A continuous concentrate feeding equipment of the present invention, which can supply the concentrate to a smelting furnace continuously when the concentrate is received, includes a pressure-adjusting tank that temporarily accumulates granular concentrate; a lift tank that receives the concentrate from the pressure-adjusting tank and discharges the concentrate to a smelting furnace; an air passage for introducing compressed air into the pressure-adjusting tank and the lift tank, respectively; and control means for controlling the compressed air, and the concentrate is continuously supplied from the lift tank to the smelting furnace even when the lift tank receives the concentrate from the pressure-adjusting tank by the control means.

A continuous concentrate feeding equipment of the present invention, which can supply the concentrate to a smelting furnace continuously when the concentrate is received, includes a pressure-adjusting tank that temporarily accumulates granular concentrate; a lift tank that receives the concentrate from the pressure-adjusting tank and discharges the concentrate to a smelting furnace; an air passage for introducing compressed air into the pressure-adjusting tank and the lift tank, respectively; and control means for controlling the compressed air, and the concentrate is continuously supplied from the lift tank to the smelting furnace even when the lift tank receives the concentrate from the pressure-adjusting tank by the control means.

A powder container (10) comprising a pressure vessel (12) for containing a quantity of powder (14) and a quantity of pressurised gas (32), an outlet through which, in use, the powder (14) can flow out of the pressure vessel (12), and an outlet valve (24) for selectively opening and closing the outlet, wherein the container (10) further comprises a data sensing and/or logging means (56, 58, 60, 62, 64) adapted to monitor and/or log various parameters of the powder (14) and/or the pressurised gas (32) and further comprising a control unit (54) adapted record and log the sensor readings either continuously, or at intervals, the control unit (54) comprising a communications module adapted to relay sensor readings, or log files, to a remote monitoring station.

A pneumatic conveyance system for conveying a product between a first unit and a second unit, said system comprising: a conveying line configured for the product to be conveyed therethrough, the conveying line comprising a line inlet configured for coupling to the first unit for receiving the product from the first unit and a line outlet configured for coupling to the second unit for delivering the product to the second unit, a blower unit configured for blowing a flow of air through the conveying line for conveying the product, a sensor unit configured for measuring speed of air entering into the blower unit, and generating a sensor signal indicative thereof, and a controller configured to receive the sensor signal and to generate a control signal for controlling the blower unit based at least upon the measured speed.

A pneumatic conveyance system for conveying a product between a first unit and a second unit, said system comprising: a conveying line configured for the product to be conveyed therethrough, the conveying line comprising a line inlet configured for coupling to the first unit for receiving the product from the first unit and a line outlet configured for coupling to the second unit for delivering the product to the second unit, a blower unit configured for blowing a flow of air through the conveying line for conveying the product, a sensor unit configured for measuring speed of air entering into the blower unit, and generating a sensor signal indicative thereof, and a controller configured to receive the sensor signal and to generate a control signal for controlling the blower unit based at least upon the measured speed.

Disclosed is a system and method for conveying particulate material. A plurality of injector arrangements are arranged along the conveying pipeline, for injecting a continuous flow of conveying gas into the pipeline. Each injector arrangement is operable to increase the flow rate at which conveying gas is injected into the pipeline on of pressure conditions in the conveying pipeline indicative of locally decreased material permeability. Each injector arrangement comprises a piloted shut-off valve positioned between the flow rate adjustment arrangement and the conveying pipeline and operable to close in response to a received pilot signal indicative of a pressure condition in the conveying pipeline below a lower threshold pressure condition. The continuous flow of conveying gas injected by each of the injector arrangements prevents particulate material from entering any part of the injector arrangements, thereby reducing the risk of blockage of nozzles, injection pathway selection valves and the like. The continuous injection of conveying gas along the pipeline also maintains a degree of permeability particulate material in the pipeline and promotes stable conveying. The piloted shut-off valve of each injector arrangement is operable to independently detect a large pressure drop in the pipeline, and to close in order to store pressurised conveying gas in the injector arrangement and supply thereto.

Disclosed is a system and method for conveying particulate material. A plurality of injector arrangements are arranged along the conveying pipeline, for injecting a continuous flow of conveying gas into the pipeline. Each injector arrangement is operable to increase the flow rate at which conveying gas is injected into the pipeline on of pressure conditions in the conveying pipeline indicative of locally decreased material permeability. Each injector arrangement comprises a piloted shut-off valve positioned between the flow rate adjustment arrangement and the conveying pipeline and operable to close in response to a received pilot signal indicative of a pressure condition in the conveying pipeline below a lower threshold pressure condition. The continuous flow of conveying gas injected by each of the injector arrangements prevents particulate material from entering any part of the injector arrangements, thereby reducing the risk of blockage of nozzles, injection pathway selection valves and the like. The continuous injection of conveying gas along the pipeline also maintains a degree of permeability particulate material in the pipeline and promotes stable conveying. The piloted shut-off valve of each injector arrangement is operable to independently detect a large pressure drop in the pipeline, and to close in order to store pressurised conveying gas in the injector arrangement and supply thereto.

A material handling system includes a chassis, a conveyor system supported by the chassis, a pneumatic conveying system supported by the chassis and a storage container supported by the chassis. The conveyor system is configured to convey a granular material from a material unloading station to an inlet of the storage container. Multiple pods are beneath the storage container. Each pod is connected to the storage container by a corresponding pod fill line. A pneumatic conveying line is beneath the pods. The pneumatic conveying line is connected to each of the pods. Each pod has a full level sensor configured to sense when the pod is full or close to full, and an empty level sensor configured to sense when the pod is empty or close to empty.

A material handling system includes a chassis, a conveyor system supported by the chassis, a pneumatic conveying system supported by the chassis and a storage container supported by the chassis. The conveyor system is configured to convey a granular material from a material unloading station to an inlet of the storage container. Multiple pods are beneath the storage container. Each pod is connected to the storage container by a corresponding pod fill line. A pneumatic conveying line is beneath the pods. The pneumatic conveying line is connected to each of the pods. Each pod has a full level sensor configured to sense when the pod is full or close to full, and an empty level sensor configured to sense when the pod is empty or close to empty.

To provide a method for quantitatively and stably feeding fine powder and a system for carrying out the method. The present invention is characterized in that a gas transfer type fine powder quantitative feeding method for quantitatively transferring and feeding fine powder filled in a gas transfer type fine powder quantitative feeder to a fine powder using device by a carrier gas, wherein

when a mixed fluid of the fine powder and the carrier gas is transferred from the gas transfer type fine powder quantitative feeder to the fine powder using device, a water content in the carrier gas is adjusted to suppress an amount of static electricity that is generated in the mixed fluid.