Unleash The Power Of Biomass

Transform dry matter organic waste and leftovers from diverse feedstocks into renewable energy.

Harness the Potential of Biochar

Process waste wood and digestate at high temperatures without oxygen to produce biochar.

Transforming Waste into Value with Innovation & Commitment

Our mission is to accelerate the world’s clean energy transition by transforming organic waste and leftovers into renewable energy and fuel, biochar, compost, and organic fertilizer.

Waste To Green Energy

Canadian Biogas utilizes cutting-edge technologies to convert organic waste into renewable energy sources like biogas and RNG, reducing reliance on fossil fuels and promoting sustainable energy solutions.

Enhancing Soil Health

Our holistic process produces biochar, compost and digestate, enriching soil structure, improving water retention, and sequestering carbon for long-term environmental benefits.

Sustainable Waste Management

By processing a wide range of organic materials, including high-solid-content waste, we reduce landfill use, minimize greenhouse gas emissions, and create valuable compost and fertilizers.

Carbon-Neutral Future

Through innovative waste-to-value technologies, Canadian Biogas plays a crucial role in achieving carbon neutrality, fostering a sustainable future, and protecting the environment for generations to come.

Where traditional liquid biogas plants and plug flow designs fall short, the RSD® technology excels. Our dry anaerobic digestion system is uniquely designed to process dry and fibrous materials with a dry matter content of 20%-55%, which are typically challenging for other systems.

Innovative Batch Mode Process: Embracing a batch mode process, our system ensures a consistent biogas yield. The setup includes multiple digester boxes, known as garage digesters, which operate on a fixed fill-and-empty cycle. This design requires minimal manual intervention, as loading and unloading are straightforward, and substrate pre-treatment, like shredding, is rarely needed. During the entire retention period of 18-21 days, the substrate remains stationary, eliminating the need for sensitive stirring and pumping mechanisms, thus reducing the risk of technology failure and lowering maintenance costs.

Advantages of Dry Fermentation: A significant advantage of dry fermentation is its minimal substrate requirements. Our system can handle substrates with impurities that would typically damage traditional systems, such as domestic biowaste with packaging residues or horse manure with horseshoes. The process accommodates materials with varying particle sizes and fiber content, which are often problematic for other biogas technologies.

Versatile Biogas Utilization: The biogas generated from our dry anaerobic digestion can be directly converted into electricity or upgraded to biomethane or bio natural gas. This refined biogas can then be integrated into the gas grid or used as a vehicle fuel (CNG), providing versatile and sustainable energy solutions.

The RSD® technology not only enhances the efficiency and reliability of biogas production from dry and fibrous materials but also contributes to a more sustainable and environmentally friendly energy landscape.

  • Process: Transform high-solid-content organic waste and leftovers from diverse feedstocks.
  • Benefits: Produces renewable natural gas (RNG) and nutrient-rich digestate for use as fertilizer.

After the dry anaerobic digestion process, the nutrient-rich digestate undergoes composting, transforming it into a valuable soil amendment that supports sustainable agriculture.

Efficient Transformation: The digestate is collected and placed in composters. Through aerobic decomposition, microorganisms break down the organic matter, generating heat and accelerating stabilization. Regular monitoring and turning ensure optimal conditions, resulting in high-quality compost after a curing period.

Benefits of Composting Digestate

  • Nutrient-Rich Fertilizer: Enhances soil fertility with essential nutrients and organic matter.
  • Soil Health Improvement: Improves soil structure, water retention, and microbial activity.
  • Sustainable Waste Management: Reduces landfill waste and greenhouse gas emissions, recycling nutrients back into the soil.
  • Environmental Protection: Minimizes nutrient runoff and odors, ensuring a cleaner environment.

Closing the Loop: Composting digestate completes the waste-to-value cycle at Canadian Biogas, turning byproducts into high-quality compost that benefits agriculture and the environment. This process underscores our commitment to reducing carbon emissions and promoting sustainability.

During anaerobic digestion, the produced biogas is upgraded to create high-quality renewable natural gas (RNG). This refined biogas is a versatile, green energy source suitable for various applications.

Efficient Biogas Upgrading: The upgrading process removes impurities, resulting in high methane concentration biogas. This RNG meets strict quality standards for:

  • Vehicle Fuel (CNG): Compressed into CNG, providing a clean, efficient alternative to fossil fuels.
  • Grid Injection: Integrated into the natural gas grid, supporting the transition to greener energy.
  • Electricity Generation: Used in combined heat and power (CHP) plants for sustainable electricity and heat.

Benefits

  • Renewable Energy Source: Consistent and sustainable energy supply.
  • Reduced Emissions: Lower carbon footprint compared to fossil fuels.
  • Energy Independence: Enhances local energy security.
  • Economic Growth: Stimulates job creation in the renewable energy sector.

We utilize advanced pyrolysis technology to convert wood waste and digestate from dry anaerobic digestion into biochar, a valuable resource that enhances soil health and sequesters carbon.

Efficient Pyrolysis Process: Pyrolysis is a thermochemical decomposition process that occurs at high temperatures in the absence of oxygen. This method effectively transforms wood waste and digestate into biochar, along with heat, which can also be used for energy production.

Benefits of Biochar:

  • Soil Improvement: Enhances soil structure, water retention, and microbial activity.
  • Carbon Sequestration: Captures and stores carbon, reducing greenhouse gases.
  • Water Savings: Improves soil’s water-holding capacity, reducing irrigation needs.
  • Efficient Waste Management: Reduces waste volume and environmental impact.

Applications of Biochar:

  • Agriculture: Used as a soil amendment to improve crop yields and soil fertility.
  • Environmental Remediation: Helps in soil restoration and remediation of contaminated sites.

Sustainable Solutions Canadian Biogas’s biochar pyrolysis technology offers a sustainable solution for managing wood waste and digestate. By converting these materials into biochar, we not only reduce waste but also create a product that supports environmental health and carbon sequestration.

Leading the Way to a Sustainable Future: Maximizing Organic Waste Value

Through innovative technologies, Canadian Biogas maximizes the value of organic waste, contributing to a sustainable and carbon-neutral future.

At Canadian Biogas, we employ state-of-the-art technologies to transform organic waste into renewable energy, biochar, compost, and organic fertilizer. Our processes not only reduce greenhouse gas emissions but also enhance soil health, conserve water, and promote sustainable waste management. By converting waste into valuable resources, we are committed to fostering a cleaner, greener world for future generations. Join us in our mission to drive the clean energy transition and create lasting environmental benefits.

Seeding Vitality

Integrative Solutions for Agriculture & Ecology

By optimizing energy production, waste management, and soil enhancement in a closed-loop system, we provide a robust platform for sustainable growth across diverse agricultural landscapes and community scales.

Call us for inquiry:

+1 (587) 438-4068

+1 (800) 555 555