The present invention provides an apparatus for molding gas hydrate pellets that includes: a pulverizer in which dehydrated gas hydrates are pulverized; a cooler having a rotating shaft provided therein, comprising a plurality of agitation blades installed along a height direction of the rotating shaft and configured to cool the gas hydrates to a predetermined temperature; a decompressor configured to decompress the cooled gas hydrates to a predetermined pressure; and a pellet molder configured to mold the decompressed gas hydrates to pellets.

A biofuel pellet and an apparatus for making the pellet are provided. The biofuel pellet includes a first region of high density and a second region of low density. The higher density region burns more slowly than the low density region and helps to suspend the pellet for longer and more complete combustion.

The present invention relates to a method and apparatus for producing a product by hydrolyzing a raw material containing vegetable waste comprising, a hydrolysis treatment step of subjecting the raw material to a hydrolysis treatment with steam by a hydrolysis treatment apparatus, a washing step of washing the hydrolyzed raw material with a washing liquid by a cleaning apparatus, and a solid-liquid separation step of separating the washed raw material into a solid component and a liquid component by a solid-liquid separation apparatus, wherein at least one of the solid content or the liquid con-tent is used as the product.

A biomass fuel manufacturing plant includes: a separating section that separates oil and water from oil-containing wastewater discharged from an essential oil plant that refines essential oil from fruits containing fats and oils, and separates the oil and water into POME oil and treated water; a discharged oil supply line that supplies at least one of the POME oil, discharged oil at compressing discharged when compressing empty fruit bunches, and discharged oil at crushing discharged when crushing the empty fruit bunches, to at least one or more locations of a carbonization section that generates carbide by performing heat treatment with respect to the empty fruit bunches discharged from the essential oil plant and a fuel generation section that generates a fuel from the carbide.

A biomass solid fuel which, when exposed to rain water, has a reduced COD in discharged water and has low disintegration-property, while suppressing an increase in cost. The biomass solid fuel obtained by molding pulverized biomass particles, such that mutual bonding or adhesion between pulverized biomass particles is maintained after immersion in water.

An apparatus including a carbonizing furnace for obtaining a carbonized biomass by carbonizing a molded biomass and classification means disposed at the downstream side of the carbonizing furnace for classifying the carbonized biomass, and cooling means disposed at the downstream side of the classification means for cooling the classified carbonized biomass. The molded biomass is obtained by molding pulverized raw biomass and the cooling means cools the carbonized biomass by spraying water.

The present disclosure relates to a method of molding a combustible heat source and provides a method of molding a combustible heat source, the method including: step S1 of preparing a combustible heat source composition including a carbon powder, an organic binder, and an ignition accelerator, step S2 of treating glycerin or propylene glycol on the combustible heat source composition; and step S3 of compressing and molding the composition after the treatment, in which the compressing in step S3 is performed at a strength of 0.5 to 10 MPa.

The present invention relates to a process for producing a solid biomass fuel from rice husks either alone or in combination with other materials such as calliandra callothyrsus or wood, as well as a solid biomass fuel produced by said process. Additionally, the present invention relates to a combustion process comprising combusting said solid biomass fuel so as to produce energy.

Fire enhancement devices and methods for manufacturing and using the same are disclosed. The fire enhancement devices may include wax, cotton fibers, cotton seeds, ground cotton plant material, gum resin, and/or a wick. The fire enhancement devices may be manufactured by placing one or more layers of cotton fibers and cotton seeds, pouring a mixture of the cotton plant material and gum resin over at least one of the layers, pouring melted wax over the layers, and adding a wick.

The invention relates to a method for the manufacturing of a combustible heat source (1) for an aerosol forming article, comprising: Providing a mould (100) defining a cavity (101) having a first opening (102); Providing a chamber (106) above said cavity (101), the chamber (106) having a second opening (108) fluidly connected to the first opening (102); Placing a particulate component (104) in the chamber (106); compressing the particulate component (104) in the chamber (106) up to a first pressure so that it forcedly flows into said cavity (101); and compressing the particulate component (104) in the cavity (101) up to a second pressure higher than said first pressure to form the combustible heat source (1).