While an inside air control system is performing an air composition maintenance action, a controller instructs a gas supply device to operate while switching among a first supply operation, a second supply operation, an outside air supply operation, and a standby operation. In the first supply operation, first low oxygen concentration air is supplied into a container. In the second supply operation, second low oxygen concentration air having a lower oxygen concentration than the first low oxygen concentration air is supplied into the container. In the outside air supply operation, outside air is supplied into the container. In the standby operation, supply of the low oxygen concentration air and the outside air into the container is stopped.

While an inside air control system is performing an air composition maintenance action, a controller instructs a gas supply device to operate while switching among a first supply operation, a second supply operation, an outside air supply operation, and a standby operation. In the first supply operation, first low oxygen concentration air is supplied into a container. In the second supply operation, second low oxygen concentration air having a lower oxygen concentration than the first low oxygen concentration air is supplied into the container. In the outside air supply operation, outside air is supplied into the container. In the standby operation, supply of the low oxygen concentration air and the outside air into the container is stopped.

A rotor for bagging silage is disclosed. The rotor has at least four sets of tines forming double helixes with angular spacing between each set of tines. In some embodiments, the tines are spaced further apart and the rotor is rotated at a higher rotational speed.

A rotor for bagging silage is disclosed. The rotor has at least four sets of tines forming double helixes with angular spacing between each set of tines. In some embodiments, the tines are spaced further apart and the rotor is rotated at a higher rotational speed.

A bagging assembly for bagging bales of fibrous material is disclosed. The bagging assembly incorporates a chute defining a channel for receiving a bale, which is pushed there between by a stuffing assembly. Aspects of the bagging assembly include raising a bale using a bale elevator to a higher elevation position so that the bale could be stuffed by the stuffing assembly and using a bag retrieving mechanism for retrieving a bag from a bag location for use in bagging the bale.

A bagging assembly for bagging bales of fibrous material is disclosed. The bagging assembly incorporates a chute defining a channel for receiving a bale, which is pushed there between by a stuffing assembly. Aspects of the bagging assembly include raising a bale using a bale elevator to a higher elevation position so that the bale could be stuffed by the stuffing assembly and using a bag retrieving mechanism for retrieving a bag from a bag location for use in bagging the bale.

A device for the vacuum storage and vacuum transport of dry or wet grain under anaerobic conditions is provided, comprising: an enclosure sealed to all types of gas having at least one filling element, the filling element, when in the open position, allowing the enclosure to be filled with grains and, when in the closed position, further allowing the enclosure to be tightly sealed, and at least one non-return air valve allowing gaseous fluid transfer by the suction of air through the valve only from the inside of the enclosure to the outside of the enclosure. The device further comprises a handling arrangement associated with the enclosure and comprising a transport bag suitable for receiving the sealed enclosure and having straps that form loops that can be gripped directly by a user or by lifting equipment.

A device for the vacuum storage and vacuum transport of dry or wet grain under anaerobic conditions is provided, comprising: an enclosure sealed to all types of gas having at least one filling element, the filling element, when in the open position, allowing the enclosure to be filled with grains and, when in the closed position, further allowing the enclosure to be tightly sealed, and at least one non-return air valve allowing gaseous fluid transfer by the suction of air through the valve only from the inside of the enclosure to the outside of the enclosure. The device further comprises a handling arrangement associated with the enclosure and comprising a transport bag suitable for receiving the sealed enclosure and having straps that form loops that can be gripped directly by a user or by lifting equipment.

A resin composition contains an ethylene-vinyl alcohol copolymer (A) in which an ethylene unit content is from 10 to 60 mol %, a hindered amine-based compound (B) having a 2,2,6,6-tetraalkylpiperidine ring structure and having an alkoxy group bonded to a nitrogen atom in the structure, and a hindered phenol-based compound (C) having an ester bond or an amide bond. The resin composition contains 0.1 to 5 parts by mass of the hindered amine-based compound (B) and 0.2 to 5 parts by mass of the hindered phenol-based compound (C) with respect to 100 parts by mass of the ethylene-vinyl alcohol copolymer (A), and a mass ratio (C)/(B) is from 0.2 to 3.6.

A resin composition contains an ethylene-vinyl alcohol copolymer (A) in which an ethylene unit content is from 10 to 60 mol %, a hindered amine-based compound (B) having a 2,2,6,6-tetraalkylpiperidine ring structure and having an alkoxy group bonded to a nitrogen atom in the structure, and a hindered phenol-based compound (C) having an ester bond or an amide bond. The resin composition contains 0.1 to 5 parts by mass of the hindered amine-based compound (B) and 0.2 to 5 parts by mass of the hindered phenol-based compound (C) with respect to 100 parts by mass of the ethylene-vinyl alcohol copolymer (A), and a mass ratio (C)/(B) is from 0.2 to 3.6.