A boiler for co-firing municipal solid waste and short timber for cultivating fungus includes a boiler chamber and fire grate, where the boiler chamber comprises a furnace, a reburning chamber and a third flue, a front arch and a rear arch are arranged on a lower portion of the furnace and located above the fire grate, and a short timber for cultivating fungus feeding device is arranged on a lower portion of a front wall of the furnace. The short timber for cultivating fungus feeding device includes a star-shaped feeding machine and a hopper, a skin expansion joint is arranged between the star-shaped feeding machine and the hopper, and an air pipe is arranged on the hopper. A layer of a plurality of boiler internal desulfurization desulfurization nozzles and two layers of a plurality of Polymer Non-Catalytic Reduction denitration nozzles are arranged in a height direction of the furnace.

A planting method for morels is disclosed, including the following steps of: (1) preparing spawn; (2) flipping the spawn; (3) managing the humidity; and (4) fruiting for harvesting. The planting method is simple, is easy to learn and promote, has a high yield, and requires few spawn, thereby reducing planting costs and product costs.

A planting method for morels is disclosed, including the following steps of: (1) preparing spawn; (2) flipping the spawn; (3) managing the humidity; and (4) fruiting for harvesting. The planting method is simple, is easy to learn and promote, has a high yield, and requires few spawn, thereby reducing planting costs and product costs.

The present invention relates to a method of producing mushrooms, comprising the steps of: i) providing a tray having a first surface and an opposite second surface and comprising a plurality of depressions in the first surface, the inner surfaces of the depressions defining receptacles open to the first surface for holding a mushroom growth medium and the outer surfaces of the depressions defining protrusions extending out from the second surface, ii) filling each receptacle at least partially with a mushroom growth medium, iii) applying a foil or sheet to the first surface so as to close each receptacle, iv) pasteurizing the mushroom growth medium, v) inoculating the growth media with mushroom spawn by injecting the mushroom spawn through the foil or sheet into the mushroom growth medium, vi) incubating the growth medium for allowing a mushroom mycelium to form in the mushroom growth medium, vii) at least partially removing or opening the foil or sheet above the receptacles to allow mushrooms to grow to protrude from the first surface, and viii) harvesting the mushrooms. The present invention further relates to a device for producing mushrooms.

The present invention is an aquaponic assembly, comprising at least one tank, wherein the tank is sized to contain a predetermined quantity and species of fish; a radial flow settler connected to the at least one tank, wherein the radial flow settler receives a liquid from the at least one tank, wherein the liquid contains fish excrement and the radial flow settler sorts solid excrement from the liquid; a mineralization system is connected to the radial flow settler, wherein the liquid from the radial flow settler undergoes a mineralization process to adjust the composition of the liquid; a series of liquid beds connected to the mineralization system, wherein the liquid passes through the series of liquid beds; and a plurality of substrates positioned within the liquid beds.

The present invention is an aquaponic assembly, comprising at least one tank, wherein the tank is sized to contain a predetermined quantity and species of fish; a radial flow settler connected to the at least one tank, wherein the radial flow settler receives a liquid from the at least one tank, wherein the liquid contains fish excrement and the radial flow settler sorts solid excrement from the liquid; a mineralization system is connected to the radial flow settler, wherein the liquid from the radial flow settler undergoes a mineralization process to adjust the composition of the liquid; a series of liquid beds connected to the mineralization system, wherein the liquid passes through the series of liquid beds; and a plurality of substrates positioned within the liquid beds.

A planting method for morels is disclosed, including the following steps of: (1) preparing spawns; (2) flipping the spawns; (3) managing the humidity; and (4) fruiting for harvesting. The planting method is simple, is easy to learn and promote, has a high yield, and requires few spawns, thereby reducing planting costs and product costs.

An apparatus for depositing a particulate material onto mushroom compost has a distributor box configured to receive the particulate material, such as mushroom casing, and a moving belt that is fed from a roller into the bottom of the box and exits from a discharge opening of the distributor box. A net pulley roller associated with the moving belt is pulled to advance the moving belt. A ribbed roller mounted for rotation at or near the discharge opening of the distributor box scrapes the particulate material out of the distributor box and deposits the particulate material onto the top surface of the moving belt. The particulate material then rides on the top surface of the moving belt until it drops off the belt onto the mushroom compost at the belt reversal point.

An apparatus for depositing a particulate material onto mushroom compost has a distributor box configured to receive the particulate material, such as mushroom casing, and a moving belt that is fed from a roller into the bottom of the box and exits from a discharge opening of the distributor box. A net pulley roller associated with the moving belt is pulled to advance the moving belt. A ribbed roller mounted for rotation at or near the discharge opening of the distributor box scrapes the particulate material out of the distributor box and deposits the particulate material onto the top surface of the moving belt. The particulate material then rides on the top surface of the moving belt until it drops off the belt onto the mushroom compost at the belt reversal point.

A device and a method for breeding blueberry-specific mycorrhizal fungi. The device includes a container, where a bottom of the container is laid with perlite to form a perlite layer; an absorbent cotton is arranged on the perlite layer; a hole for planting is provided in the absorbent cotton and blueberry tissue culture seedlings or moss seedlings are placed in the hole; and a spore transfer solution is provided around the blueberry tissue culture seedlings or moss seedlings. When used as a bacterial fertilizer for inoculation in the field, the pieces of absorbent cotton are buried directly around the blueberry roots; while used for research, one of the pieces of the absorbent cotton is washed with sterile water and filtered with a filter paper to obtain mycorrhizal fungi spores.