A mushroom substrate is formed from a composition including cotton gin waste and peanut shells.

A mushroom substrate is formed from a composition including cotton gin waste and peanut shells.

A mycelium growth bed for growing a solid substrate-bound mycelium through which the mycelium composite is easily and readily removed. This is achieved through the use of a perforation layer embedded between the mycelium substrate and the mycelium composite so as to create a uniform structural weakness and thereby enhancing harvesting abilities of the ex-substrate mycelium via a greatly reduced and uniform tear strength. The perforation layer, through which the mycelium grows, allows for the gated and controlled extrusion of a matrix of colonial cells that may be easily and uniformly delaminated from the underlying mycelium substrate.

A mycelium growth bed for growing a solid substrate-bound mycelium through which the mycelium composite is easily and readily removed. This is achieved through the use of a perforation layer embedded between the mycelium substrate and the mycelium composite so as to create a uniform structural weakness and thereby enhancing harvesting abilities of the ex-substrate mycelium via a greatly reduced and uniform tear strength. The perforation layer, through which the mycelium grows, allows for the gated and controlled extrusion of a matrix of colonial cells that may be easily and uniformly delaminated from the underlying mycelium substrate.

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 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 mycelium growth bed for growing a solid substrate-bound mycelium through which the mycelium composite is easily and readily removed. This is achieved through the use of a perforation layer embedded between the mycelium substrate and the mycelium composite so as to create a uniform structural weakness and thereby enhancing harvesting abilities of the ex-substrate mycelium via a greatly reduced and uniform tear strength. The perforation layer, through which the mycelium grows, allows for the gated and controlled extrusion of a matrix of colonial cells that may be easily and uniformly delaminated from the underlying mycelium substrate.

A mycelium growth bed for growing a solid substrate-bound mycelium through which the mycelium composite is easily and readily removed. This is achieved through the use of a perforation layer embedded between the mycelium substrate and the mycelium composite so as to create a uniform structural weakness and thereby enhancing harvesting abilities of the ex-substrate mycelium via a greatly reduced and uniform tear strength. The perforation layer, through which the mycelium grows, allows for the gated and controlled extrusion of a matrix of colonial cells that may be easily and uniformly delaminated from the underlying mycelium substrate.

A filling machine and method for filling bags with substrate. Bags are received in a receptacle of a filling machine. Substrate is received in a hopper of the filling machine. An activation signal is received through a user interface of the filling machine. A first pneumatic arm is moved to abut an opening for a first side of a bag that is one of the bags. Suction is applied to the bag utilizing one or more nozzles integrated with the first pneumatic arm. The bag is moved to a fill location. A second pneumatic arm is moved to abut the opening on a second side of the bag. Suction is applied to the bag utilizing one or more second nozzles integrated with the second pneumatic arm. At least one of the first pneumatic arm and the second pneumatic arm are retracted to open the opening of the bag. Substrate is released into the bag. The bag is moved from the filling location to a storage location.

A filling machine and method for filling bags with substrate. Bags are received in a receptacle of a filling machine. Substrate is received in a hopper of the filling machine. An activation signal is received through a user interface of the filling machine. A first pneumatic arm is moved to abut an opening for a first side of a bag that is one of the bags. Suction is applied to the bag utilizing one or more nozzles integrated with the first pneumatic arm. The bag is moved to a fill location. A second pneumatic arm is moved to abut the opening on a second side of the bag. Suction is applied to the bag utilizing one or more second nozzles integrated with the second pneumatic arm. At least one of the first pneumatic arm and the second pneumatic arm are retracted to open the opening of the bag. Substrate is released into the bag. The bag is moved from the filling location to a storage location.