BioDeposit®
Fuel & Oil

Revolutionizing Waste Management

 

Pyrolysis Recycling with BioDeposit®Oil and Fuel Modules

EHT Engineering presents an innovative waste management solution leveraging pyrolysis, a method breaking down rubber and plastic waste into its original components. The game-changer lies in the integration of BioDeposit® Oil and Fuel modules with specialized equipment, transforming an ordinarily energy-intensive process into an eco-friendly, economically efficient venture.

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Efficiency Redefined

 Traditionally, pyrolysis is known for its high energy demand. However, with the introduction of BioDeposit® Oil and Fuel modules, equipped with cutting-edge technology, this process achieves a remarkable balance between low energy consumption and high economic returns. Consider this: from 1 ton of plastic waste, BioDeposit® Oil modules yield an impressive 820 liters of liquid oil (82%) or diesel and petrol, accompanied by a substantial 2.6 MWh energy output. Similarly, 1 ton of rubber tires results in 500 liters of liquid oil (50%) or diesel and petrol, generating 2 MWh energy.

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Breaking Norms: The ENVION Oil Generator (EOG):

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In 2009, ENVION introduced the ENVION Oil Generator (EOG), marking a paradigm shift in recycling methods. Unlike conventional approaches that shy away from mixing various plastic types, the EOG welcomes all plastic, showcasing an inclusive 'all plastic is welcome' policy. This pilot factory boasts an annual capacity of 10,000 tons of plastic waste, delivering 8,200 tons of synthetic oil (82%).

 

Economics in Focus

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The cost dynamics of plastic waste recycling are noteworthy – $17 per ton. Contrast this with the production cost of one barrel (158.89 liters) of liquid fuel, which stands at a competitive $10. The EOG factory price is set at $5 million, reflecting a compelling economic model.

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Versatility with BioDeposit®Oil
 

Enter the BioDeposit® Oil module, a versatile alternative to the EOG. Not only does it efficiently process plastic waste, but it also accommodates rubber tires without the need for equipment adjustments. What's more, it seamlessly integrates with the BioDeposit®Fuel module, offering an extended range of diesel fuel and petrol production.

Compact, Mobile, and Green: The BioDeposit® Oil module stands out not just for its efficiency but for its practicality. Its compact design fits snugly into a single 40” container, making transportation and installation a breeze. With a modest installed electric capacity of 10 kW, this module, catering to 4,000 tons of organic waste per year, comes with a modest price tag of $0.5 million.

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A Greener Horizon: Tackling Ocean Pollution

 

EHT Engineering's visionary approach extends beyond conventional waste management. The BioDeposit® Oil module, with its small dimensions, lightweight design, and minimal energy consumption, emerges as a potential solution for addressing ocean pollution. It could play a pivotal role in removing the Great Pacific Garbage Patch, an estimated 100 million tons of floating plastic waste.

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Calculations for Impact

 

Envisioning a grand scale, EHT Engineering proposes a comprehensive plan to combat ocean pollution. Deploying BioDeposit® Oil modules on floating tankers holds the promise of removing 100 million tons of the Great Pacific Garbage Patch over 50 years. To realize this vision, constructing or retrofitting 10 vessels, each equipped with 50 BioDeposit® Oil modules, becomes the strategic pathway.

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The Financial Perspective

 

The financial calculus reveals an impressive outcome. The total cost of the project, including 1,000 BioDeposit® Oil modules, amounts to $6.54 billion. However, the potential profit post-project realization is a staggering $17.46 billion. Breaking it down further, the cost of producing 80 billion liters of fuel stands at $5.04 billion, making this venture not just environmentally conscious but economically viable.

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Synergy with BioDeposit® Fuel Module

 

For those eyeing a broader range of fuel production, adding a BioDeposit® Fuel module can be a strategic move. Priced at €480,000, this additional 40” container enhances the capability to produce diesel or petrol from the liquid fuel generated by the BioDeposit® Oil module.

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Conclusion

 

A Future-Forward Solution: EHT Engineering's proposal blends innovation, sustainability, and economic viability. The integrated approach of BioDeposit®Oil and Fuel modules with pyrolysis technology not only transforms waste management but also paints a picture of a greener, cleaner future. This visionary solution aligns with the principles of circular economy and net zero, addressing both environmental challenges and economic opportunities.

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For further information, you can download the PDF file that provides additional details on biodeposit fuel and oil.