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BIO PLASTIC BIN LINER (COST: RS.110/-)

110.0

H x W x D : 28 X 18.5 X 2.5 cm.
A compostable green alternative to the
regular plastic bin liner.
Manage your wet waste in these bio-plastic
bin liner.
For bulk orders contact us.

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Eco-Friendly Bin Liner @110:

Embracing eco-friendly products transforms waste into wealth, fostering sustainability and mitigating environmental impact. Innovative initiatives champion the conversion of discarded materials into valuable resources, paving the way for a circular economy.

To commence this virtuous cycle, recycling emerges as a key player. Plastics, paper, and metals, once destined for landfills, undergo a metamorphosis. These materials are reimagined, reincarnated into new products, reducing the demand for virgin resources and curbing pollution.

Biodegradable alternatives further revolutionize our consumption patterns. Products derived from natural materials seamlessly integrate into the ecosystem, leaving minimal traces. This shift not only reduces the burden on landfill sites but also curtails the persistence of harmful substances in the environment.

In the realm of waste-to-wealth, upcycling emerges as a creative force. Discarded items find a second life, elevated into functional and aesthetically pleasing artifacts. From repurposed furniture to fashionable accessories, upcycling not only minimizes waste but also showcases the beauty of sustainable design.

In the business landscape, companies increasingly adopt a cradle-to-cradle approach. This entails designing products with their end-of-life in mind, ensuring that materials can be easily disassembled and reused. Such practices not only enhance resource efficiency but also cultivate a mindset of responsibility within the industry.

Eco-Friendly Bin Liner @110: The waste-to-wealth paradigm extends beyond tangible goods to energy production. Biomass, a byproduct of organic waste, becomes a valuable energy source through anaerobic digestion or incineration, contributing to the renewable energy matrix.

In conclusion, the transition to eco-friendly products and the waste-to-wealth philosophy signifies a revolutionary stride towards a sustainable future. By reimagining waste as a valuable resource, society not only mitigates environmental harm but also forges a path toward a regenerative and harmonious relationship with the planet.

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1. Material Sourcing

  • Renewable Feedstocks: The primary feedstocks for bioplastics, such as cornstarch or sugarcane, are renewable resources that grow annually. This is in contrast to petroleum-based plastics, which rely on finite fossil fuels.
  • Carbon Sequestration: Plants used to produce bioplastics absorb CO2 from the atmosphere during their growth, which can offset some of the carbon emissions from the production of the bioplastic (Journal of Environmental Management).

2. Reduced Greenhouse Gas Emissions

  • Lower Emissions in Production: The production of bioplastics often results in lower greenhouse gas emissions compared to conventional plastics. This is due to the lower energy requirements and the fact that bioplastics often have a less energy-intensive polymerization process (Environmental Science & Technology).
  • Life Cycle Assessments (LCAs): LCAs typically show that bioplastics have a reduced carbon footprint over their lifecycle compared to conventional plastics. For instance, a study found that polylactic acid (PLA), a common bioplastic, has about 30% lower greenhouse gas emissions than PET plastics (Resources, Conservation & Recycling).

3. Biodegradability and Compostability

  • Conditions for Degradation: Bioplastics like those used in bin liners can degrade under industrial composting conditions, turning into compost within a few months. This process reduces the volume of waste and lessens the long-term environmental impact (Bioresource Technology).
  • Environmental Impact: By breaking down into non-toxic components, bioplastics reduce the risk of microplastic pollution and the associated environmental hazards found with traditional plastics (Nature Sustainability).

4. Energy Efficiency

  • Manufacturing Efficiency: The production of bioplastics is generally less energy-intensive. For instance, the production of PLA bioplastic uses less energy compared to the production of PET, reducing associated carbon emissions (Journal of Cleaner Production).
  • Improved Energy Sources: Some bioplastic manufacturers use renewable energy sources, further reducing the carbon footprint of their products (Renewable and Sustainable Energy Reviews).

5. Waste Management and Circular Economy

  • Effective Disposal: When BIO PLASTIC BIN LINERS are composted in industrial facilities, they contribute to the circular economy by turning into compost that can enrich soil. This contrasts with traditional plastics, which persist in landfills for centuries (Waste Management & Research).
  • Reduced Landfill Volume: Properly managed bioplastics can help reduce landfill volume and the associated environmental impact, as they do not contribute to long-term waste accumulation (Science of the Total Environment).

6. Potential for Innovation and Improvement

  • Ongoing Research: The field of bioplastics is rapidly evolving, with ongoing research aimed at improving their properties, reducing costs, and increasing their environmental benefits. Innovations in bioplastic formulations and production technologies are expected to further lower their carbon footprint and enhance their sustainability (Journal of Biobased Materials and Bioenergy).

    Conclusion

    The sustainability of the BIO PLASTIC BIN LINER stems from its use of renewable resources, energy-efficient production, and potential for biodegradability. These factors collectively contribute to a lower carbon footprint compared to traditional plastic bin liners. The environmental benefits are contingent upon proper disposal and composting practices, which maximize the potential reductions in waste and emissions.

    Summary

    The BIO PLASTIC BIN LINER's sustainability is driven by its renewable material sources, reduced greenhouse gas emissions during production, biodegradability, and effective waste management. These factors collectively contribute to a lower carbon footprint and a smaller overall environmental impact compared to traditional plastics. As the technology and practices around bioplastics continue to advance, their environmental benefits are expected to improve further.

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