UPVC from other materials to ensure the quality of the recycling process. Sorting: Once collected, UPVC materials are sorted based on their type, color, and condition. Sorting helps in directing each component to the appropriate recycling process and ensures that contaminants are minimized. Cleaning: The sorted UPVC waste undergoes cleaning to remove any contaminants like dirt, labels, adhesives, or coatings. Cleaning is essential to improve the quality of the recycled material. Shredding: The cleaned UPVC material is shredded into small pieces or granules using specialized equipment such as shredders or granulators. Shredding reduces the size of the material and prepares it for further processing. Separation: In some cases, additional separation steps may be required to remove any remaining contaminants or materials that are not UPVC. This step helps ensure that the recycled UPVC meets quality standards. Melting and Extrusion: The shredded UPVC is then melted in an extruder at high temperatures, typically between 160°C to 220°C (320°F to 428°F). Once melted, the UPVC is extruded into the desired shape, such as pellets, profiles, or sheets. Cooling and Cutting: The extruded UPVC is cooled to solidify it into its new form. It may then be cut or shaped further to meet specific requirements for its intended applications. Reuse or Manufacturing: The recycled UPVC pellets, profiles, or sheets can be reused directly in manufacturing new UPVC products, such as windows, doors, pipes, or other building materials. Alternatively, they may be sold to manufacturers for further processing. Recycling UPVC helps conserve natural resources, reduce energy consumption, and minimize waste sent to landfills. It also supports the circular economy by promoting the reuse of materials and reducing the demand for virgin UPVC. ♻CDDL Recycling, operate a 100% landfill diversion policy♻ Please help us reduce landfill. Contact us today to arrange a UPVC waste collection 📞 0203 146 0722 📧 sales@cddlrecycling.co.uk 🌐 https://lnkd.in/eu7hqeAs #recycle #glaziers #windows

Recycling e-waste (electronic waste)through Sircel is crucial for several reasons: Environmental Protection: E-waste often contains hazardous materials like lead, mercury, and cadmium, which can leach into the soil and water when improperly discarded. Recycling helps to prevent these toxins from contaminating the environment. Resource Recovery: Electronic devices contain valuable materials such as gold, silver, copper, and rare earth elements. Recycling allows these materials to be recovered and reused, reducing the need for new resource extraction, which can be ecologically damaging. Energy Conservation: Recycling e-waste typically requires less energy compared to producing new materials from virgin resources. This reduction in energy consumption contributes to lower greenhouse gas emissions. Waste Reduction: E-waste is one of the fastest-growing waste streams globally. By recycling, we can divert a significant amount of waste from landfills, where it can take up space for decades and contribute to environmental degradation. Economic Benefits: The recycling industry creates jobs and supports economic growth. By developing a robust e-waste recycling sector, communities can stimulate local economies while promoting sustainable practices. Compliance with Regulations: Many countries have regulations regarding e-waste disposal. Recycling helps individuals and companies comply with these laws and corporate social responsibility commitments. Data Security: Properly recycling e-waste ensures that personal and sensitive data on devices are destroyed appropriately, reducing the risk of data breaches and identity theft. Public Awareness and Responsibility: Recycling e-waste fosters a culture of sustainability and environmental responsibility, encouraging individuals and organizations to think critically about their consumption and disposal practices. In summary, recycling e-waste is vital for protecting the environment, conserving resources, reducing energy use, minimizing waste, creating jobs, ensuring data security, and fostering a responsible and sustainable society.

Approach to Tackling Consumer Waste: The Deposit-Return System In our increasingly consumerist society, the problem of waste, particularly non-biodegradable packaging, has reached alarming proportions. Much of this waste ends up in our water bodies, causing severe environmental degradation. However, a simple yet effective solution could be implemented to address this issue: a deposit-return system for packaging. Let's explore this concept and its potential impact. The Concept: The idea is straightforward: when a consumer purchases a product, they pay a small additional fee as a deposit for the packaging. Upon returning the empty packaging to the seller, they receive this deposit back. The producer then takes responsibility for the proper disposal or recycling of the packaging. For example: - Product cost: ₹10 - Packaging deposit: ₹0.50 - Total cost to consumer: ₹10.50 - Refund upon return of packaging: ₹0.50 Analysis: 1. Environmental Impact: - Reduction in litter: With a financial incentive to return packaging, fewer items would end up as litter in streets, parks, and water bodies. - Increased recycling rates: As producers become responsible for disposal, they're more likely to invest in efficient recycling processes. - Reduced landfill waste: Less packaging would end up in landfills, reducing soil and water pollution. 2. Economic Implications: - Job creation: The system would create jobs in collection, sorting, and recycling. - Cost to businesses: Initial implementation might increase costs for businesses, but long-term benefits could offset this. - Potential for innovation: Companies might invest in more sustainable packaging solutions to reduce their disposal costs. 3. Consumer Behavior: - Increased awareness: The system would make consumers more conscious of the waste they generate. - Behavioral change: The financial incentive, though small, could significantly alter disposal habits. 4. Government Role: - Legislation: Government would need to enact laws to implement and regulate this system. - Infrastructure: Support might be needed to develop the necessary collection and recycling infrastructure. 5. Long-term Benefits: - Cleaner environment: Reduced litter and pollution in water bodies and land. - Resource conservation: Increased recycling would conserve raw materials and energy. - Public health: Less waste in the environment could lead to improved public health outcomes. Conclusion: While the proposed deposit-return system presents some challenges in implementation, its potential benefits for the environment and society are significant. By creating a direct link between consumption and waste management, it encourages responsible behavior at both individual and corporate levels.

Today I had the opportunity to visit the Hazardous Waste Recycling Centre in Gateshead (i): a tour organised by Suez, the site owner ♻️ I am pleased with how transparent Laura and Hannah, our guides, have been while explaining what happens to the local recycling and general waste. No question has been left unanswered, and topics have been discussed with the most environmentally friendly tone: everything led to the concept of Reduce, Reuse and Recycle 🙌🏻 The overall experience exceeded my expectations as the amount of knowledge I gained was HUGE ⛰️ This is how I would summarise today’s experience in few points: 1. Disposable vapes are a PROBLEM 💨 Strangely classified by UK Legislation as “toys, leisure and sport equipment”, they have been responsible for numerous fires at the recycling centre. E-cigarettes contain lithium batteries, which can easily ignite when segregated with the other waste streams. Furthermore, recycling one 200L barrel full of disposable vapes costs more than £2000 😰 2. Machines that sort general waste out DO NOT EXIST ⚙️ Due to complex composition of general waste, there is no machine or automated process able to effectively separate non-recyclables from recyclables that ended up in the general waste. At Suez, sorting is done BY HANDS 🤲🏻 3. Energy-from-Waste (EFW) requires A LOT of ENERGY ⚡️ Suez’s EFW facility has the potential to generate enough electricity to power 30.000 homes via waste incineration. However, the majority of energy goes back into the facility to keep the process going: fire is on 24/7 🔥 4. Separate food waste segregation at home is COMING SOON 🍔 Around 6.5 MILLION tonnes of food waste come from households every year. The shocking thing is: around 70% of that food waste IS STILL EDIBLE when people dispose of it (4.5 MILLION tonnes). Suez compared it to 90 Royal Albert Halls! 😱 5. Load contamination is a serious thing ☣️ Staff works hard every day to ensure skips contain the waste they have been designed for. When hazardous materials get in the same bin with recyclables, the WHOLE load becomes hazardous. This means that all the waste contained in that bin is very likely to lose its recycling potential. As it has been said today: “It is better losing some recycling in the general waste than contaminating an entire load of recycling and losing all of it” 😞 This is such a powerful sentence. For those interested in knowing about waste disposal and recycling, I strongly recommend this experience. Event details can be found on Eventbrite and many waste sites are available for tour booking 🤩 Ah, forgot this: IT’S FREE 🤯 References: i. (Photo) https://lnkd.in/eYyWCWmp

Today is Global Recycling Day! ♻ For the team here at Rethink Resource every day is recycling day, but today we take a moment to remind ourselves just how important this "seventh resource" can be in preserving earth's precious primary resources. 👩👩👦👦🌎 So, in honour of #GlobalRecyclingDay, here are some pretty impactful facts about the power of recycling: First, the not-so-fun facts: 🫢 Canada is one of the worst waste offenders in the world with ~694 kg of waste generated per person per year, of which ~510 kg is sent to landfills rather than recycling facilities. 😱 There are over 10,000 landfills in Canada, which are quickly reaching their capacity limits. Now for the good news: 🏡💁♀️ The willingness to recycle in Canada is high and roughly 97% of all households with access to recycling facilities recycle. 📈👍 Between 2002 and 2018 the amount of waste recycled in Canada grew by 48%. 🥫⚡ Recycling a single aluminum can could power a television for 3 hours. 📰🌳 Each ton of recycled paper saves an estimated 17 mature trees. 🫙💡 Recycling 1 glass bottle saves enough energy to light a 100-watt lightbulb for 4 hours. 📦🗞 In Canada, about 70% of paper and cardboard waste is recycled. 🔋📱When the correct methods are used to separate and recycle e-waste, material losses are less than 5%. 💸📉 Recycling can cut costs! On average, it costs $30/ton to recycle waste, $50 to send it to the landfill and $65 - $75 to incinerate it. Although recycling is just one of the 7 Principles of Waste Management (rethink, refuse, reduce, reuse, repair, recycle, and rot!), when properly applied recycling has the potential to significantly reduce negative environmental impacts and help us transition to a truly circular economy. 🔄 Want to learn more about how your business can rethink waste? Drop us a comment or contact us to chat directly. 📨 Sources: https://lnkd.in/eSaVkbhP https://lnkd.in/gSUXWnTN https://lnkd.in/eS5DQ_Gm https://lnkd.in/eJij5V9H https://lnkd.in/g-qX2sUe #RecyclingHeroes #rethinkwaste #wastemanagement #circulareconomy #environment #recyclables