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Magic Hair Oil-Hair Oil For dry Scalp-Damaged Hair

699.0

Ingredients: Cold-pressed Coconut Oil, Extra virgin Olive Oil, Jojoba Oil, Argan Oil, Neem Oil, and
other essential oils which are beneficial for hair

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Aaranyam Magic Hair oil is the best hair oil brand india all Natural, Magic hair oil is best hair oil for hair growth and thickness & Chemicals-Free, Gluten-Free, Paraben-free, Vegan An oil specially curated to provide nourishment to your hair and scalp. Made with a special blend of twenty-one cold pressed Carrier Oils & Essential Oils, this formula not only regenerates hair growth but also fights dandruff, hair fall, split ends and dull hair giving you beautiful hair. This oil is the only miracle you need in your life for long, luscious damage-free hair!-Best Hair Oil for Damaged Hair, Split-ends, Dandruff, and lifeless hair problems.

Ingredients: Cold-pressed Coconut Oil, Extra virgin Olive Oil, Jojoba Oil, Argan Oil, Neem Oil, and
other essential oils which are beneficial for hair.

Weight 0.2 kg

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1. Sustainable Sourcing of Ingredients

Sourcing:
  • Plant-Based Oils: The oil used in the product might come from sustainably farmed plants, such as argan, coconut, or jojoba. Sustainable sourcing practices include organic farming, which reduces the need for synthetic pesticides and fertilizers.
  • Certified Ingredients: Ingredients may be certified by organizations like the Rainforest Alliance or Fair Trade, which ensures that the farming practices are environmentally friendly and socially responsible.
References:

2. Eco-Friendly Production Processes

Energy Use:
  • Renewable Energy: The production facility may use renewable energy sources (like solar or wind) instead of fossil fuels, reducing greenhouse gas emissions.
  • Efficient Manufacturing: Advanced manufacturing techniques can reduce energy consumption and waste.
References:

3. Minimalistic and Recycled Packaging

Packaging:
  • Recycled Materials: Packaging might be made from recycled plastics or glass, which lowers the demand for new raw materials and reduces waste.
  • Reduced Packaging: Using minimal packaging can reduce the overall carbon footprint associated with transportation and production.
References:

4. Carbon Offsetting and Certification

Offsetting:
  • Carbon Credits: The company may invest in carbon offset programs to balance out the emissions produced during manufacturing and distribution.
Certifications:
  • Environmental Certifications: Look for certifications like CarbonNeutral® or Climate Neutral which indicate that the product or company has taken steps to reduce its carbon footprint.
References:

5. Efficient Transportation and Distribution

Logistics:
  • Local Sourcing: If ingredients are sourced locally, it reduces transportation emissions.
  • Optimized Distribution: Efficient logistics and distribution systems minimize the carbon footprint associated with moving the product from the manufacturer to the consumer.
References:

Conclusion

A hair oil product for dry, damaged scalp can be sustainable and have a low carbon footprint through:
  • Sustainable and certified ingredient sourcing.
  • Energy-efficient and eco-friendly production processes.
  • Use of recycled and minimal packaging.
  • Carbon offsetting initiatives.
  • Efficient transportation and logistics.

1. Define the Scope

  • Scope 1: Direct emissions from owned or controlled sources (e.g., manufacturing plant).
  • Scope 2: Indirect emissions from the generation of purchased energy (e.g., electricity used in production).
  • Scope 3: All other indirect emissions (e.g., supply chain, transportation, product use, disposal).

2. Gather Data

  • Raw Materials: Types and quantities of ingredients used.
  • Energy Consumption: Energy used during manufacturing and transportation.
  • Packaging: Materials and weight of the packaging.
  • Transportation: Distance and mode of transport from production to distribution.
  • Product Use: Expected usage and energy consumption if applicable.
  • End-of-Life: Disposal methods and their impact.

3. Calculate Emissions

a. Raw Materials: b. Manufacturing:
  • Measure or estimate energy consumption and apply emission factors for the type of energy used (e.g., electricity, natural gas).
c. Packaging: d. Transportation: e. End-of-Life:

4. Example Calculation

Here's a simplified example calculation: 1. Raw Materials:
  • Ingredient A: 0.5 kg with an emission factor of 2 kg CO2e/kg.
  • Ingredient B: 0.3 kg with an emission factor of 1.5 kg CO2e/kg.
  • Total emissions from raw materials = (0.5 kg * 2 kg CO2e/kg) + (0.3 kg * 1.5 kg CO2e/kg) = 1.0 kg CO2e + 0.45 kg CO2e = 1.45 kg CO2e.
2. Manufacturing:
  • Energy consumption: 10 kWh with an emission factor of 0.5 kg CO2e/kWh.
  • Total emissions from manufacturing = 10 kWh * 0.5 kg CO2e/kWh = 5.0 kg CO2e.
3. Packaging:
  • Packaging weight: 0.1 kg with an emission factor of 3 kg CO2e/kg.
  • Total emissions from packaging = 0.1 kg * 3 kg CO2e/kg = 0.3 kg CO2e.
4. Transportation:
  • Distance: 100 km with an emission factor of 0.1 kg CO2e/km.
  • Total emissions from transportation = 100 km * 0.1 kg CO2e/km = 10 kg CO2e.
5. End-of-Life:
  • Disposal (landfilling): 0.2 kg with an emission factor of 2 kg CO2e/kg.
  • Total emissions from end-of-life = 0.2 kg * 2 kg CO2e/kg = 0.4 kg CO2e.
Total Carbon Footprint:
  • Raw Materials: 1.45 kg CO2e
  • Manufacturing: 5.0 kg CO2e
  • Packaging: 0.3 kg CO2e
  • Transportation: 10 kg CO2e
  • End-of-Life: 0.4 kg CO2e
  • Total = 1.45 + 5.0 + 0.3 + 10 + 0.4 = 16.15 kg CO2e

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