Aspects herein are directed to an engineered bag for use with extractions of bulk materials such as hemp and cannabis vegetation. The engineered bag includes a closure device that may be secured to adjustably limits a bottom opening of the engineered bag and that may be released to discharge a bulk material through the bottom opening of the engineered bag.

A hand-held lift loop assembly tester apparatus and method tests peel strength of a heat seal connection between a lift loop patch and a bulk bag body as an indicator of shear strength of the connection and whether the bag will pass industry safety lifting requirements. A lifting platform of the hand loop tester is inserted between the patch and the bag body in an unsealed area and measures the amount of peel and thus the peel strength of the heat seal bond or connection at the edges or sides of the unsealed area. If the peel strength is adequate, this is a reliable indicator that the shear strength of the bond or connection is also adequate and that the bag will meet the current industry required 5 to 1 safety lifting requirements.

A system, method and apparatus for transferring bulk material for transport, the method includes placing a first quantity of bulk material in a soft-sided bulk material container, extending a first hold-in across the container from a first side of the container to a second location, the second location being substantially toward a second side of the container, wherein the first hold-in is secured to the first side of the container, securing the first hold-in to the second location and placing a second quantity of bulk material in the container, the second quantity covering the first hold-in and securing the first hold-in to the second location with a weight of the second quantity of bulk material.

A recyclable bag especially large and for large weights with a variable number of handles preferably four at the top, instant discharge by its bottom of all loading material, with a closure that is composed of three layers, the outermost of which has a quadrangular hole with loops that are tied to each other and that supports the other layers of the bottom.

A system, method and apparatus for transferring bulk material for transport, the method includes placing a first quantity of bulk material in a soft-sided bulk material container, extending a first hold-in across the container from a first side of the container to a second location, the second location being substantially toward a second side of the container, wherein the first hold-in is secured to the first side of the container, securing the first hold-in to the second location and placing a second quantity of bulk material in the container, the second quantity covering the first hold-in and securing the first hold-in to the second location with a weight of the second quantity of bulk material.

A flexible tank has one or more inner layers and one or more outer layers enclosing the inner layers. It has an improved structure to prevent leakage and rupture when making a long multi-modal shipment of large quantities of a liquid, including when the flexible tank is not supported by the end or side walls of a shipping container.

A flexible tank has one or more inner layers and one or more outer layers enclosing the inner layers. It has an improved structure to prevent leakage and rupture when making a long multi-modal shipment of large quantities of a liquid, including when the flexible tank is not supported by the end or side walls of a shipping container.

A bag material has a tubular shape and can be folded back at an intermediate position in a longitudinal direction. Crushed stones can be stored in a folded part of the back material. An opening on one side of the bag material can be moved to a position close to an opening on the other side of the bag material. A one-side closing rope that closes the opening on the one side of the bag material is provided near this opening. An other-side closing rope that closes the opening on the other side of the bag material is provided near this opening. The other of the one-side closing rope and the other-side closing ropes can be released with the opening closed by one closing rope.

A collection assembly (10, 10a) for flowable materials includes a central, flexible bag (12, 12a) with a collection skirt (14, 14a) secured to the bag (12, 12a) and extending outwardly from the open top (20, 20a) of the bag (12, 12a). In use, the assembly (10, 10a) is placed at a collection site with the bag (12, 12a) in a collapsed condition and the skirt (14, 14a) is deployed about the bag (12, 12a). Material (36) is then placed on the assembly (10, 10a) over the open top (20, 20a) and, as necessary, the skirt (14, 14a). The skirt is then elevated using marginal gathering apparatus (16, 16a), thereby causing the material (36) to flow into the bag (12, 12a). The skirt (14, 14a) may then be gathered and closed, forming a duffel closure for the assembly (10, 10a).

A sensorless temperature sensing and control system and method uses electrical voltage and current feedback signals to monitor and control the temperature of heating elements used in a heat sealing process wherein sensors are not physically connected to a heat seal bar during the heat sealing process. After calibration of a heat seal bar using a sensor, voltage and current feedback signals are processed by a programmable logic controller (PLC) to calculate the real-time electrical resistance of each heating element. Data and electrical resistance is used to calculate real-time temperature of the heat seal bar during heating.