Article 6 Project Pipeline
We are committed to driving climate action through a diverse portfolio of carbon projects. These initiatives not only reduce greenhouse gas emissions but also contribute to sustainable development and environmental conservation. Our projects adhere to the highest standards, including Verified Carbon Standard (VCS), Gold Standard, and the requirements of Article 6 of the Paris Agreement. This ensures that emission reductions are real, measurable, and permanent. We prioritize transparency and traceability, utilizing cutting-edge technologies to track and verify emission reductions. By investing in these projects, we are not only mitigating climate change but also creating a more sustainable and equitable future for all.
Type:
GHG Emissions Reduction
Mass EV Logistics Adoption
Project description:
This project aims to transition the fuel source for transporting goods from internal combustion engines to electric engines. This shift will significantly reduce greenhouse gas emissions, contributing to a more sustainable transportation system.
GHG Reductions: with approximately 1,000 vehicles, up to 120,000 tCO2e/year can be avoided
Impact:
Reduces Greenhouse Gas Emissions (GHG):
Shifting to EVs can significantly lower carbon emissions and air pollutants, contributing to improved air quality and climate change mitigation.
Technological Advancements:
The shift can promote innovation in logistics technology, including advancements in battery technology, charging solutions, and smart logistics management systems
Economic Advantages:
Electric vehicles typically have lower fuel and maintenance costs compared to traditional fuel vehicles, which can lead to reduced overall logistics expenses.
Type:
GHG Emissions Reduction
Mass EV Taxi Adoption
Project description:
This project seeks to lower greenhouse gas emissions by replacing internal combustion engine taxis with 1,000 battery electric vehicles (BEVs). This initiative will contribute to a cleaner, more sustainable urban transportation system.
GHG Reductions: emissions avoidance can be between 18,000 and 25,000 tCO2e/year
Impact:
Reduces Greenhouse Gas Emissions (GHG):
Reduce CO₂ emissions by replacing 1,000 gasoline-powered taxis with BEVs, contributing to a major cut in the transportation sector’s carbon footprint.
Improvement in Air Quality:
Will help reduce harmful pollutants like nitrogen oxides (NOx), particulate matter (PM), and volatile organic compounds (VOCs), leading to improved air quality and public health benefits.
Lower Energy Consumption:
Reducing the demand for oil imports and enhancing energy security.
Type:
Methane Reduction
Provincial Food Waste To Compost
Project description:
Food Waste to Compost Carbon Avoidance Project. This project is aimed at addressing the significant issue of food waste in high waste-generating provinces by converting organic waste into compost, aligning with the principles of carbon avoidance
GHG Reductions: In high waste-intensive locations, up to 30,000 tCO2e/year can be avoided
Impact:
Reduces Greenhouse Gas Emissions (GHG):
Composting prevents methane release, a potent greenhouse gas from landfills.
Diverts waste from landfills:
Reduces the volume of waste sent to landfills, conserving landfill space.
Minimizes leachate and pollution:
Composting avoids toxic leachate generation and reduces landfill-related water pollution.
Creates a valuable product:
Compost provides a natural fertilizer that can be used in agriculture and gardening.
Type:
Methane Reduction
Consumer Food Waste To Compost
Project description:
This project is aimed at addressing the significant issue of food waste generated by consumers in schools, temples, department stores, and hotels by converting their organic waste into compost. This initiative aligns with the principles of carbon avoidance and promotes sustainable waste management practices within these institutions.
GHG Reductions: Approximately 1.2-2.2 tCO2e/year could be avoided for every ton of food waste
Impact:
Reduces Greenhouse Gas Emissions (GHG):
Composting prevents methane release, a potent greenhouse gas from landfills.
Diverts waste from landfills:
Reduces the volume of waste sent to landfills, conserving landfill space.
Minimizes leachate and pollution:
Composting avoids toxic leachate generation and reduces landfill-related water pollution.
Creates a valuable product:
Compost provides a natural fertilizer that can be used in agriculture and gardening.
Type:
Methane Reduction
Landfill Gas Methane Reduction
Project description:
Landfill gas (LFG) Carbon Removal Project. This project aims to capture and utilize methane emissions from landfills, significantly reducing greenhouse gas (GHG) emissions while promoting sustainable waste management practices.
GHG Reductions: Approximately 27,500 tCO2e/year could be avoided for 100,000 m³ of landfill site
Impact:
Reduces Greenhouse Gas Emissions (GHG):
Capturing methane, a potent greenhouse gas, from landfills reduces emissions and contributes to climate change mitigation.
Energy Generation:
Captured methane can be used to generate renewable energy, reducing dependence on fossil fuels.
Waste Management Efficiency:
The project encourages better waste management practices, reducing landfill volume and extending landfill lifespan.
Type:
GHG Removal
Biochar & Agricultural Land Management
Project description:
This project is aimed at addressing the significant issue of food waste generated by consumers in schools, temples, department stores, and hotels by converting their organic waste into compost. This initiative aligns with the principles of carbon avoidance and promotes sustainable waste management practices within these institutions.
GHG Reductions:
Estimated Carbon Removal 5,720 – 22,500 tCO2e/year for 10,000 ton dry branches
Impact:
Responsible Consumption and Production:
The project turns agricultural waste into a valuable resource, contributing to more sustainable production cycles and reducing environmental impact.
Climate Action:
These projects capture and store carbon in soil for long-term sequestration, reducing atmospheric CO2 levels and helping to combat climate change.
Life on Land:
By utilizing Biochar in rubber plantations, the projects promote sustainable agricultural practices, increase soil fertility, and prevent deforestation, helping to preserve terrestrial ecosystems and biodiversity.
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