Silver Light Green with Golden tinged Trapeze Clutch (TC0724-020) PS_W

Silver Light Green with Golden tinged Trapeze Clutch (TC0724-020) PS_W - Image 2

Clutch, Eco Friendly Home & Lifestyle, Home Decor Rural Livlihood

Silver Light Green with Golden tinged Trapeze Clutch (TC0724-020) PS_W

₹1,250.0

Elegance meets versatility in this stylish clutch, featuring card slots, a zipper pouch with two open compartments for your phone, essentials, and personal items.

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reCharkha

0 out of 5

Categories: Clutch, Eco Friendly Home & Lifestyle, Home Decor Rural Livlihood

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STYLE
Elegance meets versatility in this stylish clutch, featuring card slots, a zipper pouch with two open compartments for your phone, essentials, and personal items. Its edgy look adds to its elegance and classic charm, making it a statement piece. Easily converts into a sling for added convenience, making it the perfect accessory for any occasion.

Specification

Share information about your brand with your customers. Describe a product, make announcements, or welcome customers to your store.SPECIFICATIONS:

Waste Impact:15 less Plastic bags and wrappers
Livelihood Impact: 1 day
Dimensions: 9.5inch x 5.5inch (l x h) Top Length: 8 inches
Outer Fabric: UPCYCLED-HANDWOVEN waste plastic fabric
Closure: Metal Zipper closure on the top.
Lining: Colourful khadi fabric matching with the Upcycled fabric..
Internal: A small zipper pocket in the middle with 12 card slots on either sides; 2 open compartments for cash & other essentials.

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1. Material Selection

Sustainable Materials: If the clutch is made from eco-friendly materials such as recycled fabrics, organic cotton, or plant-based leather alternatives, it reduces the demand for virgin resources. Sustainable materials often have a lower environmental impact during production and disposal. Scientific Explanation: Utilizing recycled materials reduces the need for new raw materials, thereby decreasing the energy consumption and emissions associated with extraction and processing.

2. Production Process

Eco-friendly Manufacturing: Manufacturing processes that use less water, energy, and chemicals contribute to a lower carbon footprint. For example, using water-based adhesives and dyes instead of solvent-based ones can reduce volatile organic compounds (VOCs) emissions. Scientific Explanation: Efficient production techniques and the use of renewable energy sources in manufacturing can significantly reduce greenhouse gas (GHG) emissions.

3. Durability and Longevity

Product Longevity: A durable product that has a long lifespan and remains in use for many years reduces the frequency of replacement, thereby decreasing the overall environmental impact over time. Scientific Explanation: A longer product lifecycle means fewer resources are used in the long term, reducing the cumulative carbon footprint.

4. End-of-Life Considerations

Recyclability: If the clutch is designed to be easily disassembled and recycled at the end of its life, it minimizes waste and allows materials to be reused in new products. Scientific Explanation: Products that can be effectively recycled help close the loop in a circular economy, reducing the need for new raw materials and lowering emissions from waste management processes.

5. Transportation

Local Production: Producing the clutch locally or in regions close to the market can reduce transportation emissions. Scientific Explanation: Shorter supply chains mean fewer emissions from transporting goods over long distances, contributing to a lower overall carbon footprint.

6. Packaging

Minimal and Sustainable Packaging: Using minimal packaging made from recycled or biodegradable materials further reduces the environmental impact. Scientific Explanation: Sustainable packaging reduces waste and emissions associated with the production and disposal of packaging materials.

Steps to Calculate the Carbon Footprint

Material Extraction and Processing
Manufacturing
Transportation
Use Phase
End-of-Life

Assumptions and Data

For the purpose of this example, let's assume the following:

The clutch weighs 0.5 kg.
It is made from a mix of recycled polyester, organic cotton, and metal hardware.
The manufacturing facility uses renewable energy sources.
The product is transported 1,000 km by truck.
The product has a 5-year lifespan.
At the end of its life, 90% of the materials are recycled.

Emission Factors

Recycled Polyester: 2.1 kg CO2e/kg
Organic Cotton: 1.5 kg CO2e/kg
Metal Hardware: 6.0 kg CO2e/kg
Manufacturing (per kg): 1.0 kg CO2e/kg
Transportation by Truck: 0.1 kg CO2e/ton-km
Recycling (savings): -2.0 kg CO2e/kg

Calculation

Material Extraction and Processing

Let's assume the clutch is made of:

0.3 kg recycled polyester
0.15 kg organic cotton
0.05 kg metal hardware

Emissions=(0.3×2.1)+(0.15×1.5)+(0.05×6.0)\text{Total Material Emissions} = (0.3 \times 2.1) + (0.15 \times 1.5) + (0.05 \times 6.0)

CO2e\text{Total Material Emissions} = 0.63 + 0.225 + 0.3 = 1.155 \text{ kg CO2e}

Manufacturing

CO2e\text{Manufacturing Emissions} = 0.5 \times 1.0 = 0.5 \text{ kg CO2e}

Transportation

CO2e\text{Transportation Emissions} = 0.5 \times 0.1 \times 1000 = 50 \times 0.1 = 5.0 \text{ kg CO2e}

Use Phase

Assuming no significant emissions during use.

End-of-Life (Recycling Savings)

CO2e\text{Recycling Savings} = 0.5 \times 0.9 \times (-2.0) = -0.9 \text{ kg CO2e}

Total Carbon Footprint

Savings\text{Total Carbon Footprint} = \text{Material Emissions} + \text{Manufacturing Emissions} + \text{Transportation Emissions} + \text{End-of-Life Savings}

Footprint=1.155+0.5+5.0−0.9\text{Total Carbon Footprint} = 1.155 + 0.5 + 5.0 - 0.9

CO2e\text{Total Carbon Footprint} = 5.755 \text{ kg CO2e}

Conclusion

The estimated carbon footprint of the Silver Light Green with Golden tinged Trapeze Clutch is approximately 5.755 kg CO2e. This calculation is based on assumed values for material emissions, manufacturing, transportation, and end-of-life recycling. For a more accurate assessment, specific data from the actual production process, materials, and transportation logistics would be required.

References & Scientific Explanation

Recycled Materials and Environmental Impact
- Reference: "Recycling reduces the need for extracting, refining, and processing raw materials, all of which create substantial air and water pollution" (EPA).
- Scientific Explanation: Recycling can save significant energy, reduce greenhouse gas emissions, and decrease pollution, thus contributing to a lower carbon footprint.
Energy-Efficient Manufacturing
- Reference: "Manufacturing processes that use renewable energy sources and energy-efficient technologies can reduce carbon emissions by up to 50%" (UNIDO).
- Scientific Explanation: By adopting renewable energy and energy-efficient practices, manufacturing emissions can be significantly reduced, thus lowering the overall carbon footprint of the product.
Product Longevity and Sustainability
- Reference: "Products that are designed for longevity and reuse reduce the demand for new products, thus conserving resources and energy" (Journal of Industrial Ecology).
- Scientific Explanation: Durable products reduce the frequency of replacement, thereby lowering the total environmental impact over their lifecycle.
Recyclability and Circular Economy
- Reference: "Designing products for recyclability helps close the material loop, reducing the need for virgin materials and lowering emissions" (Ellen MacArthur Foundation).
- Scientific Explanation: Products designed for easy disassembly and recycling support a circular economy, where materials are continuously reused, minimizing waste and emissions.
Local Production and Transportation Emissions
- Reference: "Local production can reduce transportation-related emissions by up to 80%" (Carbon Trust).
- Scientific Explanation: Shorter supply chains result in fewer emissions from transportation, contributing to a lower carbon footprint.
Sustainable Packaging
- Reference: "Using sustainable packaging materials can reduce carbon emissions by up to 60%" (GreenBlue).
- Scientific Explanation: Eco-friendly packaging options decrease the environmental impact associated with the production and disposal of packaging materials.

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Silver Light Green with Golden tinged Trapeze Clutch (TC0724-020) PS_W

Reviews

Q & A

1. Material Selection

2. Production Process

3. Durability and Longevity

4. End-of-Life Considerations

5. Transportation

6. Packaging

Steps to Calculate the Carbon Footprint

Assumptions and Data

Emission Factors

Calculation

Material Extraction and Processing

Manufacturing

Transportation

Use Phase

End-of-Life (Recycling Savings)

Total Carbon Footprint

Conclusion

General Inquiries

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