Abstract: The present invention relates to a method for investigating the behavior of particles or droplets in a gas-vapor mixture inside a flow device, which is useful for studying cloud dynamical and microphysical processes. The invention allows adjustment and/or control of the thermodynamic system parameters based on the observed behavior of an internal standard with known properties, thus achieving a well-defined vapor concentration and saturation field inside the flow device. By injecting particles or droplets to be investigated into this well defined flow device, and measuring the size of the particles or droplets, the activation and growth or shrinking behavior of the particles or droplets may be determined using a mathematical model of the fluid, thermodynamic, and chemical conditions of the flow device.

Abstract: An arrangement for measuring the true position of a diaphragm within a diaphragm valve assembly utilizes a thin conductive element disposed in the valve between the diaphragm membrane and the actuator. The conductive element and the valve body are then used as the plates of a parallel plate capacitor, where the measured capacitance will vary as a function of the position of the diaphragm mambrane, having a first value when the diaphragm is in the “open” position and a second value when the diaphragm is in the “closed” position. Position values between the “open” and “closed” positions can also be determined, as well as the presence of different fluids within the valve body when the valve is in the “open” position.

Abstract: To economically perform preparatory chromatography, a plurality of pumps each having a corresponding one of a plurality of pistons and a corresponding one of a plurality of cylinders are driven by one motor to draw and pump solvent simultaneously into corresponding columns. To form a gradient, the pumps are connected to two-way valves that are connected alternately to a first solvent and a second solvent, whereby the time said valve is in a first position controls the amount of solvent drawn from the first reservoir into said pumps and the amount of time in said second position controls the amount of said second solvent drawn from the second reservoir into said pumps and the solvent is mixed in the pumping systems. The detectors are photodiodes mounted to light guides in the flow cells that generate signals related to light absorbance and communicate with a controller, whereby the controller receives signals indicating solute between the light guides and causes collection of solute.

Abstract: A liquid measurement system including interface apparatus for sharing the excitation and signal processing of an ultrasonic transonic transducer and temperature measuring device remotely located at a liquid container is disclosed. The interface apparatus includes a common conduction path coupled to both of the ultrasonic transducer and the temperature device for conducting first excitation signals to the ultrasonic transducer and the corresponding echo signals therefrom, and for conducting second excitation signals to the temperature measuring device and the response signals therefrom, and an interface circuit for governing the conduction of the first and second excitation signals over the common conduction path from their generating sources and for providing a balanced interface for receiving both of the echo signals and response signals from the common conduction path.

Abstract: Systems and methods for ultrasound sensing a compound's concentration in aqueous solution are provided. As a result of the ultrasound sensing, an accurate real time measurement of the concentration of the compound of interest in aqueous solution is obtained. In various non-limiting embodiments, the invention provides ultrasound sensing of methanol's concentration in aqueous solution in connection with a fuel circulation process for a direct methanol fuel cell. Since the speed of sound in a water-methanol system increases significantly with methanol content, techniques for measuring characteristic sound velocities are used to give sufficient resolution for a fuel circulation process.

Abstract: The invention relates to a film leak detector with two films (5, 6) each stretched in a frame (3, 4); in order to attain a simple and stable structuring, it is proposed that each of the frames (3, 4) is comprised of two synthetic material subframes between which the particular film (5, 6) is fastened.

Abstract: An apparatus for determining the condition of engine lubricating oil includes a sensor having a plurality of spaced apart electrode pairs on a nonconductive polymer film. The sensor is operatively associated with an oil filter, which provides retro-fit capability and easy access for servicing and replacement. The multi-electrode pair design averages signal output to reduce operational electromagnetic interference noise. A forcing-function waveform reactive circuit is applied to the sensor input electrode as a common voltage potential. The output current from the sensor electrodes is then relayed to a current follower amplifier, which converts the output current into an equivalent voltage for comparison with predetermined values. Based on the voltage values, the on-board sensing system will determine the oil's condition, and will trigger a trouble code if the equivalent voltage falls within a predetermined range.

Abstract: A pressure plate extractor for testing of soils and other porous solids has a pressure chamber defined by pressure chamber sidewalls resting above a pressure chamber base. A drain plate is situated on the pressure chamber base with its bounding edge surrounded by a seal and situated inwardly from the pressure chamber sidewalls, which rest atop the seal. When the pressure chamber sidewalls are urged towards the pressure chamber base, thereby compressing the seal and preventing air from passing between the pressure chamber sidewalls and pressure chamber base, the seal laterally expands to firmly engage the bounding edge of the drain plate, thereby preventing air from passing between the pressure chamber sidewalls and the drain plate. A substantially leak-free pressure chamber results, with low probability of drain plate failure because the pressure chamber sidewalls do not bear directly upon it.

Abstract: The present invention provides an apparatus for use in measuring permeability of a material. The apparatus 1 comprises a non-contact probe 6 comprising an inner pipe 8 and an outer pipe 10 which are arranged coaxially; a gas inlet for admitting a flow of gas into a first space 9 defined between the inner and outer pipes; and pressure difference measuring systems DP for measuring a pressure difference &Dgr;P between said first space (P1) and a second space (P2) comprising the interior of the inner pipe 8. The probe 6 is mounted on a moveable head assembly 11 and the apparatus 1 further includes a position control system 12, 22 for controlling the movement of the head assembly 11 so as to cause the probe 6 to scan across a surface 2 of the material to be analysed, while maintaining the probe 6 at a constant distance Z from said surface 2, and for collecting pressure difference &Dgr;P measurements, using said pressure difference measuring device DP during scanning movement of the probe 6.

Abstract: A remote two-module electronic fluid monitoring system to be used as an agricultural aid in the application of a fluid to a field. A tank module sits atop a field tank and monitors internal fluid level. Fluid level detection is achieved by tracking the position of an embedded permanent magnet associated with a given internal fluid level within an existing float gauge mechanism. An integrated circuit capable of precisely detecting the orientation of magnetic fields senses the angular position of an existing magnet and outputs an angular field reading to an interfaced microcontroller which then translates angular reading to fluid level. The tank module contains a radio frequency transmitter which then sends fluid level information to a display module mounted within the tractor cab. The display module receives the signal from the tank module and reports to the user the present fluid level remaining in tank via a liquid crystal display.

Abstract: An apparatus for calibrating a particulate matter continuous emission monitoring system includes: a feed unit that supplies particulate matter of a known mass flow rate; an eductor unit connected with the feed unit that receives particulate matter therefrom; a fluidizing unit connected to the eductor that supplies gas to the eductor unit, wherein the particulate matter and gas are combined into a fluidized mixture; and a probe connected to the eductor configured to extend within an industrial stack and deliver the fluidized mixture therein. Such an apparatus can provide accurate data regarding particulate matter concentration that can be compared with readings on the PM CEMS and enable a calibration curve to be generated. A tracer gas injection unit and analyzer may also be included.

Abstract: A multi-tube differential pressure testing system for testing catalyst filled tubes of tube and shell type catalytic reactors having an upper tube sheet and multiple catalyst tubes having upper ends thereof fixed to the upper tube sheet. The system has at least one mobile support device for selective positioning on the upper tube sheet of a catalytic reactor. A plurality of testing tubes are mounted to the mobile support device and are selectively positionable in sealed gas pressure communicating engagement with the upper ends of a plurality of reactor tubes. A pressure testing gas delivery system is interconnected with the testing tubes and is adapted for communicating pressurized gas at a selected test pressure to the testing tubes and into the reactor tubes being engaged thereby.

Abstract: A viscometer for measuring liquid viscosities based upon rotational deflections of a suspended bob. The viscometer comprises a deflection indicator, a deflection reader located at a spaced relative position with respect to the indicator, a rotating element which rotates in unison with the bob and includes either the deflection indicator or the deflection reader, and a magnetic bearing assembly which prevents any substantial change in the spaced, relative position of the deflection reader with respect to the deflection indicator.

Abstract: A gas sensor for detection of oxidizing and reducing gases, including O2, CO2, CO, and H2, monitors the partial pressure of a gas to be detected by measuring the temperature rise of an oxide-thin-film-coated metallic line in response to an applied electrical current. For a fixed input power, the temperature rise of the metallic line is inversely proportional to the thermal conductivity of the oxide coating. The oxide coating contains multi-valent cation species that change their valence, and hence the oxygen stoichiometry of the coating, in response to changes in the partial pressure of the detected gas. Since the thermal conductivity of the coating is dependent on its oxygen stoichiometry, the temperature rise of the metallic line depends on the partial pressure of the detected gas. Nanocrystalline (<100 nm grain size) oxide coatings yield faster sensor response times than conventional larger-grained coatings due to faster oxygen diffusion along grain boundaries rather than through grain interiors.

Abstract: An automatic data logging kit is used with a hydraulic integrity test kit for testing a liquid cooled stator bar system. The automatic data logging kit includes a spool piece having end connectors attachable between the liquid cooled stator bar system and the hydraulic integrity test kit as well as a plurality of sensor receptacles. At least one temperature sensor insertable within an interior of the liquid cooled stator bar system is coupled with an output connector operatively securable in the first of the sensor receptacles in the spool piece. At least one pressure sensor is also operatively securable in one of the spool piece sensor receptacles. A control unit receives output from the sensors and calculates a leak rate based on the received sensor output. The automatic data logging kit provides automatic data logging capabilities for pressure-decay and vacuum-decay cycle tests, increased accuracy of the pressure-decay and vacuum-decay data and reduced cycle time in determining the leak rates.

Abstract: The invention relates to a connection piece (20), comprising an upper connection piece part (21) and a connection piece wall (22) disposed below said upper connection piece part (21) and having a connection piece wall height (h). In said upper connection piece part (21), a level metering device (10) working on the guided microwave principle and comprising a single electric line (40) can be mounted. Connection piece (20) further comprises at least one electrical conductor (30a, 30b, 30c, 30d, 30e, 30f) spaced apart at a distance (a, a′) from the single electric line (40) of the level metering device (10) to be mounted on the upper connection piece part (21) and extending from the upper connection piece part (21) up to at least the 0.25-fold, and maximally up to the 2.5-fold of the connection piece wall height (h).

Abstract: A continuous flow moisture analyzer (20) determines moisture content in a liquid sample material (46). The moisture analyzer (20) includes an injection system (44) for delivering the liquid sample material (46) at a controlled rate. The injection system includes an injector tube (48). An evaporator (52) has a first end (50) for receiving the injector tube (48) and a second end (56). The injector tube (148) provides the liquid sample material (46) to the evaporator (52) at the first end (50). A carrier gas inlet (54) is in fluid communication with the second end (56) of the evaporator (52) for providing a carrier gas (58) to the evaporator (52) at the second end (56). The carrier gas (58) absorbs moisture from the liquid sample material (46) in the evaporator (52). A relative humidity sensor (78) in fluid communication with the evaporator (52) detects the moisture in the carrier gas (58).

Abstract: A liquid-quantity monitoring apparatus includes: a piezoelectric device having a vibrating part capable of being exposed at least partly to a liquid-containing space, the piezoelectric device being capable of vibrating the vibrating part by a given drive signal and of generating a signal representing back electromotive force generated by vibration of the vibrating part; and a liquid-quantity determining unit for determining a quantity of liquid remaining in the liquid-containing space, to which the vibrating part is exposed, based on a resonance frequency of a residual vibration signal output from the piezoelectric device due to a residual vibration of the vibrating part after the vibrating part has been vibrated by the drive signal.

Abstract: A test plug and method for isolating and testing a connection, such as a welded connection, which interconnects a wall of tank, vessel, or pipe to a branch pipe or nozzle. The test plug isolates the connection from the remainder of the tank, vessel or piping system and enables pressure/leak testing of the connection without requiring pressurization of the entire tank or vessel or a large section of the piping system. Further, the test plug can be utilized during welding operations to isolate harmful materials, vapors or fumes existing within tanks, vessels or piping systems from the weld location and to permit the flow of an inert gas to safely flush any potentially harmful vapors or the like away from the welding area.

Abstract: A system and method of measuring a level of settled particles in a fluid-containing vessel includes the steps of fluidizing particles from a position below the settled level of particles, and measuring a static pressure of liquid within the vessel at a position in the vessel below the settled level of particles. The fluidized static pressure is correlated to a level of settled particles within the vessel using an experimentally determined relationship. The apparatus includes an inlet pipe into the vessel at a position below the settled level of particles, and a pump which recirculates liquid from the vessel above the submerged level of particles, remote from the settled level of particles, and a static pressure instrument connected to the inlet pipe. A solids pump can be activated to remove settled particles from the vessel, the operation of the pump being controlled by the measured level of settled particles.