Advance Mobile Waste and Power Station (AMWAPS)
aGe’s 3.0 waste-to-energy technology for converting waste to energy represents a more environmentally sound option that is far superior to earlier 2.0 waste removal and energy creation processes. Our patented processes and trade secrets reduce reliance on fossil fuels, decrease harmful emissions, and provide numerous immeasurable long-term benefits, creating a new path toward a sustainable and cleaner world.
- No pre-treatment of waste required
- No pre-sorting is required
- System easily scale to accommodate local and regional growth
- Modular, proven system design!
- Reduce scarce landfill use
- Positively impact global warming
- Environmentally sound and safe
- Reduce reliance on expensive fossil fuels to produce power
Advance Mobile Waste and Power Station (AMWAPS) is a state of the art proprietary waste-to-energy technology. AMWAPS is built using Dynamis Energy proprietary 3.0 Thermal Conversion Technology. This proprietary technology for converting waste-to-energy represents an environmentally sound option that is superior to other alternative energy and waste removal processes. This patent pending process reduces reliance on fossil fuels, decreases harmful emissions and provides numerous immeasurable long-term benefits, clearing a new path toward a sustainable and cleaner world.
Technology Summary
AMWAPS 3.0 technology utilizes a thermal oxidation process to convert municipal solid waste (MSW) to a clean burning fuel, which differentiates itself in the industry from incineration, gasification, and pyrolysis. AMWAPS process is briefly described as follows:
The primary conversion process is a batch load configuration, in which MSW is loaded into multiple Primary Gasification Chambers (PGCs) and processed in sequential order to create a consistent flow of fuel.
Fuel burners, which are strategically positioned within the PGC so as not to create any agitation of the waste thus reducing particulate matter, are used in the initial stage for the ignition process. Once the conversion process has reached a specific internal chamber temperature, the fuel burners are shut down. The gasification and oxidation process within the MSW stream commences.
This gasification and oxidation process requires a source of oxygen to complete the destruction cycle. The oxygen source in the PGC is supplied through the bottom grate system, which provides and maintains a specific oxygen discharge rate. As the gasification and oxidation process advances, the temperatures within the POC elevate in the upper envelope of the chamber, while continuing to maintain the precise oxygen discharge.
The MSW is converted into a super rich synthesis gas and passes along to the Secondary Combustion Chamber (SCC).Once the hot synthesis gas is passed into the SCC, it is actively mixed with oxygen (taken from the ambient air). This mixing process is achieved by the use of a Turbulent Air Ring.
The Turbulent Air Ring together with a higher temperature profile ensures that a rapid and thorough mixture of the super rich gas and oxygen is achieved providing optimum conditions for almost COMPLETE DESTRUCTION of all gases.
Not Incineration
While gasification and incineration are both thermal processes, it is important to point out the advantages of gasification over incineration.
Incineration is simply a mass burn technology with heat recovery to produce steam and/or electricity. It has negative connotations because during the direct combustion of waste, dangerous carcinogenic compounds such as dioxins and furans are formed, which are discharged into the atmosphere.
In contrast, gasification employs the thermal conversion of waste into syngas, which can then be used for generating steam and/or electricity, without the creation of harmful emissions. The synthesis gas or syngas is produced under controlled conditions, and is generated without the formation of impurities associated with incinerator flue gas. Gasification emissions are an order of magnitude lower than the emissions form an incinerator.
