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Tulip Fashion Non Woven Designer Bag W 15” x H 17.5”

6.7

Bags guru has manufactured & designed non-woven loop handle bag for a leading brand name “Tulip Fashion.” a blend of bright yellow, white & black is used to enhance & enchant the brand accordingly.

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Bags guru has manufactured & designed non-woven loop handle bag for a leading brand name “Tulip Fashion.” a blend of bright yellow, white & black is used to enhance & enchant the brand accordingly.

Manufactured this loop handle bag in 60 gsm in the size of w 15″ x h 17.5″.

Product Specifications

Item Description
Bag Colour White
Bag Size M
Capacity (kg) 5-7 kg
Material Non Woven Fabric (100% Virgin)
Printed Yes
Printing Process Flexo Printing
Recyclable 100% Recyclable
Reusable Yes
Dimensions 15 × 17.5 mm

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1. Material Choice

Non-Woven Fabric:
  • Composition: The bag is made from non-woven fabric, which often includes recycled fibers or eco-friendly materials. Non-woven fabrics are produced by bonding fibers together through mechanical, thermal, or chemical processes without weaving. This can reduce the need for water and energy compared to traditional woven fabrics.
  • Recycled Materials: If the non-woven fabric used is derived from recycled plastics or other post-consumer materials, it reduces the demand for virgin resources, which in turn lowers the environmental impact.
Environmental Benefits:
  • Reduced Waste: Using recycled materials diverts waste from landfills and reduces the need for new raw materials.
  • Lower Resource Use: Non-woven fabrics can be more resource-efficient to produce compared to woven or knitted fabrics, as they often require less water and energy.

2. Production Process

Energy Efficiency:
  • Manufacturing Process: The production of non-woven fabrics generally involves lower energy consumption compared to the energy-intensive processes of weaving or knitting. This is because the process eliminates the need for dyeing and finishing steps that are common in traditional fabric production.
  • Low Emissions: Reduced energy use in manufacturing translates to lower greenhouse gas emissions.
Sustainable Practices:
  • Minimal Processing: Non-woven fabrics often require less processing, which further reduces energy consumption and emissions.

3. Durability and Longevity

Product Lifespan:
  • Durability: Non-woven bags are designed to be durable and long-lasting. Their extended lifespan means that the environmental impact per use is reduced compared to single-use or less durable alternatives.
  • Reusable: The bag is intended for multiple uses, which decreases the frequency of replacements and the overall waste generated.

4. End-of-Life Considerations

Recyclability and Disposal:
  • Recyclability: Many non-woven fabrics are recyclable or biodegradable, depending on their composition. If the bag is made from recyclable materials, it can be processed and repurposed at the end of its life cycle, reducing its impact on landfills.
  • Biodegradability: Some non-woven fabrics are designed to be biodegradable, which ensures that they break down naturally and minimize long-term environmental impact.

5. References and Scientific Justifications

Research and Reports:
  • Journal of Cleaner Production: Studies indicate that non-woven fabrics, particularly those made from recycled materials, have a lower environmental impact due to reduced resource consumption and waste production.
  • Textile Research Journal: Reviews of sustainable textile production highlight the benefits of non-woven fabrics in terms of energy efficiency and reduced environmental footprint compared to traditional fabric production.
Sustainability Reports:
  • Eco-Labels and Certifications: Many non-woven fabric products are certified by eco-labels that verify their sustainability credentials, including reduced carbon footprints and compliance with environmental standards.

    1. Gather Data

    To calculate the carbon footprint, you'll need data on:
    • Material Composition: Type and amount of materials used.
    • Production Process: Energy consumption and emissions during manufacturing.
    • Transportation: Distance and mode of transport.
    • End-of-Life: Disposal or recycling methods.

    2. Estimate Material Carbon Footprint

    The carbon footprint of materials can be estimated using life cycle assessment (LCA) data. For non-woven fabrics, the typical carbon footprint per kilogram of fabric can range from 3 to 10 kg CO₂e (carbon dioxide equivalent) depending on the material and production process. Example Calculation:
    • Material Type: Recycled non-woven fabric
    • Amount Used: 0.1 kg (for a typical bag)
    • Carbon Footprint of Material: 5 kg CO₂e per kg
    Calculation: Carbon Footprint from Material=0.1 kg×5 kg CO₂e/kg=0.5 kg CO₂e\text{Carbon Footprint from Material} = 0.1 \, \text{kg} \times 5 \, \text{kg CO₂e/kg} = 0.5 \, \text{kg CO₂e}

    3. Estimate Production Carbon Footprint

    Production carbon footprint depends on energy use and emissions during manufacturing. This includes:
    • Energy Consumption: Power required to produce the fabric and assemble the bag.
    • Emission Factors: Average emissions per unit of energy used.
    Assume energy consumption for production is 1.5 kWh per bag, and the average emission factor is 0.5 kg CO₂e per kWh. Calculation: Production Footprint=1.5 kWh×0.5 kg CO₂e/kWh=0.75 kg CO₂e\text{Production Footprint} = 1.5 \, \text{kWh} \times 0.5 \, \text{kg CO₂e/kWh} = 0.75 \, \text{kg CO₂e}

    4. Estimate Transportation Carbon Footprint

    Transportation emissions depend on distance and mode of transport. Assume:
    • Distance: 500 km
    • Mode: Truck (average emissions: 0.1 kg CO₂e per km)
    Calculation: Transportation Footprint=500 km×0.1 kg CO₂e/km=50 kg CO₂e\text{Transportation Footprint} = 500 \, \text{km} \times 0.1 \, \text{kg CO₂e/km} = 50 \, \text{kg CO₂e}

    5. Estimate End-of-Life Carbon Footprint

    Consider whether the bag is recycled or sent to a landfill. If recycled, assume minimal impact; if landfilled, assume an additional emission factor. Calculation:
    • Recycling: Minimal additional footprint
    • Landfill: Assume 0.2 kg CO₂e per bag
    Example Calculation: End-of-Life Footprint=0.2 kg CO₂e\text{End-of-Life Footprint} = 0.2 \, \text{kg CO₂e}

    6. Total Carbon Footprint

    Add all the contributions to get the total carbon footprint. Example Calculation: Total Carbon Footprint=Material Footprint+Production Footprint+Transportation Footprint+End-of-Life Footprint\text{Total Carbon Footprint} = \text{Material Footprint} + \text{Production Footprint} + \text{Transportation Footprint} + \text{End-of-Life Footprint} Total Carbon Footprint=0.5 kg CO₂e+0.75 kg CO₂e+50 kg CO₂e+0.2 kg CO₂e\text{Total Carbon Footprint} = 0.5 \, \text{kg CO₂e} + 0.75 \, \text{kg CO₂e} + 50 \, \text{kg CO₂e} + 0.2 \, \text{kg CO₂e} Total Carbon Footprint=51.45 kg CO₂e\text{Total Carbon Footprint} = 51.45 \, \text{kg CO₂e}

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