Abstract: To provide an oil filling nozzle with vapor recovery function capable of controlling opening degree of a vapor passage depending on flow rate and adjusting recovery rate. The oil filling nozzle includes a discharge pipe 3 mounted to a front end of a nozzle; a vapor control valve 21 arranged in a middle of a pipe, which connects a vapor collector 19 mounted so as to cover a circumference of the discharge pipe and a vapor passage 22, the vapor control valve 21 being opened and closed by liquid pressure in a nozzle main body 2; and a means for adjusting vapor recovery rate by adjusting opening degree of the vapor control valve 21.

Abstract: An apparatus for distributing a filling product includes a filling valve for liquids, a closure element, and an actuator. The filling valve is configured for opening and closing a distribution or flow opening by linearly displacing the closure element. The valve comprises a valve chamber in which the closure element is arranged. The actuator, which is arranged within a constant volume arranged within the valve chamber, influences movement of the closure element.

Abstract: A dispensing device includes: a syringe including a nozzle; a first pump configured to generate a pressure to discharge a liquid in the syringe through the nozzle; and a control unit configured to, when discharging the liquid in the syringe, discharge a part of the liquid in the syringe with the pressure generated by the first pump and then cause the liquid in the syringe to run out under its own weight.

Abstract: A fuel delivery system and method for reducing the likelihood that a fuel tank of equipment at a well site during fracturing of a well will run out of fuel. A fuel source has plural fuel outlets, a hose on each fuel outlet of the plural fuel outlets, each hose being connected to a fuel cap on a respective one of the fuel tanks for delivery of fuel to the fuel tank. At least a manually controlled valve at each fuel outlet controls fluid flow through the hose at the respective fuel outlet.

Abstract: Provided is a vehicle brake system including a master cylinder which generates a master hydraulic pressure through an operation of a brake pedal by an operator, and a cylinder body which houses a first and second slave pistons driven by an electric motor operated in accordance with an operation amount of the brake pedal, and is formed with a first hydraulic chamber and a second hydraulic chamber for generating a slave hydraulic pressure through operations of the first and second slave pistons. Further, the cylinder body includes a first bleeder and a second bleeder which are configured to be switchable between open states in which a first hydraulic chamber and a second hydraulic chamber are in communication with an external of the cylinder body and closed states in which the first hydraulic chamber and the second hydraulic chamber are not in communication with the external of the cylinder body.

Abstract: A refrigerating and air-conditioning apparatus including a refrigerant circuit, which in turn includes an outdoor unit, and an indoor unit, connected by an extension pipe. The apparatus further includes a control unit having a memory, and is configured to calculate an internal volume of the extension pipe and calculate a standard refrigerant amount, serving as a criterion for determining whether the refrigerant is leaked from the refrigerant circuit, on the basis of the calculated refrigerant extension pipe internal volume. The memory is configured to store the refrigerant extension pipe internal volume and the standard refrigerant amount.

Abstract: Methods and systems for cleaning a capless refueling system in a vehicle are disclosed. In one example approach, a method comprises, in response to a leak detected following a refueling event, cleaning the capless refueling system using engine vacuum.

Abstract: A fuel tank having an interior space defined by a wall, a fill tube to admit fuel into the interior space, and a vent to discharge air and vapor from the interior space as the fuel is admitted. The vent includes a vent tube extending through the wall and downward into the interior space, and having a non-circular opening. In this manner ejection of fuel from the fill tube can be prevented reliably under a wide range of refueling conditions, and without imparting excessive length to the vent tube.

Abstract: Adapter (3) for connecting a receptacle connector to a connection socket of a dialysis machine, each provided with two fluid lines, whose ends are concentric on the connector and non-concentric and distant from each other on the socket. The adapter (3) has concentric first (301) and second (302) adapter ribs, the first forming a circular chamber open towards the outside, in the bottom of which a first orifice is produced, while the second forms an annular chamber open towards the outside, in the bottom of which a second orifice is produced. The adapter also has first and second connection channels (306, 307) isolated from each other, in which the first and second orifices coming from the first and second annular chambers open out. Each channel (306, 307) includes a connecting piece (308, 309) consisting of a circular tube, for introduction into the reception elements of the coupling socket (2).

Abstract: An in-vehicle electronic control unit is fed via a power supply relay energized when a power supply switch is closed while the vehicle is in motion. When a filler lid open command switch is closed in a vehicle stop state in which the power supply switch is opened, the power supply relay is energized and a microprocessor starts to operate and continues to energize the power supply relay by generating a self-hold command output, and opens a filler lid as a safety door after performing decompression processing control of a fuel tank. Then, the filler cap is opened and a refuel operation is performed manually. Thereafter, the microprocessor stops the self-hold command output when the filler cap and the filler lid are closed or a predetermined time has elapsed.

Abstract: Systems and methods for detecting a failure in a Stage II fuel vapor recovery system are disclosed. An exemplary failure is a restriction in the vapor recovery system. In one detection system dispensing points may be flagged if it is determined that there has been a series of detected A/L ratios at the respective dispensing point below a first threshold. Further, an estimated ORVR penetration percentage may be determined for each dispensing point. In a second detection system an average A/L ratio for each dispensing point may be determined. The average A/L ratio may be an approximation of the average A/L ratio for non-ORVR transactions.

Abstract: Wound treatment systems and methods (e.g., having hydrophilic wound inserts), such as for negative-pressure and/or fluid-installation wound therapies. Some embodiments include a check-valve assembly between a wound dressing and a vacuum source.

Abstract: An internal pressure control valve is provided in a branch pipe communicating a fuel tank with a canister. The internal pressure control valve maintains the internal pressure of the fuel tank at a head pressure of the fuel in a filling pipe for a predetermined time after filling.

Abstract: A fluid path set for a fluid delivery system includes a tube coil that is designed to optimally position one or more volumes of a pharmaceutical within an ionization chamber to measure and prepare a pharmaceutical dose for administration to a patient. The fluid path set includes a medical fluid component having a first tubing section for connection to a source of a medical fluid, a pharmaceutical component having a second tubing section for connection to a source of a pharmaceutical, and a coil assembly which includes the tube coil. The tube coil may be maintained in a desired dimensional geometry by means of a core structure around which the tube coil is positioned.

Abstract: Systems and methods for delivering fluid-containing feed materials to process equipment are disclosed. A liner-based pressure dispensing vessel is subjected to filling by application of vacuum between the liner and overpack. Multiple feed material flow controllers of different calibrated flow ranges may be selectively operated in parallel for a single feed material. Feed material blending and testing for scale-up may be performed with feed materials supplied by multiple liner-based pressure dispensing containers. A gravimetric system may be used to determine concentration of at least one component of a multi-component solution or mixture.

Abstract: An intermediate bulk storage container for the storage or transport of particulate catalyst material includes a vessel having an inner wall defining a containment volume for particulate catalyst material. The vessel has a cylindrical wall section, a top panel closing the upper end of the cylindrical wall section and a conical base section connected to and tapering inwardly away from the lower end of the cylindrical wall section. An opening in the top panel of the container receives the catalyst material and a closure member closes the opening. An air tight seal is formed when the opening is closed by the closure member. A gas duct is in fluid connection with the vessel for supplying an inert gas to the sealed container or removing gas from the vessel to place the container under a vacuum. The gas duct is closed by a valve for transit or storage.

Abstract: A fueling device for fueling the thrusters of a launcher is disclosed. The device includes a ground module and an on-board module. The ground module having at least: a ground pipe; a ground valve; and a ground plate provided with a ground passage, and the on-board module having at least: an on-board pipe; an on-board valve; and an onboard plate provided with an on-board passage. The device also includes a hydraulic coupling system between the onboard module and the ground module enabling fluid communication to be established between the ground passage and the on-board passage. A first annular enclosure is situated between the on-board plate and the ground plate around the hydraulic coupling system that, when connected to suction, enables the on-board plate and the ground plate to be held in a connected-together position.

Abstract: The present invention relates to a process for preparation of a composition comprising gas microbubbles. More partitularly the invention relates to a process for filling of such composition into a container. The composition prepared is preferably an ultrasound contrast media composition made available in a container wherein the headspace of the container comprises the same gas as the gas of the microbubbles.

Abstract: Disclosed herein are embodiments of a valve assembly for preventing dead leg spaces in a container or tubing, the embodiments including a three-way valve system for controlling back-pressure in a fluid generating device, such as a single-use high pressure bioreactor. Also disclosed is a pressurized reactor system for bioprocessing, comprising a single-use container including a flexible wall or a semi-rigid wall.

Abstract: The invention relates to a method for the pressurized filling of bottles or like containers with a liquid filling material, using a return gas tube protruding into the respective container during a filling phase in order to control the filling level.

Abstract: A gas storage container may be filled with gas under pressure by feeding cryogenic fluid comprising liquefied gas into the container through a first conduit arrangement in a nozzle inserted into a passageway through a fluid flow control unit mounted in an opening in said container; closing the container to the passage of gas into or out of said container; and allowing said cryogenic fluid to become gaseous within the closed container. The invention involves venting displaced air and/or gaseous cryogenic fluid from said container during the feeding step through a second conduit arrangement in the nozzle. In embodiments in which displaced air and/or gaseous cryogenic fluid flows through the second conduit arrangement around a length of the first conduit arrangement, heat transfer from the fluid flow control unit to said cryogenic fluid is suppressed thereby reducing the level of evaporation of the cryogenic fluid in the nozzle during fill.

Abstract: A brake fill tool for filling a brake housing in a braking system on a vehicle includes a nozzle housing having a nozzle for filling a reservoir chamber of the brake housing, a manual clamping mechanism connected to the nozzle housing that selectively clamps the nozzle to the brake housing, and a pressurized sealing mechanism that is connected to the nozzle housing. The pressurized sealing mechanism selectively seals the nozzle to the brake reservoir after the manual clamping mechanism clamps the nozzle to the brake housing.

Abstract: A non-overflow liquid delivery system comprises a pumping apparatus having a liquid delivery pumping portion and a liquid recovery pumping portion fluidically isolated one from the other. A nozzle has a liquid delivery conduit and a liquid recovery conduit. A liquid delivery hose connects the liquid delivery pumping portion of the pumping apparatus in fluid communication with the liquid delivery conduit. A liquid recovery hose connects the liquid recovery pumping portion of the pumping apparatus in fluid communication with the liquid recovery conduit. A valve has a first movable valve portion for opening and closing the liquid delivery conduit. A manually operable valve control mechanism is connected to the valve for controlling the first movable valve portion, and has a liquid sensor responsive to a threshold condition of liquid in the liquid recovery conduit to thereby cause the first movable valve portion to close the liquid delivery conduit.

Abstract: The invention relates to a tank venting system for a fuel tank (12) of a vehicle, having a vent line (14) for discharge of gaseous hydrocarbons from the fuel tank (12) during refueling thereof. Gaseous hydrocarbons originating from the fuel tank (12) can be introduced in a filler pipe (20) of the fuel tank (12) via a recirculation line (24). A control device (34) controls a proportional valve (32) and changes in this way a pass-through cross section of the recirculation line (24). In this way, a load of an activated charcoal filter (16) which is coupled with the vent line (14) can be minimized. The control device (34) can especially determine a pressure in the fuel tank (12). Furthermore, the invention relates to a method of venting a fuel tank (12) during refueling thereof.

Abstract: A nozzle for use in a non-overflow liquid delivery system comprises a nozzle body, a liquid delivery conduit having a liquid-receiving inlet and a liquid-dispensing outlet, and a non-bifurcated liquid recovery conduit having a liquid-receiving inlet and a liquid-conveying outlet. The minimum effective internal cross-sectional area of the liquid recovery throughpassage is greater than half the minimum effective internal cross-sectional area of the liquid delivery throughpassage. A valve has a first movable valve portion and a second movable valve portion that are interconnected one to the other for co-operative movement one with the other. A manually operable trigger is connected to the first movable valve portion for corresponding positive uninterruptable movement of the first movable valve portion between a valve-closed configuration and the valve-open configuration.

Abstract: A container filling assembly includes a plurality of fluid storage containers, and a fluid inlet for supplying a fluid from a fluid source to the containers. A vacuum source creates a vacuum in the containers to draw the fluid into the containers and thereby fill the containers. A connective structure connects the vacuum inlet and the fluid inlet in fluid communication with the containers.

Abstract: A device for simultaneously edge sealing and gas filling an insulated glass unit, the insulated glass unit including a supporting structure that supports the insulated glass unit in a working position and a gas filling module including a gas fill injection structure and a displaced air extraction structure and a gas metering unit. The device also includes an edge sealing module having a sealant metering device, an edge sealing dispensing head, and an edge sealing dispensing nozzle. The device also includes a control device programmed with an algorithm to initiate gas filling substantially simultaneously with initiating edge sealing of the insulated glass unit and to complete the gas filling of the insulated glass unit prior to completion of the edge sealing.

Abstract: A filling machine includes a filling element that has a liquid channel, a liquid valve, controlled gas paths, and a probe having a channel and an opening. The channel connects to a tank of filling material. A filter in a gas path traps contaminants. During filling, the liquid valve introduces filling material into a container, the first gas path connects to an interior space of the container, and the probe's position determines a fill level in the container.

Abstract: A medical waste fluid collection and disposal system includes a medical waste fluid collection cart including first and second fluid collection canisters. A valve assembly selectively communicates with the canisters and a valve drive system controls the valve assembly. A liquid level sensor is positioned within each of the canisters. A cart processor communicates with the liquid level sensors and the valve drive system. A cart drain line communicates with the valve assembly and a receptacle, a cart flushing line communicates with the valve assembly and the receptacle and a cart data line and a cart power line communicate with the cart processor and the cart receptacle. A station includes a drain pump that communicates with a drainage system and a station drain line, a flushing pump that communicates with a source of washing liquid and a station flushing line and a station processor in communication with the drain and flushing pumps. A station data line communicates with the station processor.

Abstract: An apparatus for loading material into a stent strut can comprise a suction pump connected to an opening to a lumen within the stent strut. The stent strut is immersed in the material. As the suction pump draws gas out of the lumen, the material is drawn into side openings to the lumen.

Abstract: Systems and apparatuses for fluid delivery. A system may include a container for containing fluid and a pump for pumping fluid from the container. There may be a dispensing outlet valve for mediating fluid flow through a dispensing outlet of the container, wherein the dispensing outlet valve is configured to permit flow from the container out the dispensing outlet when the pump is being pumped, and to automatically inhibit fluid flow from the container through the dispensing outlet when the pump is not being pumped.

Abstract: A suction nozzle, which is configured to be interlocked with a gas filler nozzle used to supply a gas to a gas consuming device, comprises a suction port configured to suck moisture inside the gas filler nozzle when the suction nozzle is interlocked with the gas filler nozzle.

Abstract: A method of operating a vapor recovery system that recovers vapors expelled from a vehicle during refueling at a fuel dispensing point and returns the vapors to an underground storage tank through a vapor flow path that is in fluid communication with an air to liquid regulator valve and a vapor pump. The method includes dispensing fuel into the vehicle through the fuel dispensing point, regulating an amount of vapor that is recovered through the fuel dispensing point with the air to liquid regulator valve in proportion to the fuel dispensed into the vehicle, detecting a parameter of the vapor recovery system, and maintaining a substantially constant pressure level in a first portion of the vapor return path that is disposed between the vapor pump and the air to liquid regulator valve.

Abstract: An air to liquid regulator valve for use with a vapor recovery system that recovers vapors expelled from a vehicle receiving fuel through a fuel supply passage and returns the vapors to an underground storage tank through a vapor return passage in a service station environment. The regulator valve includes a housing defining a fuel flow path in fluid communication with the fuel supply passage and a vapor return path in fluid communication with the vapor return passage, a vapor return orifice defined by the housing and disposed between a first portion and a second portion of the vapor return path, and a vapor flow bypass in fluid communication with the first portion and the second portion of the vapor return path such that the flow of vapors through both the vapor flow bypass and the vapor return orifice is possible.

Abstract: A waste collection and disposal system for use in health care facilities is provided. The system includes a mobile waste collection unit for moving between use areas in the health care facility to collect waste material generated during medical procedures including body fluids, body tissues, saline, etc. The waste collection unit includes stacked upper and lower waste containers for receiving the waste material. During use, the upper waste container can be emptied into the lower waste container for temporary storage. In addition, different vacuum levels can be provided in the waste containers during complex procedures. Once a user desires to empty the waste collection unit, the waste collection unit is wheeled to a docking station. At the docking station, the waste material is off-loaded to a waste drain and the waste collection unit is cleaned and rinsed for further use.

Abstract: A method for filling bottles or similar containers with an oxygen sensitive effervescent liquid beverage filling material under counterpressure and a filling machine for the performance of this method are disclosed.

Abstract: A fuel-fill adapter for use in conjunction with a manually-controlled liquid supply nozzle for filling a fuel reservoir is disclosed. The adaptor mates with liquid supply nozzle as well as the filling port of the fuel reservoir. The fuel fill adaptor includes two main fluid pathways: an incoming pathway for liquid to fill the reservoir and an outgoing pathway for vapor venting or excess liquid draining. The fuel-fill adaptor includes a low-pressure differential vacuum-breaking valve to prevent the siphon effect that would otherwise naturally occur if liquid were to enter the gas venting hose. The vacuum-breaking valve permits air to enter the adaptor, wherein the air is then drawn down the drain hose instead of any additional liquid. The vacuum breaking valve can be connected to either the incoming liquid or vent/drain pathways.

Abstract: A hollow needle comprising a shaft having a distal portion suitable for passing through an elastomer closure of a container, said shaft extending in a longitudinal direction and having a central longitudinal axis, and having an internal longitudinal conduit therein for the flow of liquid and one or more orifices communicating between the conduit and the exterior of the needle, the distal portion of the shaft being provided with a pointed end that has a profile comprising a cutting edge in the form of two part cutting edges converging in the longitudinal direction to meet at the needle point, each part cutting edge extending in a straight line in a widthways direction across a plane including the central longitudinal axis, on both widthways sides of the cutting edge the pointed end having a profile which is a non-cutting surface, wherein the pointed end of the needle tapers from an outer surface of said distal portion toward the point of the needle, and the distance, measured in a further plane defined by said

Abstract: An apparatus for filling a container (1) with a liquid which is intended, in particular, for consumption has a tube (2) for feeding the liquid. This tube has a flexible separating plate (3) at the lower end. The tube (2) with its separating plate (3), prior to the filling operation, is lowered onto the base of the container (1) and then is moved upwards, with the liquid being fed at the same time.

Abstract: The diving nozzle includes a first tube and a second tube. The first tube having a first inlet and a first outlet. The first inlet connected to a supply of a first material. The first outlet operable to dispense the first material into the package. The second tube is moveable with respect to the first tube. The second tube having a second inlet and a second outlet. The second inlet connected to a supply of a second material. The second outlet operable to dispense the second material into the package. The first material is one of the product and the purging gas, the second material is the other of the product and the purging gas.

Abstract: Methods and embodiments are described for sampling and measuring oxygen concentrations of flowing samples drawn from the ullage of a chemical or fuel tank and from a source of inerting gas used for purging the tank. The sampled flows are drawn with a venturi pump or a pneumatically driven turbine pump and returned to the ullage of the tank. An optical absorption spectrophotometer is used having a diode laser sensor, and both sensor and the pump can be safely located near to the tank. Control systems and apparatus are disclosed for controlling the oxygen level within the ullage of the tank.

Abstract: An irrigation system comprising: a reservoir with an inlet for pouring liquid into the reservoir, the inlet defining a closing element for closing the inlet; an insertion member defining an insertion end for insertion into a body cavity a human being, the insertion member defining at least one opening; and a liquid tube fluidly connecting the reservoir and having with the insertion member. At least one of reservoir and the insertion member is permanently fastened to the liquid tube.

Abstract: A medical canister connector is presented for connecting to a medical canister, which has a patient port and a reduced-pressure port. The medical canister connector includes a first connection member that is coupled to a patient-port-attachment member, which is for coupling to a patient port on a medical canister and has a patient-port opening with a first longitudinal axis. The medical canister connector also includes a second connection member coupled to a reduced-pressure-port-attachment member, which is for coupling to a reduced-pressure port on the medical canister and has a reduced-pressure-port opening with a second longitudinal axis. A spacing member or pressure transport member may be used to couple the first connection member to the second connection member. The spacing member or transport member flexes and twists during connection. The medical canister connector may also help organize one or more pressure-sensing conduits. Methods are also presented.

Abstract: An apparatus, system, and method are provided for bypassing a coolant reservoir with a fill tool connecting a source of vacuum pressure and a source of coolant (e.g., a vacuum coolant filler) to a vehicular cooling system inlet port. The fill tool bypass allows the coolant reservoir to be manufactured from a relatively structurally weak polymer material, which is subject to failure under vacuum pressure, while still allowing vacuum coolant filling to be used to charge the vehicular cooling system. Without the use of the bypass fill tool, the coolant reservoir would rupture under the vacuum pressures applied during vacuum coolant filling.

Abstract: A nozzle for dispensing fluid including a nozzle body having a fluid path which is configured to receive fluid therein and a vapor path which is configured to receive vapor therein. The nozzle further includes a main fluid valve positioned in the fluid path to control a flow of fluid therethrough, the main fluid valve including a main fluid valve spring configured to bias the main fluid valve to one of its open or closed positions. The nozzle further has a main vapor valve positioned in the vapor path to control a flow of vapor therethrough. The main vapor valve includes a main vapor valve spring configured to bias the main vapor valve to one of its open or closed positions. At least part of the main fluid valve spring or the main vapor valve spring is positioned within the other one.

Abstract: An inactive gas introducing facility includes an introducing device for introducing inactive gas to the inside of a container stored in a storage section of a storage shelf with discharging gas present inside the container to the inside of a storage space partitioned from the outside and a controller for controlling operation of the introducing device. In a normal stop mode, the controller controls the operation of the introducing device to stop feeding of inactive gas to the container in response to detection of an opened state of an inspection door. And, in a stop nullification mode, the controller controls the operation of the introducing device to continue feeding of inactive gas to the container even in response to detection of the opened state of the inspection door.

Abstract: A hydrocarbon transfer arrangement for transfer of fluids between an offshore unit and a carrier which are placed in an offloading configuration, includes at least one transfer hose and a gas return hose, wherein the end of the at least one transfer hose is connected to a floating multi-function unit allowing for the transport of the transfer hose between the offshore unit and the carrier, wherein the floating multi-function unit can be lifted out of the water and can be held in a fixed position above water-level and is provided with connection elements for making a fluid connection between the transfer hose end and a manifold of the carrier and with emergency disconnect elements for the at least one transfer hose, placed at a distance from the connection elements.

Abstract: A flamer may be used to sterilize poultry litter, soil, concrete, etc. The stationary or mobile flamer disclosed comprises a hood to contain the heat, an external frame, and burners. A fuel tank may be carried on the flamer or on a tractor. An additional embodiment provides for mounting the flamer on wheels, permitting the unit to be towed by a truck, four-wheeler, tractor, etc. The burners are adjustable as to angle, and fueling rate. A pressure in the fuel system is controlled by selectively switching between the liquid and vaporous components of the fuel. By limiting how low the pressure may fall, the flow of fuel from the tank to the torches is more consistent.

Abstract: A nozzle including a dispensing path configured such that fluid is dispensable therethrough and into a vessel, and a sensing path in which a negative pressure is generated when fluid flows through the dispensing path. The nozzle further includes an attitude sensing device configured to sense an attitude of the nozzle. The attitude sensing device is in fluid communication with the sensing path and includes a ball received in a track. The track includes a generally spherical portion configured to receive the ball therein to generally block the sensing path when the nozzle is raised to a sufficient angle. The spherical portion has a radius generally corresponding to a radius of the ball.

Abstract: A system and method are disclosed for automatically limiting the drainage of a bodily fluid such as cerebrospinal fluid (CSF) from a patient into a collection chamber. The collection chamber includes a vent having an hydrophobic filter for the passage of air to facilitate the movement of CSF yet to maintain a closed system. The system includes a buoyant float hingedly connected with the top of the collection chamber in one embodiment. When fluid rises in the collection chamber to a predetermined volume, buoyant force raises the float and causes a seal plug mounted on top of the float to seal one of an inflow port or a vent port. The float is limited to pivoting movement in one plane and to a certain angle within that plane. The system and method avoid overdrainage of CSF from the patient and overfilling of the collection chamber.