The present disclosure provides a copper-magnesium co-doped carbonized wood sponge material, a preparation therefor, and an application thereof, and a method for converting plastics into fuel based on a Fenton-like system. In the present disclosure, a copper-magnesium co-doped carbonized wood sponge catalyst is prepared by high-temperature pyrolysis after a wood raw material is coated with polydopamine (PDA) and a copper element and a magnesium element are loaded on a wood sponge substrate, realizing the loading of a nanoreactor on a wood sponge layered structure, and forming a unique spatial microenvironment and synergistic effect by combining a superior three-dimensional lamellar structure of the wood sponge substrate with the structural advantages of the nanoreactor to promote an electron transfer pathway on a surface.

The present disclosure is directed to fuel compositions comprising a polar based continuous phase comprising a liquid ammonia with a concentration greater than about 81% by v/v of total polar phase; and a non-polar based discontinuous phase comprising one or more of a frozen hydrocarbon, a viscous liquid hydrocarbon, and a liquefied volatile hydrocarbon, wherein the fuel composition has a droplet size ranging from about 100 nm to about 250 m. Further, the disclosure provides for systems and methods for using the fuel compositions.

Proposed is a pretreatment desulfurization system including: a first chute for supplying a pretreatment apparatus with coal transported by a belt conveyor; a pretreatment apparatus for immersing the supplied coal in a catalyst mixture obtained by mixing a desulfurization catalyst and water, thereby desulfurizing the coal; a mesh conveyor for separating the coal being immersed in the catalyst mixture and having passed through the pretreatment apparatus, into a liquid phase and a catalyst-treated coal; a mesh conveyor for transporting the catalyst-treated coal; and a storage tank for storing the transported catalyst-treated coal.

A fuel additive having one or more industrial and/or mining waste components, the one or more industrial waste components including one or more components generated by alumina and/or shale oil production. Also described are methods of making and methods of using the fuel additive.