A modular, low-profile apparatus for storing dry agricultural products has a horizontal configuration with coaxial aeration tubes and bi-directional distribution and dispensing augers. The apparatus provides access to dry agriculture products for storing, mixing, aerating, loading, unloading and processing.

Vented floor structures are described herein. In some embodiments, precast vented floor structures (which can also be referred to as “air floors”) can be used in crop storage facilities, such as potato, onion, and/or other crop storage facilities. Embodiments of the vented floor structures described herein can be manufactured using a form to create air vents in the floor structure that do not require plastic shells or other ancillary structures to define or create the vent openings. Embodiments also include inserts that can be installed (e.g., removably installed) in vent openings to vary the opening size and/or configuration, or complete plug selected vent openings.

Vented floor structures are described herein. In some embodiments, precast vented floor structures (which can also be referred to as “air floors”) can be used in crop storage facilities, such as potato, onion, and/or other crop storage facilities. Embodiments of the vented floor structures described herein can be manufactured using a form to create air vents in the floor structure that do not require plastic shells or other ancillary structures to define or create the vent openings. Embodiments also include inserts that can be installed (e.g., removably installed) in vent openings to vary the opening size and/or configuration, or complete plug selected vent openings.

There is a grain aeration system for a grain bin. The system includes a gas entry duct configured to receive gas and a gas distribution pipe extending upwardly from the gas entry duct and having a height. The gas entry duct extends along a base of the grain bin. The gas distribution pipe includes a permeable section and an impermeable section. The permeable section includes a plurality of perforations. The permeable section is above the impermeable section. There is also a grain bin, having a surrounding wall and roof. There is a gas entry duct extending from outside the surrounding wall to inside the surrounding wall and a gas distribution pipe extending upward from the gas entry duct. The gas distribution pipe has a permeable section above an impermeable section.

There is a grain aeration system for a grain bin. The system includes a gas entry duct configured to receive gas and a gas distribution pipe extending upwardly from the gas entry duct and having a height. The gas entry duct extends along a base of the grain bin. The gas distribution pipe includes a permeable section and an impermeable section. The permeable section includes a plurality of perforations. The permeable section is above the impermeable section. There is also a grain bin, having a surrounding wall and roof. There is a gas entry duct extending from outside the surrounding wall to inside the surrounding wall and a gas distribution pipe extending upward from the gas entry duct. The gas distribution pipe has a permeable section above an impermeable section.

A method for silaging harvested crops includes distributing and compacting silage consisting of shredded foliage plants in a silo. The silo is then sealed and then fermented in the silo. At least one part of the silage is flushed with an inert gas after an aerobic phase of the fermentation is detected with a first sensor. The inert gas may also be introduced into the silage if a penetration of atmospheric oxygen is detected in the silage with a second sensor.

A method for silaging harvested crops includes distributing and compacting silage consisting of shredded foliage plants in a silo. The silo is then sealed and then fermented in the silo. At least one part of the silage is flushed with an inert gas after an aerobic phase of the fermentation is detected with a first sensor. The inert gas may also be introduced into the silage if a penetration of atmospheric oxygen is detected in the silage with a second sensor.

An agricultural storage system including an agricultural storage bin for storing agricultural products therein. At least a mixed air flow fan is connected to the agricultural storage bin for generating an air flow and air pressure and providing the same to the agricultural storage bin.

An agricultural storage system including an agricultural storage bin for storing agricultural products therein. At least a mixed air flow fan is connected to the agricultural storage bin for generating an air flow and air pressure and providing the same to the agricultural storage bin.

A grain aeration system facilitates thorough and efficient aeration of grain within a grain bin. The system includes a grain bin having a top vent and a bottom vent. A stand is positioned within the grain bin. A duct includes a loop section supported on the stand and an extension extending from the loop section out through the bottom vent in the grain bin. The duct has a duct wall and a plurality of perforations extending through the duct wall. A blower drives air flow out of the bottom vent creating air flow into the grain bin through the top vent and into the duct wherein the blower is configured to aerate grain positioned within the grain bin.