The invention relates to a device for storing at least one bulk material (35), said device comprising: a container (30) in which said bulk material, selected from the group composed of liquids and powdered materials, can be introduced, said container having a lower face (31) suitable to be able to be subjected to the weight of said bulk material introduced into said container, a force measuring device comprising at least one force sensor (1) arranged beneath the base (31) of said container (30) and in contact with said base (31), each force sensor and the base of the container being arranged such that said force measuring device is only partially subjected to the weight of said bulk material introduced into said container.

An industrial metering apparatus includes a hopper, a metering mechanism, a discharge opening, a window, a hinge, and a locking mechanism. The hopper includes a housing to contain a bulk material. The metering mechanism is coupled to the hopper and meters a quantity of the bulk material leaving the hopper. The discharge opening is coupled to the metering mechanism and discharges the metered quantity of the bulk material. The window covers an opening through the side of the housing. The hinge couples the window to the housing such that the hinge allows the window to hingedly open to allow access to the opening through the side of the housing and hingedly close to substantially prevent the bulk material from escaping from the hopper. The locking mechanism locks the window in a closed position to substantially prevent the bulk material from escaping from the housing of the hopper.

In one embodiment, the present disclosure includes a cloud computer system for controlling a plurality of remote devices comprising a cloud server including a cloud based operating system comprising a data model stored in a computer memory. The data model includes commands that may be performed by a plurality of remote devices in a remote system and, for each remote device, one or more operations for triggering processes executed by the remote device. The cloud based operating system generates a set of instructions from the plurality of commands and corresponding operations to control a portion of the remote devices to perform a task.

In one embodiment, a cloud computer system is disclosed for controlling a plurality of remote devices comprising a cloud server including a cloud based operating system comprising a data model stored in a computer memory. The data model includes commands performed by a plurality of remote devices in a remote system and, for each remote device, one or more operations for triggering processes executed by the remote device. The cloud based operating system generates a set of instructions from the plurality of commands and corresponding operations to control a portion of the remote devices to perform a task.

An apparatus for metering and dispensing a predetermined amount of a viscous substance includes an inlet fluidly connected to a supply flow path that branches into a metering flow path and a first dispensing flow path which branches into a second dispensing flow path that is angled relative to the first dispensing flow path. The apparatus also includes a supply valve disposed in the supply flow path, a dispensing valve disposed in the first dispensing flow path and the second dispensing flow path, a metering piston disposed in the metering flow path, and a dispensing piston. A method of metering and dispensing a volume of a viscous substance is also provided.

A pyrolysis and gasification system produce a synthesis gas and bio-char from a biomass feedstock. The system includes a feed hopper that has a flow measurement device. The system also includes a reactor that is operable in a gasification mode or a pyrolysis mode. The reactor is configured to receive the biomass feedstock from the feed hopper. The reactor is operable to provide heat to the biomass feedstock from the feed hopper to produce the synthesis gas and bio-char. The system also includes a cyclone assembly. The produced synthesis gas including the bio-char is fed to the cyclone assembly. The cyclone assembly removes a portion of the bio-char from the synthesis gas.

An example container for collecting bulk material dispensed from a meter during a calibration operation may include a canister comprising an open end to receive bulk material, a coupler configured to releasably couple to a meter, and at least one weight sensor extending between the enclosure and the coupler. The weight sensor may be configured to detect weight of the bulk material deposited into the enclosure via the open end.

The innovation relates to a device and a method for measuring a powder mass flow for powder cladding. Before the powder cladding, the powder mass flow is set by means of a powder mass determining device and a powder mass flow sensor is calibrated on the basis of the setting. Then a powder switch is used to begin the powder cladding without interrupting the delivery of the powder mass. During the powder cladding, the powder mass flow is monitored by means of the powder mass flow sensor.

A hair-increasing fiber powder packaging bottle with a manually adjustable fiber amount includes a packaging bottle body. The packaging bottle body includes a bottle cap, a top screw cap, a lower cap body, a filter plug, and a bottle body. The top screw cap is mounted to a bottom end of the bottle cap. A deformation support and a non-slip surface are disposed on two sides of the top screw cap. A deformation space is disposed on an inner side of the deformation support. A surface of the top screw cap is provided with a discharge hole. A gear projection is mounted to one side of the top screw cap. A connecting projection is disposed on a side edge of the top screw cap. A sealing boss is disposed on a top end of the top screw cap.

A pyrolysis and gasification system produce a synthesis gas and bio-char from a biomass feedstock. The system includes a feed hopper that has a flow measurement device. The system also includes a reactor that is operable in a gasification mode or a pyrolysis mode. The reactor is configured to receive the biomass feedstock from the feed hopper. The reactor is operable to provide heat to the biomass feedstock from the feed hopper to produce the synthesis gas and bio-char. The system also includes a cyclone assembly. The produced synthesis gas including the bio-char is fed to the cyclone assembly. The cyclone assembly removes a portion of the bio-char from the synthesis gas.