A material supply device is provided, to eliminate bubbles in materials supplied by the material storage tank to the glue supply syringe. The material supply device includes: a material storage tank; a material supply tank provided with a material supply outlet; and a bubble elimination component, configured to be in communication with the material storage tank and the material supply tank and eliminate bubbles in materials supplied by the material storage tank to the material supply tank.

The disclosed technology generally relates to liquefied natural gas (LNG) and liquefied-compressed natural gas (L-CNG) filling stations, and more particularly to an LNG/L-CNG hydraulic pressurization device and a gas filling station. In one aspect, a LNG/L-CNG hydraulic pressurization device includes an oil tank; a L-CNG pressurization cylinder; a LNG pressurization cylinder; first and second directional valves communicating with the L-CNG pressurization cylinder and the LNG pressurization cylinder respectively; a first hydraulic pump and a second hydraulic pump, whose oil inlets communicate with the oil tank and whose pressure oil outlets communicate with an oil inlet of the first directional valve and an oil inlet of the second directional valve respectively; and a ball valve having a first port communicating with a first communication port between the pressure oil outlet of the first hydraulic pump and the oil inlet of the first directional valve, and a second port communicating with a second communication port between the pressure oil outlet of the second hydraulic pump and the oil inlet of the second directional valve.

The disclosed technology generally relates to liquefied natural gas (LNG) and liquefied-compressed natural gas (L-CNG) filling stations, and more particularly to an LNG/L-CNG hydraulic pressurization device and a gas filling station. In one aspect, a LNG/L-CNG hydraulic pressurization device includes an oil tank; a L-CNG pressurization cylinder; a LNG pressurization cylinder; first and second directional valves communicating with the L-CNG pressurization cylinder and the LNG pressurization cylinder respectively; a first hydraulic pump and a second hydraulic pump, whose oil inlets communicate with the oil tank and whose pressure oil outlets communicate with an oil inlet of the first directional valve and an oil inlet of the second directional valve respectively; and a ball valve having a first port communicating with a first communication port between the pressure oil outlet of the first hydraulic pump and the oil inlet of the first directional valve, and a second port communicating with a second communication port between the pressure oil outlet of the second hydraulic pump and the oil inlet of the second directional valve.

A transportable liquid fuel caddy that easily attaches to the outside of any vehicle with a approved hitch receiver. Provisions within the design provide a secure attachment of the fuel caddy to the vehicle that is free of rattle. After attachment to the vehicle, the fuel caddy can be lifted and lowered via hand cranking or pushing lift/lower button on electromechanical version. The fuel caddy can be filled at the refueling station without being removed from the vehicle, gas fumes do not enter the vehicle as the fuel caddy remains mounted to the outside of the vehicle during transportation. The lever pump integrated into the fuel caddy is pumped a few times to build up low pressure in the fuel tanks to push the fuel out of the tanks at the time of dispensing.

A transportable liquid fuel caddy that easily attaches to the outside of any vehicle with a approved hitch receiver. Provisions within the design provide a secure attachment of the fuel caddy to the vehicle that is free of rattle. After attachment to the vehicle, the fuel caddy can be lifted and lowered via hand cranking or pushing lift/lower button on electromechanical version. The fuel caddy can be filled at the refueling station without being removed from the vehicle, gas fumes do not enter the vehicle as the fuel caddy remains mounted to the outside of the vehicle during transportation. The lever pump integrated into the fuel caddy is pumped a few times to build up low pressure in the fuel tanks to push the fuel out of the tanks at the time of dispensing.

A refueling method for supplying fuel to at least one piece of fracturing equipment by installing a main fuel source at a fractionation operation, connecting the main fuel source to fracturing equipment to provide downhole fluids to the well, and connecting at least one pressurization unit to the main fuel source. The method includes using a supply coupling device for receiving fuel from one or more supply fuel lines in communication with the main fuel source and providing the fuel to a motor. The method includes using a return coupling device for receiving fuel from the motor and transferring the fuel through one or more return fuel lines to the main fuel source.

A refueling method for supplying fuel to at least one piece of fracturing equipment by installing a main fuel source at a fractionation operation, connecting the main fuel source to fracturing equipment to provide downhole fluids to the well, and connecting at least one pressurization unit to the main fuel source. The method includes using a supply coupling device for receiving fuel from one or more supply fuel lines in communication with the main fuel source and providing the fuel to a motor. The method includes using a return coupling device for receiving fuel from the motor and transferring the fuel through one or more return fuel lines to the main fuel source.

A dispensing assembly for a pressure dispense package includes a connector having separate and distinct liquid and extraction conduits, and having a pressurization gas conduit. A liner fitment adapter may include a longitudinal bore to receive a probe portion of a connector defining a liquid extraction conduit, and may include a lateral bore to enable removal of gas.

Insertion of a connector into a dispensing assembly simultaneously makes fluidic connections between (a) a gas extraction conduit and a dispensing volume; (b) a liquid extraction conduit and the dispensing volume, and (c) a pressurization gas conduit and a space to be pressurized within a pressure dispense vessel.

A refueling system for supplying fuel to at least one piece of fracturing equipment. The refueling system can have a main fuel source and at least one pressurization unit. The pressurization unit can have an optional pump, a motor, a motor fuel source, a supply coupling device and a return coupling device. The refueling system can have sensors in the one or more supply fuel lines and in the one or more return fuel lines for receiving flow rate information and pressure information, wherein the flow rate information and pressure information are compared to preset limits and a message can be transmitted when the flow rate information and pressure information falls below or exceeds the preset limits to adjust rates of operation.

A refueling system for supplying fuel to at least one piece of fracturing equipment. The refueling system can have a main fuel source and at least one pressurization unit. The pressurization unit can have an optional pump, a motor, a motor fuel source, a supply coupling device and a return coupling device. The refueling system can have sensors in the one or more supply fuel lines and in the one or more return fuel lines for receiving flow rate information and pressure information, wherein the flow rate information and pressure information are compared to preset limits and a message can be transmitted when the flow rate information and pressure information falls below or exceeds the preset limits to adjust rates of operation.