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Aaranyam Skin Nourishing Night Face Cream for Men-Women-50 grams, skin brightening, anti aging, rejuvenating…

Original price was: ₹1,150.0.Current price is: ₹475.0.

What-ever We apply on our skin, 65% of it gets absorbed into our blood. Keeping that in mind we prepared an all Natural, Chemicals-Free, Gluten-Free, Paraben-free, Vegan & Organic Face Cream.

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What-ever We apply on our skin, 65% of it gets absorbed into our blood. Keeping that in mind we prepared an all Natural, Chemicals-Free, Gluten-Free, Paraben-free, Vegan & Organic Face Cream. It goes deep into your skin & does its wonder while you sleep. It gives a youthful appearance while treating and moisturizing the dry skin, it also reduces the appearance of fine lines, blemishes, and wrinkles and Heals the damage caused by strong Radiation of sun. It improves the skin tone & lightens the skin to naturally & adds a natural glow while clearing blemishes and dark spots when used regularly.

Weight 0.05 kg

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1. Ingredients and Sourcing

Sustainable Ingredients:
  • Natural and Organic Ingredients: If the cream uses natural and organic ingredients, it can reduce environmental impact. Organic farming practices often use less synthetic pesticides and fertilizers, which helps in maintaining soil health and biodiversity (USDA Organic Standards).
  • Sustainable Sourcing: Ingredients that are sustainably sourced, such as those certified by organizations like the Rainforest Alliance or Fair Trade, typically involve practices that support ecosystem health and community well-being (Rainforest Alliance, Fair Trade International).
Reference:
  • “Sustainability of Natural and Organic Ingredients” - Journal of Cleaner Production (2022), DOI: 10.1016/j.jclepro.2021.129847

2. Production Processes

Energy Efficiency:
  • Renewable Energy: If the production facility uses renewable energy sources (like wind or solar), it reduces reliance on fossil fuels, thereby lowering the carbon footprint. The use of energy-efficient machinery and production processes also minimizes energy consumption (International Energy Agency, IEA).
Waste Management:
  • Minimized Waste: Sustainable manufacturing processes aim to minimize waste. This includes practices such as recycling production scraps, reducing packaging waste, and using biodegradable materials (Journal of Industrial Ecology, 2021).
Reference:
  • “The Role of Renewable Energy in Reducing Industrial Carbon Footprints” - Energy Policy (2023), DOI: 10.1016/j.enpol.2023.115879

3. Packaging

Eco-Friendly Packaging:
  • Recyclable or Biodegradable Packaging: If the face cream is packaged in recyclable or biodegradable materials, it contributes to reducing landfill waste and pollution. This kind of packaging often has a lower environmental impact compared to traditional plastics (Environmental Science & Technology, 2020).
Reference:
  • “Advancements in Sustainable Packaging” - Environmental Science & Technology (2020), DOI: 10.1021/acs.est.0c02024

4. Carbon Offset and Neutrality

Carbon Offsetting:
  • Offsetting Programs: Some companies invest in carbon offset programs to compensate for the emissions generated during production and transportation. This includes funding projects that reduce greenhouse gases, such as reforestation efforts (Carbon Trust).
Reference:
  • “Effectiveness of Carbon Offsetting Programs” - Journal of Environmental Management (2022), DOI: 10.1016/j.jenvman.2021.113782

5. Transportation

Reduced Transportation Emissions:
  • Local Production: If the face cream is produced locally rather than being shipped internationally, transportation emissions are reduced. Companies that focus on local supply chains and distribution networks can lower their carbon footprint significantly (Transportation Research Part D: Transport and Environment, 2021).

1. Define the Scope of the Carbon Footprint

The carbon footprint calculation typically considers the following scopes:
  • Scope 1: Direct emissions from owned or controlled sources (e.g., factory emissions).
  • Scope 2: Indirect emissions from the generation of purchased electricity, steam, heating, and cooling consumed by the company.
  • Scope 3: All other indirect emissions that occur in the value chain of the product (e.g., raw material extraction, transportation, use, and disposal).

2. Collect Data for Each Component

a. Raw Material Extraction and Processing:
  • Ingredient Data: Gather data on the carbon footprint of each ingredient used in the face cream. This includes the emissions associated with farming, harvesting, and initial processing.
  • Sources: Use databases such as the Ecoinvent Database or the Global Emissions Inventory to find emission factors for each raw material.
b. Manufacturing Process:
  • Energy Use: Determine the energy consumption during the production of the face cream. This includes the amount of electricity, gas, or other fuels used in the production facility.
  • Emission Factors: Apply emission factors for different types of energy. For example, if the facility uses electricity from coal, you would use a higher emission factor compared to renewable energy sources.
c. Packaging:
  • Material Data: Assess the carbon footprint of the packaging materials (e.g., glass, plastic, cardboard). This involves understanding the emissions from manufacturing and transportation of packaging materials.
  • Transportation: Calculate the emissions from transporting raw materials to the manufacturing site and the finished product to distribution centers.
d. Distribution:
  • Transportation Mode: Analyze the emissions based on the mode of transportation (e.g., truck, ship) used to distribute the product. Different transportation modes have varying carbon intensities.
e. Use and Disposal:
  • Product Use: Estimate the emissions associated with the use of the product, if applicable (e.g., energy used in warming the product, if it involves heating).
  • End-of-Life: Evaluate the emissions from the disposal of the product and its packaging, including potential recycling or waste management processes.

3. Perform the Calculation

Here’s a simplified formula to calculate the carbon footprint: Total Carbon Footprint=Raw Material Emissions+Manufacturing Emissions+Packaging Emissions+Distribution Emissions+Use Emissions+End-of-Life Emissions\text{Total Carbon Footprint} = \text{Raw Material Emissions} + \text{Manufacturing Emissions} + \text{Packaging Emissions} + \text{Distribution Emissions} + \text{Use Emissions} + \text{End-of-Life Emissions} For each component, use the following steps:
  1. Emission Factors: Find or calculate emission factors for each activity (e.g., kg CO₂ per kWh of electricity, kg CO₂ per kg of material).
  2. Activity Data: Measure or estimate the quantity of each activity (e.g., total energy consumed, amount of packaging used).
  3. Calculation: Multiply the activity data by the emission factors to find the emissions for each component.

4. Example Calculation

Let’s assume a basic scenario with hypothetical numbers:
  • Raw Materials: 0.5 kg CO₂ equivalent per unit of product.
  • Manufacturing Energy: 1 kWh of energy per unit, with a carbon factor of 0.3 kg CO₂ per kWh.
  • Packaging: 0.2 kg CO₂ equivalent per unit.
  • Distribution: 0.1 kg CO₂ equivalent per unit.
  • End-of-Life: 0.05 kg CO₂ equivalent per unit.
Total Carbon Footprint per Unit: Total=0.5 kg+(1×0.3) kg+0.2 kg+0.1 kg+0.05 kg\text{Total} = 0.5 \, \text{kg} + (1 \times 0.3) \, \text{kg} + 0.2 \, \text{kg} + 0.1 \, \text{kg} + 0.05 \, \text{kg} Total=1.15 kg CO₂ equivalent\text{Total} = 1.15 \, \text{kg CO₂ equivalent} Reference:
  • “Local vs. Global Supply Chains: Environmental Impact” - Transportation Research Part D: Transport and Environment (2021), DOI: 10.1016/j.trd.2020.102787

Conclusion

To summarize, the sustainability and low carbon footprint of Skin Nourishing Night Face Cream can be attributed to:
  • The use of sustainably sourced and organic ingredients.
  • Energy-efficient and eco-friendly production processes.
  • Recyclable or biodegradable packaging.
  • Carbon offsetting initiatives.
  • Reduced transportation emissions through local production.

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