WASTE-TO-ENERGY PLANT DESIGN

AT-GAS plant is a high-efficiency and sustainable Waste-to-Energy (WtE) solution. Designed to be easy to ship, install, and relocate.

Client

Ecomex

Year

2024

Services

Concept design
3D modeling
Prototyping
Visualizations / Rendering

Awards

Distributed energy systems (DES) - a way to improve environmental sustainability.

Waste as fuel

Distributed energy resources (DERs) are small-scale energy resources usually situated near sites of electricity use, such as rooftop solar panels and battery storage. Their rapid expansion transforms how electricity is generated, traded, delivered, and consumed. Distributed energy systems (DES) can improve environmental sustainability and provide an efficient way to achieve the objective of reducing dependence on fossil fuels.

The AT-GAS plant can utilize various types of waste as fuel, including:
— Biomass (e.g., wood offcuts, chips, and other residues; animal by-products; and poultry litter)
— Composites (e.g., carbon fiber or fiberglass from wind turbine blades, boats, and car parts)
— Healthcare waste
— Municipal solid waste
— Pre-RDF and RDF (Refuse Derived Fuel)
— Sewage sludge
— Other non-standardized wastes.
Waste with a calorific value > 9 MJ/kg and a moisture content < 50%, with grain sizes of up to 50 mm.

AT-GAS technology

Energy independence

AT-GAS technology is thermal waste and biomass processing in a rotating fluidized bed — a more effective alternative to waste incineration. Gasification process: Waste conversion into synthetic gas (syngas) by heating it in a low-oxygen environment.
AT-GAS technology enables:
cogeneration / Combined Heat and Power
trigeneration / Combined Cooling, Heating, and Power + H2O
thermal seawater desalination

Energy Produced: Syngas can be used for electricity and heat generation or as a feedstock for biofuels and chemicals. The AT-GAS mobile solution can be installed near production plants or landfills, providing electricity and heat to local companies and communities while managing waste like biomass, or RDF (Refuse Derived Fuel).
— On-site distributed power generation
— No auxiliary fuel is required
— Flexibility in feedstock types
— Low running costs
— Low emission of harmful substances

Modular design advantages

— Agile and easy to deploy
— Compact plug&play solution
— Cost-effective WtE plant
— Easy to ship, install, and relocate
— Installed on shipping containers
— Modular and scalable layout
— Fewer exhaust gases
— Lower emissions of harmful substances compared to incineration
— Flexibility in feedstock types