The present invention relates to a pelletisable formula, and a process for using the formula for making fuel pellets. The pelletisable formula comprises a particulate carbonaceous material such as coal dust or coal fines of particle size <1 mm, a polysaccharide or a polyvinyl alcohol binder, and a crosslinker such as zirconium carbonate or sodium borate.

The present invention relates to a pelletisable formula, and a process for using the formula for making fuel pellets. The pelletisable formula comprises a particulate carbonaceous material such as coal dust or coal fines of particle size <1 mm, a polysaccharide or a polyvinyl alcohol binder, and a crosslinker such as zirconium carbonate or sodium borate.

The present disclosure provides a dehydration and upgrading system for a high-water-content material, including a reaction kettle, a steam generator and a steam recovery apparatus, wherein the steam generator and the steam recovery apparatus are located at left and right sides of the reaction kettle respectively, and are connected through steam pipelines; a pressure sensing device is arranged on the reaction kettle to sense the pressure therein; a feed port is formed at an upper end of the reaction kettle; a discharge port is formed at a lower end of the reaction kettle; a discharge conveying belt is arranged below the discharge port; a high-pressure air pipe is arranged on one side of the middle part of the reaction kettle; and a high-pressure air valve is arranged on the high-pressure air pipe.

Coke products configured to be combusted in a cupola furnace are disclosed herein. The coke products can include foundry coke products having a hydraulic diameter of at least 3.5″, egg coke products having a hydraulic diameter of 1.5-3.5″, and breeze coke products having a hydraulic diameter of 0.5-1.5″. Individual foundry coke products can comprise an oblong shape including a length of at least 4″, a width of at least 1.5″, and a length:width ratio of at least 2.0. In some embodiments, the length of individual coke products can be between 6-12″ and the width can be at least 2.5″. Additionally, the foundry coke products can have a Coke Reactivity Index (CRI) of at least 40%. The coke products can be made from a blend of coal and breeze coke products in horizontal ovens, such as horizontal heat recovery or horizontal non-recovery ovens.

A fuel pellet has a body made from a mixture of (a) 1-99 weight percent hemp byproduct, kenaf byproduct or a combination thereof and (b) 1-99 weight percent coal fines. A related method of making a fuel pellet includes the steps of: (1) mixing together (a) a hemp byproduct, a kenaf byproduct or a hemp byproduct and a kenaf byproduct and (b) coal fines to form a pelleting mixture; and (2) compressing or extruding the pelleting mixture and forming the fuel pellet in the absence of any added binder.

A fuel pellet has a body made from a mixture of (a) 1-99 weight percent hemp byproduct, kenaf byproduct or a combination thereof and (b) 1-99 weight percent coal fines. A related method of making a fuel pellet includes the steps of: (1) mixing together (a) a hemp byproduct, a kenaf byproduct or a hemp byproduct and a kenaf byproduct and (b) coal fines to form a pelleting mixture; and (2) compressing or extruding the pelleting mixture and forming the fuel pellet in the absence of any added binder.

Provided is a binder for a coal-containing formed product, which contains a macromolecular polymer having an intrinsic viscosity of 2.0 dl/g or higher.

Provided is a binder for a coal-containing formed product, which contains a macromolecular polymer having an intrinsic viscosity of 2.0 dl/g or higher.

In a ferrocoke manufacturing method by shaping and carbonizing a mixture of coal and iron ore, a hardly softening coal having a button index (CSN) of not more than 2.0 is used as the coal. The coal can be a blend of hardly softening coal and easily softening coal, and the hardly softening coal can be a coal having a button index (CSN) of 1.0 and a volatile matter of not less than 17%, and the easily softening coal can be a coal satisfying that a value obtained by multiplying CSN of easily softening coal by a blending ratio of easily softening coal in all coals is a range of 0.3-5.2. The coal can also be a blend of hardly softening coal and easily softening coal, and the hardly softening coal can be a coal having a button index (CSN) of 1.5-2.0, and the easily softening coal can be a coal satisfying that a value obtained by multiplying CSN of easily softening coal by a blending ratio of easily softening coal in all coals is nit more than 5.0.

In a ferrocoke manufacturing method by shaping and carbonizing a mixture of coal and iron ore, a hardly softening coal having a button index (CSN) of not more than 2.0 is used as the coal. The coal can be a blend of hardly softening coal and easily softening coal, and the hardly softening coal can be a coal having a button index (CSN) of 1.0 and a volatile matter of not less than 17%, and the easily softening coal can be a coal satisfying that a value obtained by multiplying CSN of easily softening coal by a blending ratio of easily softening coal in all coals is a range of 0.3-5.2. The coal can also be a blend of hardly softening coal and easily softening coal, and the hardly softening coal can be a coal having a button index (CSN) of 1.5-2.0, and the easily softening coal can be a coal satisfying that a value obtained by multiplying CSN of easily softening coal by a blending ratio of easily softening coal in all coals is nit more than 5.0.