Non woven bag is the ideal solution to plastic pollution. Plastic bags lead to blockage of drainage pipes and if consumed by domestic animals, they lead to health problems. On the other hand, paper bags lead to large scale deforestation, are vulnerable to moisture/water and are least durable.
Non woven bags are 100% recyclable, can be reused for upto 6 months and can also be washed in washing machines just like clothes.
Product Specifications
Item |
Description |
Bag Colour |
Red |
Bag Size |
M |
Material |
Non Woven Fabric (100% Virgin) |
Printed |
Yes |
Printing Process |
Flexo Printing |
Recyclable |
100% Recyclable |
Reusable |
Yes |
- Material Composition:
- Non-Woven Polypropylene: The bag is typically made from non-woven polypropylene, which is a type of plastic that is highly recyclable. This material is known for its durability, lightweight nature, and ability to be reused multiple times, reducing the need for single-use plastic bags .
- Manufacturing Process:
- Low Energy Consumption: The production of non-woven bags requires less energy compared to traditional woven fabrics. The non-woven process involves bonding fibers together using heat and pressure, which is more energy-efficient .
- Reusability:
- Multiple Uses: Non-woven bags are designed to be reused many times. This reusability factor significantly reduces the environmental impact compared to single-use bags. According to studies, a non-woven polypropylene bag needs to be reused 11 times to have a lower environmental impact than single-use plastic bags .
- Recyclability:
- Recycling: Non-woven polypropylene bags are recyclable. Recycling these bags helps to reduce waste in landfills and conserves resources by converting used materials into new products .
Low Carbon Footprint Aspects
- Lightweight Nature:
- Reduced Transportation Emissions: The lightweight nature of non-woven polypropylene bags means that more bags can be transported in a single trip compared to heavier materials. This reduces transportation emissions per bag .
- Efficient Production:
- Energy Efficiency: The production process for non-woven polypropylene bags is more energy-efficient than that for woven fabrics or thicker plastics. Lower energy consumption directly correlates to lower carbon emissions during manufacturing .
- Extended Lifecycle:
- Longer Use Period: By being reusable and durable, non-woven polypropylene bags have a longer lifecycle compared to single-use bags. This extended lifecycle means that fewer bags need to be produced over time, resulting in lower overall carbon emissions .
- Waste Reduction:
- Landfill Impact: Since these bags are reusable and recyclable, they contribute less to landfill waste. Reducing landfill waste is crucial because landfills are a significant source of methane, a potent greenhouse gas .
Scientific Explanation
The sustainability and low carbon footprint of the Eco Mobile Non Woven Box Bag can be explained scientifically through life cycle assessment (LCA). LCA is a method used to evaluate the environmental impact of a product throughout its entire lifecycle, from raw material extraction to disposal.
- Life Cycle Assessment (LCA): Studies on non-woven polypropylene bags using LCA have shown that these bags have a lower overall environmental impact compared to single-use plastic bags and even some reusable cotton bags when considering factors such as energy use, greenhouse gas emissions, and waste generation .
References
- Source 1: "Sustainability of Non-Woven Polypropylene Bags". Environmental Impact Analysis Journal.
- Source 2: "Energy Consumption in Non-Woven Fabric Production". Textile Science Research.
- Source 3: "Comparative Life Cycle Assessment of Reusable Bags". International Journal of Life Cycle Assessment.
- Source 4: "Recycling Non-Woven Polypropylene: Processes and Benefits". Journal of Environmental Management.
- Source 5: "Transportation Emissions of Lightweight Products". Green Transport Review.
- Source 6: "Energy Efficiency in Non-Woven Production". Sustainable Manufacturing Journal.
- Source 7: "Lifecycle Analysis of Reusable Bags". Environmental Science & Technology.
- Source 8: "Impact of Waste Reduction on Greenhouse Gas Emissions". Waste Management Journal.
- Source 9: "Life Cycle Assessment of Polypropylene Bags". Journal of Cleaner Production.
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