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Mango Shopee Mobile Non-woven Box Bag W 10” x H 10” x G 4”

6.3

This white coloured medium sized gusset bag is specially designed for a mobile brand called Mango Shopee Mobiles, it is strong enough to hold up to 3kgs-5kgs easily with details printed on the bag, it becomes an excellent tool for marketing, its dimensions are W 10” x H 10” x G 4”

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This white coloured medium sized gusset bag is specially designed for a mobile brand called Mango Shopee Mobiles, it is strong enough to hold up to 3kgs-5kgs easily with details printed on the bag, it becomes an excellent tool for marketing, its dimensions are W 10” x H 10” x G 4”

Product Specifications

Item Description
Bag Colour White
Bag Size M
Capacity (kg) 3-5 kg
Material Non Woven Fabric (100% Virgin)
Printed Yes
Printing Process Flexo Printing
Recyclable 100% Recyclable
Reusable Yes
Dimensions 4 × 10 × 10 mm

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1. Material Choice

Non-Woven Fabric:
  • The Eco Mobiles Non Woven Box Bag is made from non-woven fabric, often produced from recycled or sustainably sourced materials. Non-woven fabrics are generally made through processes like spinning or bonding fibers together without weaving. This method can use less energy compared to traditional fabric production.
  • Sustainability Aspect: Non-woven fabrics are typically recyclable, which reduces waste and encourages a circular economy.
Scientific Explanation:
  • Non-woven materials are produced using lower energy-intensive processes compared to traditional woven fabrics. This results in reduced greenhouse gas emissions during production.

2. Production Process

Low Energy Consumption:
  • The production of non-woven fabrics often requires less energy compared to conventional woven fabrics. This lower energy demand contributes to a smaller carbon footprint.
  • Sustainability Aspect: Efficient use of energy and reduced resource consumption during production processes lower the overall environmental impact.
Scientific Explanation:
  • According to studies on textile production, non-woven fabric manufacturing processes, such as spunbonding or needle punching, typically consume less energy and produce fewer emissions than woven fabric production (Source: Textile Research Journal).

3. Recyclability and Reusability

End-of-Life Considerations:
  • The non-woven fabric used in these bags is often designed to be recyclable. This means that after the product's useful life, it can be processed and reused, reducing landfill waste.
  • Sustainability Aspect: Recyclability contributes to a reduction in the need for new raw materials and decreases waste generation.
Scientific Explanation:
  • Recyclable materials reduce the demand for virgin resources and lower the environmental impact associated with raw material extraction and processing (Source: Journal of Cleaner Production).

4. Durability and Longevity

Longer Product Life:
  • Non-woven fabric bags are generally durable and can withstand repeated use. This durability means the product does not need to be replaced as often, further reducing environmental impact.
  • Sustainability Aspect: Increased product lifespan reduces the frequency of disposal and replacement, contributing to a lower overall carbon footprint.
Scientific Explanation:
  • Products with longer lifespans minimize the need for frequent replacements, which can reduce the cumulative carbon footprint associated with production and disposal (Source: Environmental Science & Technology).

5. Eco-Friendly Packaging

Minimal Packaging Waste:
  • These bags are often packaged with minimal use of additional packaging materials, reducing overall waste and environmental impact.
  • Sustainability Aspect: Reducing packaging waste aligns with sustainable practices by minimizing additional resource use and waste generation.
Scientific Explanation:
  • Reduced packaging material use lowers the carbon footprint associated with the production and disposal of packaging materials (Source: Packaging Technology and Science).

Steps to Calculate Carbon Footprint

  1. Material Production:
    • Non-woven Fabric Production: Non-woven fabrics are typically made from polypropylene (PP), a type of plastic. The carbon footprint for producing 1 kg of polypropylene is approximately 1.5 to 3 kg CO₂e, depending on the efficiency of the production process.
    • Material Weight: Calculate the weight of the non-woven fabric used in the bag. For instance, if the bag weighs 100 grams (0.1 kg), the carbon footprint from material production would be: Carbon Footprint=Weight of Material×Carbon Footprint per kg\text{Carbon Footprint} = \text{Weight of Material} \times \text{Carbon Footprint per kg} =0.1 kg×2 kg CO₂e/kg (average)= 0.1 \, \text{kg} \times 2 \, \text{kg CO₂e/kg (average)} =0.2 kg CO₂e= 0.2 \, \text{kg CO₂e}
  2. Manufacturing Process:
    • Energy Use: The carbon footprint of manufacturing includes the energy consumed during the production of the bag (cutting, stitching, etc.). If we estimate that the production of one bag consumes 0.1 kWh of electricity, and the average carbon intensity of electricity is 0.5 kg CO₂e/kWh: Carbon Footprint=Energy Consumption×Carbon Intensity\text{Carbon Footprint} = \text{Energy Consumption} \times \text{Carbon Intensity} =0.1 kWh×0.5 kg CO₂e/kWh= 0.1 \, \text{kWh} \times 0.5 \, \text{kg CO₂e/kWh} =0.05 kg CO₂e= 0.05 \, \text{kg CO₂e}
  3. Transportation:
    • Distance Traveled: Consider the distance the bag is transported from the manufacturing site to the retail outlet or final customer. If the bag is transported by truck over 500 km, and the carbon footprint of road freight is about 0.1 kg CO₂e per ton-km, the transportation carbon footprint would be: Carbon Footprint=Weight of Bag×DistanceTon-Km\text{Carbon Footprint} = \frac{\text{Weight of Bag} \times \text{Distance}}{\text{Ton-Km}} =0.1 kg×500 km1000 kg×0.1 kg CO₂e/ton-km= \frac{0.1 \, \text{kg} \times 500 \, \text{km}}{1000 \, \text{kg}} \times 0.1 \, \text{kg CO₂e/ton-km} =0.005 kg CO₂e= 0.005 \, \text{kg CO₂e}
  4. End-of-Life Disposal:
    • Recycling or Landfill: If the bag is disposed of in a landfill, its carbon footprint might include methane emissions from the breakdown of materials. For simplicity, assume 0.01 kg CO₂e for end-of-life processing per bag.

Total Carbon Footprint:

Adding up all the components: Total Carbon Footprint=Material Production+Manufacturing Process+Transportation+End-of-Life Disposal\text{Total Carbon Footprint} = \text{Material Production} + \text{Manufacturing Process} + \text{Transportation} + \text{End-of-Life Disposal} =0.2 kg CO₂e+0.05 kg CO₂e+0.005 kg CO₂e+0.01 kg CO₂e= 0.2 \, \text{kg CO₂e} + 0.05 \, \text{kg CO₂e} + 0.005 \, \text{kg CO₂e} + 0.01 \, \text{kg CO₂e} =0.265 kg CO₂e= 0.265 \, \text{kg CO₂e}

Conclusion:

The estimated carbon footprint of a Mango Shopee Mobile Non-woven Box Bag is approximately 0.265 kg CO₂e per bag. This value could vary depending on specific factors such as the exact material weight, manufacturing energy efficiency, transportation distances, and disposal methods.

References

  • Textile Research Journal: Studies on energy consumption in textile production.
  • Journal of Cleaner Production: Research on recycling and resource use efficiency.
  • Environmental Science & Technology: Articles on product lifespan and environmental impact.
  • Packaging Technology and Science: Research on packaging waste and sustainability.

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