The present invention relates to a device for growing mushrooms, including beds for holding compost and a shelving arranged for supporting the beds for holding compost. The beds are placed at a mutual distance above each other. The beds are movable between at least a first position, wherein a second bed supported above a first bed at least partially impedes the accessibility of the first bed in a direction perpendicular to the plane in which the first bed extends, and a second position in which at least a larger part of the first bed is free approachable from a direction perpendicular to the plane in which the first bed extends than in the first position. The shelving includes at least one portal. The portal includes at least two essentially vertical stands connected by at least one beam that extends from a first stand to the second stand. At least two beds are movably supported by the at least one beam.

Method for cultivating edible fungi on a commercial site, in which a cultivation takes place according to a cultivation cycle which successively comprises one or more preparatory phases and one or more harvesting phases, and in which the site comprises at least a set of cultivation cells (4), in which this set (4) comprises a first cultivation cell (1), a second cultivation cell (2) and a third GO cultivation cell (3) and the cultivation cycle is distributed over these at least three cultivation cells (1, 2, 3) by moving the cultivation from the first cultivation cell (1), in which at least one preparatory phase takes place, to the second cultivation cell (2), in which at least one harvesting phase takes place in the second cultivation cell, and then to the third cultivation cell (3), in which at least one harvesting phase takes place.

Method for cultivating edible fungi on a commercial site, in which a cultivation takes place according to a cultivation cycle which successively comprises one or more preparatory phases and one or more harvesting phases, and in which the site comprises at least a set of cultivation cells (4), in which this set (4) comprises a first cultivation cell (1), a second cultivation cell (2) and a third GO cultivation cell (3) and the cultivation cycle is distributed over these at least three cultivation cells (1, 2, 3) by moving the cultivation from the first cultivation cell (1), in which at least one preparatory phase takes place, to the second cultivation cell (2), in which at least one harvesting phase takes place in the second cultivation cell, and then to the third cultivation cell (3), in which at least one harvesting phase takes place.

The product is made, in part, of a network of interconnected mycelia cells forming a mass. In one embodiment, the mass includes one or more embedded elements, such as a panel. In another embodiment, the mass is formed over a three-dimensional lattice. The mycelia cells form hyphae that bond directly to panels made of cellulosic materials.

A consumer product for supplementing CO.sub.2 is provided with delayed activation control and multiple chambers formed by folding and clamping or with multiple clamps. A bag, having a top and a bottom seal and a filter, contains organisms and food substrate, each prepared under sterile laboratory conditions using aseptic techniques. The bag may be selectively clamped at various locations on its exterior. The mycelial mass having mycelia and food, or mycelia separate from the food may be sealed or partially sealed away from the air exchange portal by clamps or folds. With selective chamber isolation, the organisms are manipulated to delay optimized carbon dioxide generation. Utilizing the present invention will extend the product shelf-life, delaying the expiration of the product for storage and shipping. The fungi are utilized on-demand by removal of the clamp and carbon dioxide flows from the product. Consumers will place the product near indoor plants.

A consumer product for supplementing CO.sub.2 is provided with delayed activation control and multiple chambers formed by folding and clamping or with multiple clamps. A bag, having a top and a bottom seal and a filter, contains organisms and food substrate, each prepared under sterile laboratory conditions using aseptic techniques. The bag may be selectively clamped at various locations on its exterior. The mycelial mass having mycelia and food, or mycelia separate from the food may be sealed or partially sealed away from the air exchange portal by clamps or folds. With selective chamber isolation, the organisms are manipulated to delay optimized carbon dioxide generation. Utilizing the present invention will extend the product shelf-life, delaying the expiration of the product for storage and shipping. The fungi are utilized on-demand by removal of the clamp and carbon dioxide flows from the product. Consumers will place the product near indoor plants.

The method grows a mycelial mass over a three-dimensional lattice such that a dense network of oriented hyphae is formed on the lattice. Growth along the lattice results in mycelium composite with highly organized hyphae strands and allows the design and production of composites with greater strength in chosen directions due to the organized nature of the supporting mycelia structure.

The method grows a mycelial mass over a three-dimensional lattice such that a dense network of oriented hyphae is formed on the lattice. Growth along the lattice results in mycelium composite with highly organized hyphae strands and allows the design and production of composites with greater strength in chosen directions due to the organized nature of the supporting mycelia structure.

An inflatable monotub system includes a body having plural surfaces defining an interior cavity. One or more of the plural surfaces may include a pocket disposed within the one or more of the plural surfaces. The plural surfaces may define plural side surfaces and a bottom surface of the body. The body may include a first passage extending into at least a portion of one of the plural surfaces and fluidly coupled with one or more of the pockets of the plural surfaces. A first fluid is directed into or out of the first passage. Directing the first fluid into the first passage inflates at least one of the one or more pockets within the first fluid, and directing the first fluid out of the first passage deflates the at least one of the one or more pockets.

An inflatable monotub system includes a body having plural surfaces defining an interior cavity. One or more of the plural surfaces may include a pocket disposed within the one or more of the plural surfaces. The plural surfaces may define plural side surfaces and a bottom surface of the body. The body may include a first passage extending into at least a portion of one of the plural surfaces and fluidly coupled with one or more of the pockets of the plural surfaces. A first fluid is directed into or out of the first passage. Directing the first fluid into the first passage inflates at least one of the one or more pockets within the first fluid, and directing the first fluid out of the first passage deflates the at least one of the one or more pockets.