An organic matter degradation device has a furnace and a gas supply device. The furnace has a furnace chamber. The gas supply device has a gas supply tube and a negative ion generating device. First branch tubes are disposed on the gas supply tube axially, and second branch tubes are disposed on the first branch tube. A first pipeline of the second branch tube is disposed horizontally, the first pipeline is communicative to the first branch tube via the second pipeline, and the negative ion generating device is installed on the first pipeline. The negative ions generated by the negative ion generating device can pass the first pipeline and directly enter the furnace chamber, which decreases the resisting force applied to the negative ions, and increases the negative ion flow kinetic energy.

[Object] To perform a magnetic decomposition treatment by effectively utilizing smoke emissions.

[Solution Means] When an opening 112 is opened and hot air is blown by a hot air gun 40, the waste is thermally decomposed inside the thermal decomposition treatment chamber 110. When smoke emissions generated by the thermal decomposition pass through a shower 210 and a swashplate filter 220 of the filter section 200, a temperature thereof is lowered and tar is removed, and then the smoke emissions pass: through a blower 230, and when the smoke emissions pass through a water tank filter 240, tar is further removed, and moisture is removed by a cloth filter 250. Thereafter, odor is eliminated by a zeolite filter 260 and an activated carbon filter 270, and then, from an intake duct 30, and the smoke emissions are fed to the thermal decomposition treatment chamber 110.

No new matter was added in the amendment.

A process and system for the treatment of solid waste based on a temperature gradient generated by two distinct thermal sources, notably of a sequenced technological assembly, is able to process solid waste of any class, which operates through a reactor (1) having two chambers (2 and 3), each having a thermal source (4 and 5), where a thermal gradient is generated, followed by a heat exchanger (6) where gases are abruptly cooled and taken to a neutralizing tank (7), for then being directed to an activated charcoal filter (8), due to the action of a blower (9), before finally entering a burner (10) that works under electrical discharges, passing through a catalytic converter (11) and chimney (12) where it is extravasated into the completely inert atmosphere.