OUR TECHNOLOGY

In association with COINVOLTA AG, we plan to deliver cutting-edge Ultra

Heat Gasification Technology with Plants and all its technical components designed

and produced in accordance with DIN and EN standards, for conversion of Municipal

Solid Waste (MSW), Practically all Organic Waste including Medical Waste,

Non-Recyclable Plastic and Rubber Waste into

CLEAN GREEN ENERGY

WASTE-TO-ENERGY

SYSTEMS

They provide complete systems that convert waste into energy, utilizing their Ultra High Temperature Gasification technology. This includes the production of syngas, hydrogen, electricity, heat, ammonia, e-fuels, and methanol.

ENVIRONMENTAL

WASTE PROCESSING

The service includes processing various types of organic waste, including non-recyclable plastics, industrial waste, sorted household waste, sewage sludge, electronic waste, used tires, and oil sludge.

SCALABLE PLANT SOLUTIONS

Coinvolta offers customizable plant sizes to meet varying needs, capable of processing from 80 tons up to 2,000 tons of input per day. They provide different configurations of their processing lines (such as CAG 2-50, CAG 6-150, CAG 12-300) to handle different capacities and outputs.

DECENTRALIZED HYDROGEN PRODUCTION

They enable the production of hydrogen with very low costs by generating clean syngas high in hydrogen content, which can be separated easily and used for various applications.

FOR FURTHER DETAILS ON THE TECHNOLOGY AND

PROCESSES, PLEASE VISIT Coinvolta.ch

Ultra High Temperature Gasification Advantages:

Efficient Conversion Process:

This method efficiently transforms organic waste into valuable energy products such as syngas, hydrogen, electricity, heat,

ammonia, e-fuels, and methanol.


High Energy Yield:

The process allows for a high energy yield, providing significant amounts of surplus electricity and heat after self-consumption.

Hydrogen Production:

It facilitates the production of substantial amounts of hydrogen, which can be over 34.5 tons per day in larger systems.

Scalability:

Systems can be customized to suit different operational scales, from processing 80 tons to 2,000 tons of input per day, making it adaptable to various project sizes.

Environmental Impact:

By converting waste into energy, it reduces landfill use and decreases greenhouse gas emissions, aligning with sustainable and environmentally friendly practices.


Innovative Financing:

Coinvolta provides unique project financing options, allowing customers to adopt this technology without immediate financial burden, thereby encouraging the implementation of advanced waste-to-energy solutions.

Ultra High Temperature Gasification (UHTG):

A versatile Tech capable of handling diverse range of waste types:

Municipal Solid Waste (MSW): This includes everyday waste materials such as kitchen waste, electronics, light bulbs, plastics, used tires, old paint, and yard waste.

Biomass: Organic materials from plants and animals, including agricultural residues and wood waste, can be effectively gasified.


Plastic Waste: Plastics that are not suitable for recycling can be utilized as feedstock for gasification 9 .


Bio-oil and Other Organic Wastes: Moisture-rich waste materials up to a certain moisture content can also be suitable for processing through this technology

Ultra High Temperature Gasification (UHTG):

Key aspects of emission-free processing:


Advanced Gasification Process:

By operating at ultra-high temperatures, the gasification process efficiently breaks down waste materials into elemental components, which reduces the formation of pollutants and emissions typically associated with waste processing.

Complete Conversion:

The high temperature ensures that organic materials are fully converted into syngas and other energy products, leaving minimal residual waste.

Closed System Design:

The plant operates as a closed system, capturing all by-products and preventing the release of emissions into the atmosphere.

Noise Reduction:

Besides being emission-free, the process is also designed to be low in noise, further minimizing its environmental impact.


Empirical Validation:

The technology, including its emission-free characteristics, has been tested and validated through an

11-year pilot operation. This provides a reliable foundation for its claims of emission-free processing.

Decentralized H2 Extraction:

Hydrogen energy from waste materials through decentralization:

·       

Renewable, Decentralized Hydrogen:

Coinvolta's technology enables the production of clean syngas with a high hydrogen content, allowing

for efficient separation and use of hydrogen.


Cost-Effective:

The process offers a low-cost method for hydrogen production, making it economically attractive for large-scale hydrogen supply.


Waste Management Solution:

The plants help companies address waste management challenges while providing them with an inexpensive hydrogen source suitable for fuel cells in trains, cars, buses, and other applications.


Plant Performance:

The pilot plant has been operational for 11 years, providing valuable data that inform modern industrial designs.


Scalability of Plant Systems:

The document details multiple CAG line configurations, demonstrating flexibility in scaling the technology to meet

various industrial needs, processing between 158 to 950 tons of input per day, and producing significant amounts of electricity, heat, and hydrogen.

Decentralized H2 Extraction Benefits:       


1.    Reduced Transportation Costs:

By producing hydrogen closer to where it will be used, transportation costs and associated emissions

are minimized, making the overall process more efficient and environmentally friendly.



2.    Flexibility in Location:

Decentralized systems allow for flexibility in plant location, enabling hydrogen production in areas that are optimal for

waste sourcing and energy consumption, thus optimizing logistics and supply chains.



3.   Localized Energy Security:

By generating hydrogen locally, communities and industries can increase their energy security and reduce dependence on centralized energy grids or external energy supplies.



4.    Scalability and Customization:

Decentralized systems can be tailored to specific needs and scaled accordingly, ranging from small-scale operations to large industrial plants, allowing for customized solutions that meet local demand and resource availability.



5.    Enhanced Sustainability:

Utilizing local waste materials for energy production contributes to a circular economy and reduces the environmental impact associated with waste disposal and long-distance energy transport.

6.    Economic Benefits:

Local production can lead to job creation and economic development within the community, as plants may require local manpower and resources.