Abstract: A pumping device includes a barrel, a top cover mounted on the top of the barrel, a first switching valve mounted on the top cover, a base mounted on the bottom of the barrel, a second switching valve mounted on the base, a cylinder connected between the top cover and the base, a piston movably mounted in the cylinder, a plurality of check valves mounted on the piston, an operation unit connected with the piston, and a conduit connected between the barrel and the base. Thus, a user has to pull or push the first switching valve and the second switching valve simultaneously to extract or suck the fluid in the barrel so as to deflate or inflate the barrel so that the pumping device has a security process and is operated in a safer manner.

Abstract: A dosing device for powder has an inlet and an outlet for powder. A dosing disc rotatable from inlet to outlet has a dosing area of sintered material, which is provided with cavities for the volumetric dosing of the powder. A dosing body having open dosing cavities is provided which is movable from the inlet and outlet. By changing the speed of rotation of the dosing disc the quantity of powder to be discharged can be set in a wide range.

Abstract: A portable system for transferring liquids such as fuels from a first tank to a second tank. The first tank may be, for example, a railcar and the second tank a transport trailer. The portable system is separated into multiple compartments with an engine compartment and a pump compartment. A wall separates the engine and pump compartments and may be sealed to prevent the passage of air or vapor therethrough. The pump is utilized to transfer liquid from the first tank to the second tank.

Abstract: A method of filling a hydrogen gas storage tank with hydrogen gas includes filling an onboard hydrogen gas storage tank with hydrogen gas at substantially constant temperature and pressure while transferring a liquid from the hydrogen gas storage tank to a reservoir tank, compressing a gas in the reservoir tank by the flow of liquid into the reservoir tank, and managing the heat produced by the compression of gas in the reservoir tank off board the vehicle. A hydrogen gas delivery system includes an onboard hydrogen gas storage tank, a hydrogen gas supply line, a reservoir tank, and a liquid that transfers the heat of filling the hydrogen gas storage tank to the reservoir by effecting a compression of gas in the reservoir.

Abstract: In an apparatus for manufacturing a fluid dynamic bearing, a housing portion defines a first work area. A vacuum pump discharges air in the first work area. A lubricant discharge device is arranged in the first work area, and discharges a lubricant into an inlet of a reservoir for storing the lubricant of the fluid dynamic bearing. At least one aperture is provided in the housing portion. A first door closes the aperture and a second door closes the aperture. Between the first door and the second door, when both have closed the aperture, a second work area is formed where the fluid dynamic bearing is placed.

Abstract: A liquid delivery system for supplying liquid from a portable container to a destination and removing vapor from the destination comprises a portable container, an elongate flexible liquid delivery hose, and an elongate flexible vapor recovery hose. The liquid delivery hose receives liquid from the portable container, and delivers the received liquid to a remote destination. The vapor recovery hose receives vapor from the remote destination, and delivers the received vapor to the substantially hollow interior of the portable container. The liquid delivery hose and the vapor recovery hose permit the movement of the liquid outlet of the liquid delivery hose to more than one selected remote destination while the container remains substantially stationary. Reduced air pressure in the portable container resulting from the removal of the liquid therefrom, causes vapor to be suctioned via the vapor recovery hose into the portable container.

Abstract: Methods and devices for treatment of damaged tissue are disclosed, including treatment of wounds by employing non-electrically powered, reduced pressure therapy devices. Maintenance and control of the sub atmospheric pressure exerted may be provided by such devices while minimizing discomfort to the user. The devices may be configured to be worn inconspicuously underneath clothing.

Abstract: A method for the filling and optionally emptying transport containers with plastics granular materials is disclosed. A flexible plastics inliner is inserted into a transport container. A front side of the inliner includes at least one receiving flexible hose connection for filling the inliner with plastics granular material, at least one discharge hose connection for discharging blown in conveying air from the inliner, and at least one emptying hose connection for emptying plastics granular material from the inliner. The front side of the inliner also includes a protective liner. The cabin and the transport container are positioned at a decanting station, the cabin being adapted to transfer plastics granular material from the decanting station and decant the transferred plastics granular material into the transport container through the receiving hose connection. The transport container is then filled with plastics granular material utilizing the cabin.

Abstract: A potting apparatus has a first conveyor suitable for receiving a pot thereon, a second conveyor has a surface suitable for receiving soil thereon and having an end positioned so as to deliver soil to the pot on the first conveyor, a drill positioned above the first conveyor so as to be movable upwardly and downwardly relative to the pot on the first conveyor so as to form a hole in the pot, and a driving means cooperative with the first conveyor for moving the first conveyor in an indexing manner such that the first conveyor temporarily stops at a location directly below the drill. The drill is slidably supported on a frame so as to be driven by a belt connected to the drill. A servomotor is drivingly connected to the belt so as to move the drill in an upward direction or a downward direction.

Abstract: A fully articulable feedstock delivery device that is designed to operate at pressure and temperature extremes. The device incorporates an articulating ball assembly which allows for more accurate delivery of the feedstock to a target location. The device is suitable for a variety of applications including, but not limited to, delivery of feedstock to a high-pressure reaction chamber or process zone.

Abstract: A sealing and inflating assembly includes an air compressor for generating a pressurized air, a tire repairing container for receiving a sealing preparation having a mouth opening, an outlet piece attached to the mouth opening of the container and having an entrance for coupling to the air compressor and having an inlet conduit for guiding the pressurized air to flow into the container, and having an inlet conduit for allowing the sealing preparation to flow out of the outlet piece, a pipe having one end coupled to the inlet conduit of the outlet piece, and a check valve device attached to the pipe for controlling the pressurized air to flow into the container, and for preventing the sealing preparation from flowing into the pipe.

Abstract: Method and apparatus for parallel dispensing of powder samples is described. Powder samples are dispensed into at least two powder sample holders, each said sample holder having a through passage which preferably generally tapers from a first aperture through which powder is introduced into said passage and a second aperture through which powder, when permitted to do so, flows from said passage. The lower apertures of the sample holders are preferably sealed using a resilient film. The powder samples are dispensed by substantially simultaneously perforating the film covering each aperture and agitating the powder samples to cause them to flow from their respective sample holders. Also disclosed are a method of generating a library of powder samples and a library of powder samples.

Abstract: A balloon inflator includes a nozzle adaptor configured to fit over an outlet of an inflation nozzle. A nozzle receipt is provided by the balloon inflator housing to selectively receive the nozzle adaptor and a switch is provided at the nozzle receipt. The nozzle adaptor is adapted to trigger the switch when received at the nozzle receipt. The switch controls the power supplied to the motor, such that different motor operating parameters are realized when the switch is triggered and when the switch is not triggered. In a particular embodiment, the nozzle adaptor includes vent channels that exhaust a portion of the air to the atmosphere when a balloon is fitted over the alternate outlet.

Abstract: A fuel removal device comprising: means for establishing releasable fluid communication with an interior volume of an engine-mounted diesel fuel filter; a first conduit affixed to the releasable communication means for conveying diesel fuel contained in the interior volume of the engine-mounted diesel fuel filter out of the fuel filter; a collection receptacle in fluid communication with the fuel conveying conduit, the collection receptacle having a plurality of walls and located external to the automotive vehicle associated with the engine-mounted diesel fuel filter and at least on pneumatic system controlling the removal of fuel from the diesel fuel filter.

Abstract: An arm of a coating robot is used to prevent external leakage of a high voltage. A tank is installed on a robotic arm and contains water as an actuating liquid. The water is supplied to a paint cartridge by a pump controlled by a controller. The water sent from the pump under pressure is supplied to the paint cartridge by a conduit tube. A high voltage generator and a bleeder resistor are combined with the tank such that a high voltage generated by the high voltage generator is supplied to the electrostatic paint applicator via the water. For replenishment of water to the tank is attained by relatively connecting a nozzle in communication with a water source to a main pipe. While the high voltage generator generates a high voltage, the nozzle and the main pipe are kept disconnected to maintain electrical insulation between the nozzle and the main pipe.

Abstract: Powder dispensing and sensing apparatus and methods are provided. The powder dispensing and sensing apparatus includes a tray support structure to receive a cartridge tray holding cartridges, a powder dispenser assembly including powder dispenser modules to dispense powder into respective cartridges of a batch of cartridges in the cartridge tray, a powder transport system to deliver powder to the powder dispenser modules, a sensor module including sensor cells to sense respective fill states, such as the weights, of each of the cartridges in the batch of cartridges, and a control system to control the powder dispenser modules in response to the respective sensed fill states of each of the cartridges of the batch of cartridges.

Abstract: A powder filling apparatus and a powder filling method which enable powder to be densely filled in a short period of time is to be provided. This is a powder filling apparatus having a pressure hopper wherein the pressure hopper has a discharger for discharging powder and a gas inlet positioned above at least the surface of a powder layer formed by the powder in the pressure hopper; the powder layer is so formed as to blockade the discharger in the pressure hopper; in the powder filling apparatus, the inside of the pressure hopper is pressurized by leading in gas through the gas inlet in a state in which the discharger is closed, and the powder layer so formed as to blockade the discharger is discharged by opening the discharger after the pressurization thereby to utilize that pressure to load the powder into the filling container.

Abstract: An apparatus for batching powder and/or granular products, comprising: a hopper; at least a passage, delimited at one side thereof by a gas-permeable element which alternatively communicates with a first depressed source and with a first pressurized source, and at opposite side thereof communicating with a discharge region; an obturator acting in the passage between an occluding position, in which a batching chamber is defined, and an enabling position. The obturator element is conformed such as to place the hopper in communication with the batching chamber when it is in the occluding position; the first depression source, the first pressurized source and the obturator element being activated in phase relation with one another for loading a batched quantity of powder and/or granular products internally of the batching chamber and for projecting the batched quantity internally of a container element.

Abstract: A vapor recovery system for recovering fuel vapor from a vehicle tank during dispensing of fuel into the vehicle tank. The vapor recovery system comprises a vapor recovery line for transporting fuel vapor, and detecting device for detecting a fuel vapor flow. The detecting device comprises a housing having a vapor inlet and a vapor outlet, a body movably arranged in the housing, and a sensor arranged to detect a location of the body within the housing. The body is configured to move from a first position in the housing to a second position in the housing in dependence of a rate of fuel vapor flow flowing from the vapor inlet to the vapor outlet.

Abstract: A portable system for transferring liquids such as fuels from a first tank to a second tank. The first tank may be, for example, a railcar and the second tank a transport trailer. The portable system is separated into multiple compartments with an engine compartment and a pump compartment. A wall separates the engine and pump compartments and may be sealed to prevent the passage of air or vapor therethrough. The pump is utilized to transfer liquid from the first tank to the second tank.

Abstract: A method for filling containers with multi-component flowable media may include filling a first component into the container to be filled by means of a first filling assembly, transporting the container filled with the first component of the liquid to a second filling assembly, and filling a second component of the liquid into the container to be filled with the first component by means of the second filling assembly. After filling the first component into the container, a filling quantity of the first component is determined.

Abstract: A grain transfer control system, and method of use thereof, for automatedly controlling the transfer of grain from a mobile transferor-type vehicle, such as a combine harvester, to a mobile transferee-type vehicle, such as a crop transport, by varying the position and speed of the transferor-type and transferee-type vehicles relative to one another during the transfer operation, especially by varying the position and rate of walk of the discharge spout along at least a portion of the length of a grain holding receptacle of the transferee-type vehicle, to effect a generally even fill of the grain holding receptacle of the transferee-type vehicle along the length of the grain holding receptacle.

Abstract: A portable system for transferring liquids such as fuels from a first tank to a second tank. The first tank may be, for example, a railcar and the second tank a transport trailer. The portable system is separated into multiple compartments with an engine compartment and a pump compartment. A wall separates the engine and pump compartments and may be sealed to prevent the passage of air or vapor therethrough. The pump is utilized to transfer liquid from the first tank to the second tank.

Abstract: Disclosed are methods and apparatuses for supplying a liquid and controlling its level inside of a container. In particular, the liquid inside of the container may be a liquid material suitable for use in a chemical vapor deposition process, wherein the liquid is controlled and supplied in a manner which minimizes the introduction of impurities.

Abstract: A powder filling apparatus and a powder filling method which enable powder to be densely filled in a short period of time is to be provided. This is a powder filling apparatus having a pressure hopper wherein the pressure hopper has a discharger for discharging powder and a gas inlet positioned above at least the surface of a powder layer formed by the powder in the pressure hopper; the powder layer is so formed as to blockade the discharger in the pressure hopper; in the powder filling apparatus, the inside of the pressure hopper is pressurized by leading in gas through the gas inlet in a state in which the discharger is closed, and the powder layer so formed as to blockade the discharger is discharged by opening the discharger after the pressurization thereby to utilize that pressure to load the powder into the filling container.

Abstract: The invention relates to a filling system for filling bottles or similar containers (2) with a liquid filling material, said system comprising at least one filling element, a liquid channel formed in a housing of the filling element and connected to a tank for providing the liquid filling material, and at least one outlet for dispensing the liquid filling material into the respective container attached to the filling element. Said filling system also comprises a liquid valve in the liquid channel, a gas return tube that projects past the at least one outlet on one end, for controlling the level of the filling material in the filled container, and is connected to a gas chamber, formed for example in the tank, by means of a fluid connection. The filling system also comprises an open fluid channel inside the filling element, in the region of the outlet.

Abstract: In the present invention methods for storing gaseous hydrogen employing an ionic liquid are disclosed. The ionic liquid is used to displace the volume in the storage tanks. By displacing the volume in the storage tanks with the ionic liquid, the storage pressure can remain constant and the “stranded” gas can be eliminated. This constant pressure will also allow for a reduction in the number of storage tanks needed to provide the required inventory at hydrogen fueling stations. In addition, this constant pressure will provide a complete and fast fill to the vehicle.

Abstract: A quantitation setup mechanism (58) is composed of a piston (62) which is incorporated into a quantitation tank (61) to define therein a metering chamber (63), a quantitation setup portion (65) for presetting a quantity of paint replenishment, and a sensor (66) adapted to detect a displacement of the piston (62) preset by the quantitation setup portion (65). In this instance, paint is replenished into a paint chamber (19) of a cartridge (16) by means of a paint feed mechanism (32). In the course of the paint replenishment, an equivalent amount of an extruding liquid is displaced and discharged from an extruding liquid chamber (20). The displaced extruding liquid is introduced into the metering chamber (63) of the quantitation setup mechanism (58), detecting a quantity of displacement of the extruding liquid by replenished paint by the sensor (66) through the piston (62) to exactly quantitate the paint replenishment.

Abstract: A painting material charging device may comprise a cartridge attaching unit, a painting material supplying path, a first switching unit, a painting material supplying unit, a discharging path, a second switching unit, a painting material sensor and a controlling unit. The controlling unit may be configured to be connected to the painting material sensor and the second switching unit. The controlling unit may be configured to cause the second switching unit to fully close the discharging path in a case where the painting material sensor detects the painting material.

Abstract: Powder dispensing and sensing apparatus and methods are provided. The powder dispensing and sensing apparatus includes a tray support structure to receive a cartridge tray holding cartridges, a powder dispenser assembly including powder dispenser modules to dispense powder into respective cartridges of a batch of cartridges in the cartridge tray, a powder transport system to deliver powder to the powder dispenser modules, a sensor module including sensor cells to sense respective fill states, such as the weights, of each of the cartridges in the batch of cartridges, and a control system to control the powder dispenser modules in response to the respective sensed fill states of each of the cartridges of the batch of cartridges.

Abstract: Powder dispensing and sensing apparatus and methods are provided. The powder dispensing and sensing apparatus includes a tray support structure to receive a cartridge tray holding cartridges, a powder dispenser assembly including powder dispenser modules to dispense powder into respective cartridges of a batch of cartridges in the cartridge tray, a powder transport system to deliver powder to the powder dispenser modules, a sensor module including sensor cells to sense respective fill states, such as the weights, of each of the cartridges in the batch of cartridges, and a control system to control the powder dispenser modules in response to the respective sensed fill states of each of the cartridges of the batch of cartridges.

Abstract: A powder filling apparatus that can prevent a screw portion of an auger screw from contacting an inner surface of a metering portion at a funnel lower end portion. The powder filling apparatus includes a funnel that contains powder, and a circular-cylindrical metering portion provided at a lower end portion of the funnel, an auger screw arranged vertically, and a support device that supports the auger screw rotatably. The auger screw has a lower end provided with a screw portion that is arranged within the metering portion. The funnel is suspended from the support device and supported thereto and the metering portion has a center axis made substantially coincident with an axis of rotation of the auger screw.

Abstract: A method of thermally insulating the annular space in an element of an assembly of two coaxial pipes, the space being filled with a porous thermally insulating material, under low absolute gas pressure in which method the following steps are performed: a) the pipe element is inclined, preferably at an angle ? of 5° to 30°, the annular space being closed at each end by respective closure pieces; and b) substantially all of the annular space is filled with the insulating material in the form of particles in bulk; and c) preferably said particles of insulating material are shaken, at least intermittently, as the annular space is filled in order to compact the insulating material, the annular space being maintained under high vacuum during filling.

Abstract: A multi-sectional airtight seal for continuous air-filling includes: an input passage; plural first sub-tubes aligned parallel to a lateral side of the input passage; plural first valve devices including a first filling passage and a second filling passage with the first filling passage connecting the first sub-tubes and the input passage; plural second sub-tubes serially connecting the first sub-tubes; and plural second valve devices for connecting the second sub-tubes and the second filling passages to allow through-linking between the second sub-tubes and the input passage. When external air in the input passage enters through the first filling passage of the first valve device to fill and expand the first sub-tubes, the second sub-tube is filled through the second filling passage and the second valve device to be expanded as well.

Abstract: To be able to simply carry out an operation of repairing a punctured pneumatic tire, to be able to inject a necessary amount of a sealing agent firmly into the pneumatic tire even when the apparatus is used in an inclined state and to prevent clogging of the sealing agent and leakage of a liquid by being pressurized. A pump up apparatus 30 is an apparatus for injecting a sealing agent in a liquid state into a punctured pneumatic tire 38, thereafter, supplying compressed air into the pneumatic tire 38 to elevate an inner pressure thereof. The pump up apparatus 30 includes a sealing agent vessel 34 accommodating the sealing agent, a sealing agent injecting pump 42 for sucking the sealing agent from the sealing agent vessel 34 to feed it to the pneumatic tire 38, and a compressor 44 for pressurizing and sending air to the pneumatic tire 38.

Abstract: A device for filling at least one mold with at least one powder. The device includes a mechanism to add at least one powder, at least one mechanism to eject the powder added into the device, in the form of a layer, and at least one deflector capable of locally intercepting at least part of the powder ejected in the form of a layer and redirecting the locally intercepted powder towards a determined location in the mold.

Abstract: Powder dispensing and sensing apparatus and methods are provided. The powder dispensing and sensing apparatus includes a tray support structure to receive a cartridge tray holding cartridges, a powder dispenser assembly including powder dispenser modules to dispense powder into respective cartridges of a batch of cartridges in the cartridge tray, a powder transport system to deliver powder to the powder dispenser modules, a sensor module including sensor cells to sense respective fill states, such as the weights, of each of the cartridges in the batch of cartridges, and a control system to control the powder dispenser modules in response to the respective sensed fill states of each of the cartridges of the batch of cartridges.

Abstract: Methods of transferring powder toner and filling a toner container or a development mechanism of an electronographic image forming apparatus with powder toner include the steps of providing a toner fluidization mechanism on a surface of deposit of the powder toner stored in a toner storage container, burying the toner fluidization mechanism into the deposit, supplying gas to the powder toner, and removing fluidized toner to transfer to a different location. An apparatus for filling with powder toner includes a toner container, and an apparatus for transferring powder toner including a toner storage container, a toner fluidization mechanism buried into the powder toner, an air supply mechanism for supplying air to the toner fluidization mechanism, an air suction mechanism for removing fluidized powder toner, a transfer mechanism for transferring the removed powder toner to a different location, and a vibration application mechanism for applying vibration to the toner fluidization mechanism.

Abstract: A powder filling apparatus and a powder filling method which enable powder to be densely filled in a short period of time is to be provided. This is a powder filling apparatus having a pressure hopper wherein the pressure hopper has a discharger for discharging powder and a gas inlet positioned above at least the surface of a powder layer formed by the powder in the pressure hopper; the powder layer is so formed as to blockade the discharger in the pressure hopper; in the powder filling apparatus, the inside of the pressure hopper is pressurized by leading in gas through the gas inlet in a state in which the discharger is closed, and the powder layer so formed as to blockade the discharger is discharged by opening the discharger after the pressurization thereby to utilize that pressure to load the powder into the filling container.

Abstract: An inflatable pneumatic bag is disclosed. An inflatable pneumatic bag includes a pneumatic hole disposed at one end of a pneumatic channel. Air, which is applied to the pneumatic hole, moves along the pneumatic channel, then through air ingress holes covered with inner layers which are removed by the expansion of the outer layers to fill all the air tubes. When the air tube is filled with air, one or more inner layers cover and then close the air ingress hole to overcome reverse air flow. Then, a curve-shaped air passage in the air tube narrows to further prevent air escape. With the inner layer, effectively overcoming reverse air flow, and the air passage, further preventing air escape, the inflatable pneumatic bag filled with air may last for a substantial long period of time.

Abstract: A machine and process function to fill cavities with metered amounts of particulate material. An applicator wheel includes a series of equally spaced apart peripheral pockets each having a perforated bottom wall, and a vacuum manifold inside the wheel includes a vacuum chamber for supplying vacuum to the perforated bottom walls of the pockets as the wheel rotates. Particulate material from a filling chamber of such material outside the wheel is withdrawn into the pockets by the vacuum chamber. A downstream vacuum relief on the vacuum manifold functions to discharge particulate material from the pockets into the cavities at a predetermined discharge location on the wheel. Adjustment structure is connected to rotatably adjust the position of the vacuum manifold within the applicator wheel to thereby advance or retard the discharge location depending upon the speed of the machine.

Abstract: A nozzle for delivering texturized fibrous material into a chamber of a muffler has a body including a texturized fibrous material passageway and a separate directional jet passageway. A method of filling a chamber of a muffler with texturized fibrous material includes the steps of extending a wand into the muffler so that a nozzle on the wand is received in the chamber, discharging a stream of texturized fibrous material into the chamber from a first passageway of the nozzle and discharging a directional jet into the stream of texturized fibrous material from a second passageway of a nozzle whereby the stream of texturized fibrous material is redirected into a desired filling direction to more efficiently fill the chamber.

Abstract: A powder filling apparatus and a powder filling method which enable powder to be densely filled in a short period of time is to be provided. This is a powder filling apparatus having a pressure hopper wherein the pressure hopper has a discharger for discharging powder and a gas inlet positioned above at least the surface of a powder layer formed by the powder in the pressure hopper; the powder layer is so formed as to blockade the discharger in the pressure hopper; in the powder filling apparatus, the inside of the pressure hopper is pressurized by leading in gas through the gas inlet in a state in which the discharger is closed, and the powder layer so formed as to blockade the discharger is discharged by opening the discharger after the pressurization thereby to utilize that pressure to load the powder into the filling container.

Abstract: Containers, particularly to containers for storing dry granules and powders, for examples silos. A container can include an air filter for cleaning the air that pneumatically conveys bulk product into the container. A valve can be used to restrict the air flow through the air filter, thereby elevating the pressure within the container to above atmospheric pressure.

Abstract: A fluid transfer system includes a fluid container to receive a liquid and an apparatus for pressurizing liquid in the container including a deformable envelope defining a space for receiving a gas. Deformation of the envelope contracts the space to a contracted condition such that, when the space includes the gas, deformation of the envelope contracts the space to effect a transfer of a portion of the gas to the container to effect pressurization of the liquid in the container. A dispensing nozzle includes a fluid passage having a nozzle inlet and outlet, and an orifice defined by a valve seat. The nozzle inlet is in fluid communication with the container for effecting a discharge of the liquid from the container. A sealing member is biased into sealing engagement with the valve seat for sealing fluid communication between the nozzle inlet and the nozzle outlet.

Abstract: The invention relates to a dispensing system and method for on-demand dispensing of spoonable or drinkable food products in a container. Single servings or larger portions of these products can be dispensed. The system and method achieve dispensing of the product with a visual differentiation of the components in the container. The container may be translucent or transparent so that the consumer can view the visually differentiated product therein. The products form yet another embodiment of the invention.

Abstract: A method of conditioning a compacted polymeric powder to a flowable and meterable state. The polymeric powder is compacted during transport such that the flowability is hindered. To increase flowability, gas is introduced into the polymeric powder to condition the same to an improved flowable and meterable state.

Abstract: A new and improved method and apparatus for removing waste cooking oil is herein disclosed. A method for removing waste cooking oil from an associated cooking oil reservoir includes providing a pumping mechanism, wherein the pumping mechanism has tubing operatively connected to the pumping mechanism and a suction apparatus operatively connected to the tubing, providing a waste oil storage unit, turning on a pump, inserting the suction apparatus into the associated reservoir, the suction apparatus being located remotely from the waste oil storage unit, and depressing a trigger to activate the suction apparatus to remove the waste cooking oil from the associated reservoir.

Abstract: A compressed gas storage tank that has particular application for storing hydrogen for a fuel cell system. The compressed gas tank includes a cylindrical adapter and valve through which the hydrogen is removed from the tank. A low cost generator is positioned in the tank and has a rotating element positioned in a channel extending through the adapter. As hydrogen is removed from the tank, the mass flow of the hydrogen causes the rotating element to rotate which causes the generator to generate electricity. One or more resistive heating element are positioned in the adapter, preferably proximate to tank seals, that receive an electrical current from the generator that heats the resistive heating element and the adapter to increase the temperature of the adapter and the hydrogen being removed from the tank.

Abstract: The invention provides methods, systems and apparatus for the metered transport of fine powders into receptacles. According to one exemplary embodiment, an apparatus is provided which comprises a hopper having an opening. The hopper is adapted to receive a bed of fine powder. At least one chamber, which is moveable to allow the chamber to be placed in close proximity to the opening, is also provided. An element having a proximal end and a distal end is positioned within the hopper such that the distal end is near the opening. A vibrator motor is provided to vibrate the element when within the fine powder.