Abstract: A system is shown for injecting a chemical, such as an odorant, from a chemical supply into a fluid containing system such as a natural gas pipeline or an LPG pipeline. A tank of odorant is maintained at a pressure above ambient, but below the pressure of the pipeline. An injection conduit communicates the odorant tank with the pipeline. A hydraulic pressure booster is located in the injection conduit for pressurizing the chemical to a pressure above that of the pipeline, the hydraulic booster having a first side which communicates with the chemical in the injection conduit and another, isolated side which is exposed to hydraulic pressure but which is isolated from the chemical being injected. A flow control valve may be located within the injection conduit for metering chemical to be injected into the pipeline.

Abstract: A method and related system blend fuels and dispense a blended fuel to a vehicle at a fueling station. In one aspect, the method comprises selecting the desired proportion of at least one of the fuels available at the service station, blending that fuel with another one available, and delivering the blended fuel to the vehicle. Preferably, the first fuel is a non-renewable, petroleum based one, while the second fuel is a non-petroleum based, renewable one (such as ethanol or biodiesel).

Abstract: A method of controlling the concentration of a sample flowing through a microchannel is provided. The method includes flowing a sample carrier fluid from a sample carrier channel and into an upstream portion of a microchannel such that the sample carrier fluid flows from the upstream portion and toward a downstream portion of the microchannel, and flowing a sheathing fluid from a sheathing fluid channel and into the upstream portion of the microchannel such that the sheathing fluid flows from the upstream portion and toward the downstream portion of the microchannel, and generally parallel to the sample carrier fluid. The method further includes detecting a concentration of a sample in the sample carrier fluid in the downstream portion of the microchannel, and adjusting a flow rate of at least one of the sample carrier fluid and the sheathing fluid based upon the detected concentration of the sample.

Abstract: Disclosed herein is a method of controlling the water level of a pressure tank of a piping system. The piping system includes a pressure tank, level sensors, a gas supply device, a supply valve and an exhaust valve. The method includes: measuring the water level; calculating absolute values of difference values between water level measurement values measured by the level sensors, thus obtaining measurement deviation values; comparing the measurement deviation values with a preset deviation value; determining whether an abnormality has occurred in each level sensor; outputting the mean of the measurements of the level sensors, while excluding the measurement of an abnormal level sensor(s), as a reference water-level-control value; and comparing the reference water-level-control value with a preset reference water level value, and determining whether to raise or lower the water level, and supplying gas into the pressure tank or exhausting gas therefrom.

Abstract: A fluid regulator device having means for injecting one or more make-up fluids into a duct conveying the fluid to be regulated. Make-up fluids are injected selectively along at least two orientations. The means for selecting the orientation of injection are situated outside the main duct. A method of regulating a fluid, the method comprising a step of injecting one or more make-up fluids into a duct that conveys a flow of the fluid that is to be regulated.

Abstract: A fluid treatment device and method is proposed for the treatment of a fluid that has components to be separated, such as tailings. The fluid treatment device in one embodiment comprises a motive pump connected to drive fluid to be treated along a conduit through a restriction forming a nozzle into a mixing chamber and thence to a discharge. A port, which may be controlled by a valve, admits gas into an initial portion of the mixing chamber. The motive pump, nozzle, gas port and mixing chamber together form a phase separator. Multiple phase separators may be connected together in series. The mixing chamber may have constant diameter and a length to diameter ratio of 20:1 or 60:1 or more. The conduit terminates in a discharge. The discharge may supply the treated fluid to a secondary separation device such as a flotation cell. Solids and liquids may be taken off the flotation cell for disposal, further processing or delivery into a sales line.

Abstract: A lab member for use in a laboratory liquid handling system including a pipetting module and a drive system, the pipetting module including first and second pipettors, the first and second pipettors including first and second pipettor shafts, respectively, a first pipetting tip extending from an end of the first pipettor shaft, and a second pipetting tip extending from an end of the second pipettor shaft, includes a lab object and first and second integral adapter structures. The first and second adapter structures are configured to engage the first and second pipettor shafts, respectively. The first adapter structure is configured to releasably secure the lab member to the first pipettor shaft.

Abstract: A throttleable exhaust venturi is described herein that generates strong suction pressures at an exhaust outlet by accelerating an incoming ambient fluid stream with the aid of a venturi to high gas velocities and injecting a combustion exhaust stream into the ambient fluid stream at an effective venturi throat. A mixing element downstream of the venturi throat ensures that the mixed fluid stream recovers from a negative static pressure up to local atmospheric pressure. A physical and the effective throat of the venturi are designed to promote mixing and stabilize the ambient fluid flow to ensure that high velocity is achieved and the effective venturi is operable over a variety of combustion exhaust stream mass flow rates.

Abstract: Methods and apparatus for gas delivery are disclosed herein. In some embodiments, a gas delivery system includes an ampoule for storing a precursor in solid or liquid form, a first conduit coupled to the ampoule and having a first end coupled to a first gas source to draw a vapor of the precursor from the ampoule into the first conduit, a second conduit coupled to the first conduit at a first junction located downstream of the ampoule and having a first end coupled to a second gas source and a second end coupled to a process chamber, and a heat source configured to heat the ampoule and at least a first portion of the first conduit from the ampoule to the second conduit and to heat only a second portion of the second conduit, wherein the second portion of the second conduit includes the first junction.

Abstract: An indexable cartridge and method that is useable in either a stagnant fluid environment or in a moving fluid environment with the indexable cartridge floatable in a stagnant fluid environment and securable in a moving fluid environment with the indexable cartridge having a housing having one or more diffusion ports and a sleeve having one or more diffusion ports indexable to a diffusion port alignment through resilient yielding of the sleeve while a set of ribs inhibit lateral flow therebetween.

Abstract: In one exemplary embodiment of the present invention, a fuel stabilizer system is provided. The fuel stabilizer system includes a fuel additive storage unit that stores fuel stability fluid. A fuel stability fluid supply system supplies fuel stability fluid from the fuel additive storage unit to a fuel storage unit. A control module estimates an age of fuel in the fuel storage unit and selectively controls the fuel stability fluid supply system to supply fuel stability fluid to the fuel storage unit based on the age of the fuel.

Abstract: A system for feeding a slurry catalyst composition including: a primary slurry feed system comprising a primary slurry flow meter and a primary catalyst injection device, wherein the primary slurry flow meter measures a primary slurry catalyst composition flow rate to the primary catalyst injection device; and a secondary slurry feed system comprising a secondary slurry flow meter, a secondary carrier liquid, a secondary carrier liquid control device, and a secondary catalyst injection device, wherein the secondary slurry flow meter measures a secondary slurry catalyst composition flow rate to the secondary catalyst injection device, wherein the secondary carrier liquid control device controls a process parameter of the secondary slurry feed system based a ratio of the primary slurry catalyst composition flow rate to the secondary slurry catalyst composition flow rate.

Abstract: The invention relates to a sparger for introducing a gas or gas mixture into a liquid and to a method for sparging liquids. The sparger according to the invention comprises a cavity, a gas inlet for routing a gas into the cavity and two or more faces, which are or can be pressed onto one another in a positive fashion such that a gas pressed into the cavity through the gas inlet escapes through the gaps occurring between the pressed together faces.

Abstract: The invention relates to a microfabricated device for the rapid detection of DNA, proteins or other molecules associated with a particular disease. The devices and methods of the invention can be used for the simultaneous diagnosis of multiple diseases by detecting molecules (e.g. amounts of molecules), such as polynucleotides (e.g., DNA) or proteins (e.g., antibodies), by measuring the signal of a detectable reporter associated with hybridized polynucleotides or antigen/antibody complex. In the microfabricated device according to the invention, detection of the presence of molecules (i.e. Polynucleotides, proteins, or antigen/antibody complexes) are correlated to a hybridization signal from an optically-detectable (e.g. fluorescent) reporter associated with the bound molecules. These hybridization signals can be detected by any suitable means, for example optical, and can be stored for example in a computer as a representation of the presence of a particular gene.

Abstract: A monitoring apparatus for monitoring the relative flow rates of first and second gases that are to be mixed comprises a first flow-monitoring, laminar flow element in a first gas flow path for detecting a differential first gas pressure thereacross and a second flow-monitoring, laminar flow element in a second gas flow path for detecting a differential second gas pressure thereacross. A comparator device compares the differential pressures and is operable to generate a response in dependence on said comparison.

Abstract: The present invention relates to an apparatus and method for maintaining a fluid mixing ratio. The apparatus according to various embodiments prevents a fluid flow imbalance between two proportionate fluid streams based on a pressure difference, and may be configured to alert the user and/or stop the fluid flow in the event of a fluid flow imbalance. The apparatus is formed such that two plunger components engage a shuttle piston, the shuttle piston configured to move one or more plunger components given a selectable fluid flow imbalance.

Abstract: A method for registering a content change in a fuel system of a motor vehicle, where the fuel system is configured to receive a first fuel and a second fuel into a common space. A first condition is correlated to receiving the first fuel, and a second condition is correlated to receiving the second fuel. The method comprises admitting fuel to the fuel system and indicating that the first fuel has been admitted if a condition responsive to admitting the fuel matches the first condition and does not match the second condition.

Abstract: An apparatus and method for introducing gas into a liquid is disclosed. The apparatus comprises: a conduit (20); a fluid directing formation (10) arranged within said conduit and defining a plurality of discrete channels within said conduit, said channels being isolated from each other in a direction perpendicular to a direction of fluid flow through said channels, each channel providing a flow accelerating constriction to said fluid flow such that fluid flowing in each of said channels is caused to accelerate as it flows through said flow accelerating constrictions; wherein at least some of said channels comprise orifices within said flow accelerating constrictions, said orifices being in fluid communication with a gas source, such that said gas is drawn through said orifices to be entrained in said fluid flow by virtue of a reduced pressure in said channels caused by said fluid flow.

Abstract: Apparatus and methods for providing fluid such as water at a controlled temperature. In some embodiments, hot and cold fluid is provided to a thermostatically controlled mixing valve, which then provides fluid at a mixed temperature to a plumbing system. The thermostat provides a first loop for closed-loop control of fluid exit temperature, and preferably there is a second, electronically controlled closed loop for adjusting the temperature of fluid exiting the valve. In yet other embodiments the electronic control loop is fail-fixed, such that a loss of electrical communication to the actuator results in the actuator maintaining its last position. In yet other embodiments there is a system including a flow sensor and a recirculation pump such that the temperature of the fluid exiting the valve cannot be adjusted if there is insufficient flow, or if the pump is actuated.

Abstract: A process and system are provided for preparing seed mixes having a target quantity and a target ratio of different types of seeds. The process generally includes portioning quantities of different types of seeds from bulk supplies of the seeds, and combining the portioned quantities of seeds to prepare the seed mixes. The system generally includes first and second dispensing assemblies for portioning the quantities of the different types of seeds from the bulk supplies, and a mixing assembly for receiving the portioned quantities of seeds as the seed mixes. The combined quantities of the different types of seeds in the seed mixes are substantially equal to the target quantity, and a ratio of the quantities of the different types of seeds is substantially equal to the target ratio.

Abstract: The goal of the invention consists in making available a method for supplying fuel to a pressurized gasification system, which ensures, in economically efficient manner, that the emission of pollutants from the coal transfer and the transport is minimized or completely avoided. This is achieved in that a gas that contains at least 10 ppm vol. CO is used for transfer and/or conveying, whereby a gas that contains oxygen is mixed into this gas, and that this gas mixture is heated to a temperature that oxidizes at least 10% of the pollutants contained in the gas.

Abstract: Disclosed is a multifunctional microfluidic flow control device. The device includes at least one microfluid injection part, a microfluid channel part and a microfluid discharge part. The microfluid injection part has first and second microfluid injection pathways. The microfluid channel part is connected to the microfluid injection part and has a concavo-convex pattern to control a flow of at least one kind of microfluid injected into the microfluid injection part. The microfluid discharge part is connected to the microfluid channel part so that the microfluid, the flow of which has been controlled, is discharged through the microfluid discharge part.

Abstract: Apparatus and methods are disclosed for mixing and self-cleaning elements in microfluidic systems based on electrothermally induced fluid flow. The apparatus and methods provide for the control of fluid flow in and between components in a microfluidic system to cause the removal of unwanted liquids and particulates or mixing of liquids. The geometry and position of electrodes is adjusted to generate a temperature gradient in the liquid, thereby causing a non-uniform distribution of dielectric properties within the liquid. The dielectric non-uniformity produces a body force and flow in the solution, which is controlled by element and electrode geometries, electrode placement, and the frequency and waveform of the applied voltage.

Abstract: A respiratory metabolic simulator includes a cell that produces CO2 and depletes O2, e.g., a direct methanol fuel cell having an external electrical circuit. An electric load is applied to the external electrical circuit of the direct methanol fuel cell to vary the electrical load applied to the external electrical circuit of the direct methanol fuel cell to produce carbon dioxide. The carbon dioxide generated by the direct methanol fuel cell is supplied to respiration gases produced by the respiratory metabolic simulator. The direct methanol fuel cell is also used to remove oxygen from the respiration gases prior to mixing the respiration gases and the carbon dioxide.

Abstract: A water heater and thermal mixing valve assembly and method for providing a reduced discharge water temperature and a hot water temperature from the same tank. The assembly includes a tank adapted to accept and store an amount of cold water, a heater to heat the cold water held in the tank and increase the cold water temperature to a predetermined hot water temperature, at least one thermal mixing valve integrated with the tank in communication with a hot water passage and a cold water bypass conduit to provide a discharge water of a controlled temperature, the cold water bypass conduit being mounted to the cold water passage allowing the associated cold water to communicate with the tank and the thermal mixing valve.

Abstract: This lubricating device 1 is equipped with an oil pan 2 that stores therein lubricating oil, a micro bubble generator 4 that mixes the lubricating oil with air to produce micro bubbles and supplies the lubricating oil in the oil pan 2 with the micro bubbles, and an oil pump 3 that pressurizes the lubricating oil in the oil pan 2 to supply the micro bubble generator 4 therewith. Further, in this lubricating device 1, the micro bubble generator 4 has an air inlet portion 431 disposed inside the oil pan 2 at a predetermined position with respect to an oil surface height (oil level) of the lubricating oil in the oil pan 2.

Abstract: A displacement control valve for an air conditioner modulating a fluid flow or fluid pressure within a control chamber by controlling the opening degree of a valve portion.

Abstract: An ablutionary installation including a mixing valve having respective inlets for hot and cold water and an outlet for temperature controlled water, a temperature sensor for monitoring outlet water temperature and providing a signal representative of the outlet water temperature to an electronic controller, a user interface permitting selection of outlet water temperature up to a pre-determined temperature, the electronic controller being operable to compare the selected and sensed outlet water temperatures for controlling the mixing valve to adjust the ratio of hot and cold water delivered to the outlet according to the selected outlet water temperature, and apparatus for initiating a disinfection cycle to deliver water to the outlet at a temperature higher than the pre-determined temperature, wherein the initiating apparatus includes an operating sequence with at least two inputs.

Abstract: Provided is an automatic analysis apparatus which can obtain stable analysis results by stabilizing a constant-temperature bath and the temperature of a reaction liquid inside reaction containers. For this purpose, the automatic analysis apparatus (1) comprises: a storage tank (10) for storing a temperature controlling liquid (L1) dispensed into reaction containers (5) using dispensing apparatuses (6) and (7); and a dispensation control section for performing a control for dispensing the temperature controlling liquid (L1) using the dispensing apparatuses into an empty reaction container when there is such an empty reaction container, in which neither a specimen nor a reagent is dispensed, on a reaction table (4), where the temperature controlling liquid is cooled down substantially equal to the dispensed reagent by laying a pipe, which is provided between a cooler and a reagent table (2) for passing the coolant, through the temperature controlling liquid in the storage tank.

Abstract: A brine discharge assembly includes a discharge pipe having a body that defines an interior passage, a pipe inlet, and a pipe outlet spaced from the pipe inlet. The pipe inlet and pipe outlet are able to be in fluid communication with the interior passage, and the pipe is connectable to a source of brine and configured to convey the brine from the pipe inlet to the pipe outlet. The brine discharge assembly also includes a dilution assembly able to be connected to a source of liquid diluent. The dilution assembly includes one or more injectors and one or more ports, and is coupled to the pipe so that the one or more ports are able to be in fluid communication with the interior passage of the pipe intermediate the pipe inlet and pipe outlet.

Abstract: Disclosed are methods and systems for forming multi-component refrigerant compositions comprising: (a) introducing a first refrigerant component into a vessel at a first flow rate; (b) introducing at least a second refrigerant component into said vessel at a second flow rate, which may be the same as or different than the first flow rate, during at least a portion of said first refrigerant introducing step; and (c) controlling at least one of said first and second flow rates to obtain the desired relative proportions of said first and second refrigerants in the refrigerant composition.

Abstract: A dilution control device and method of operating the same. The dilution control device can include a structure for dispensing concentrate and diluent fluid in a desired dilution ratio utilizing volumetric dosing. In some embodiments, diluent fluid drives a wheel or compresses a pliable concentrate bag in order to dispense concentrate in the desired ratio with the diluent fluid. In some embodiments, one or more floats can be used to drive a pump or actuate a valve to dispense concentrate at a particular rate proportional with the flow rate of the diluent fluid. In some embodiments, a rocker is responsive to the flow of diluent fluid to pump concentrate. In some embodiments, the dilution control device can be operable to automatically modulate the dispense rate of concentrate when the diluent fluid flow rate is varied in order to maintain a predetermined dilution ratio.

Abstract: The present invention relates to a means of monitoring and controlling a process step, or steps for a treatable fluid being processed, whereby a sampled volume of the treated fluid is delivered to a vessel, within which the sampled treated fluid emulates the expected reaction or reactions of the treatable fluid being processed within the process step. The sampled volume of the treated fluid is detained, monitored, recorded and analyzed by the present invention. The resulting data is translated into commands that are conveyed to process control devices which control the processing of the treatable fluid. Sampling and analyzing of the treatable fluid is automatically repeated on a cyclical basis.

Abstract: Embodiments of the present invention provide a method for continuous flow production of mixed fluids. The mixed fluids can comprise a mixture of different fluids or a mixture of the same fluid having different input properties such as temperature. In general, two streams of fluid of varying temperature are supplied to a mixer. The flow rate of each of the input fluids can be regulated to produce a mixed fluid at a desired flow rate and temperature. As an example, mass flow controllers can regulate the flow rates of a hot and cold stream of de-ionized water to produce a stream of de-ionized water at a desired flow rate and temperature.

Abstract: A flow splitting device for use in a two-phase flow distribution network includes a side junction tee having a first conduit and a second conduit opening in flow communication to the first conduit, a flow restriction provided in the first conduit upstream of the opening of the second conduit with the first conduit, and a flow barrier extending into the first conduit at a location in the vicinity of a downstream edge of the opening of the second conduit to the first conduit. The ratio of the liquid phase mass flow to the gas phase mass flow is preserved as the mass flow ratio of liquid to gas to each of the two exit streams is substantially equal to the mass flow ratio of liquid to gas in the two-phase flow received by the flow splitting device.

Abstract: A washing machine with a single input hose for both hot and cold water. The solenoid-operated water mixing valve assembly has a direct attachment to the hot and cold water supply valves. A flexible hose connects the washing machine to the solenoid-operated water mixing valve assembly. When the washing machine fill cycle begins, the solenoid-operated water mixing valve assembly is turned on and the water is output to the flexible hose. When the washing machine fill cycle ends, the water supply is turned off. The hot and cold water are mixed prior to input to the flexible hose, and as a result, only one flexible hose is required to supply water to the washing machine. The flexible hose is attached to the output of the solenoid-operated water mixing valve assembly and therefore is not under water pressure unless the washing machine is in a fill cycle.

Abstract: A water-conducting household appliance having at least one water-conducting component; a hot water connection having a first feed valve to connect the household appliance to a hot water network and a first inlet line connecting the first feed valve to the at least one water-conducting component; and a cold water connection having a second feed valve to connect the household appliance to a cold water network and a second inlet line connecting the second feed valve to the at least one water-conducting component. A temperature measurement facility is disposed in the hot water connection and measures a temperature of hot water from the hot water network.

Abstract: Provided herein are apparatuses, systems and methods for the efficient generation of gradients.

Abstract: A razor protection system includes a container for holding a protective liquid such as mineral oil for protecting the razor of a non-electric shaver. The protective liquid floats on water, which is used to control the level of the protective liquid. A shaver support adjacent the container supports the razor within the container spaced upwardly from the bottom the container above the water. In one embodiment, the shaver support is movable to alternately immerse the razor in the protective liquid and remove the razor from the protective liquid. The shaver support preferably supports the shaver when the razor is not immersed to allow the protective liquid to drip from the razor into the container.

Abstract: A gas mixer and sampler system (2) for a controlled atmosphere laboratory chamber (4), the mixer and sampler system has a sampler remote from the chamber and a gas supply arrangement, including a mixer (14) remote from the chamber. The sampler consists of a gas sensor arrangement (5) for sensing a first and a second gas. A processor output from the gas sensors to determine the relative concentrations of the first and second gases, and determine proportions and flow rate for gases to be supplied to the chamber to meet a determined profile. The mixer and sampler are provided externally of the chamber at a location spaced from the chamber.

Abstract: In one exemplary embodiment of the present invention, a fuel stabilizer system is provided. The fuel stabilizer system includes a fuel additive storage unit that stores fuel stability fluid. A fuel stability fluid supply system supplies fuel stability fluid from the fuel additive storage unit to a fuel storage unit. A control module estimates an age of fuel in the fuel storage unit and selectively controls the fuel stability fluid supply system to supply fuel stability fluid to the fuel storage unit based on the age of the fuel.

Abstract: Method for supplying a high purity gas product comprising providing a first gas stream including a major component and at least one impurity component, determining the concentration of the at least one impurity component, and comparing the concentration so determined with a reference concentration for that component. When the value of the concentration so determined is less than or equal to the reference concentration, the first gas stream is utilized to provide the high purity gas product. When the value of the concentration so determined is greater than the reference concentration, a second gas stream comprising the major component is provided and the first and second gas streams are mixed to yield a mixed gas stream having a concentration of the at least one impurity component that is less than the reference concentration.

Abstract: A system and a method are provided for maintaining a low-pressure, substantially constant feed of water to an irrigation system. The system utilizes captured rainwater and/or gray water as available. The system can include an element for introducing an additive into the water, such as at least one of water-soluble fertilizer, insecticide, and pest repellent. Preferably the additive is provided so as not to be submerged in the water for maintaining a substantially constant concentration thereof in the water. The system and method are additionally advantageous in that fertigation, extermination, and/or and repelling only occurs when the plants call for water. In use with a typical lawn, the system allows the user to add less fertilizer to the lawn than in prior known systems, thus reducing nutrient (e.g., nitrate), insecticide, and repellant runoff into the aquifer and neighboring bodies of water.

Abstract: A transfer method and system (8) to discharge overflow slurry from a polymerization reactor (10) to a tank (14). The method includes thermally isolating a conduit extension (28) at a distal end of a transfer line (20) from a quench fluid inlet (42) to a quench chamber (12). The transfer system (8) is characterized by an annular thermal barrier around the conduit extension (28) that can include insulation (34) and/or thermally resistant support ring (36), and a trap-free conduit (20) in fluid communication between the reactor (10) and the conduit extension (28). The transfer method and system can reduce or eliminate incidents of transfer line (20) plugging in the manufacture of isoolefin polymers and copolymers.

Abstract: A process and apparatus for rapidly producing an emulsion and microcapsules in a simple manner is provided wherein a dispersion phase is ejected from a dispersion phase-feeding port toward a continuous phase flowing in a microchannel in such a manner that flows of the dispersion phase and the continuous phase cross each other, thereby obtaining microdroplets, formed by the shear force of the continuous phase, having a size smaller than the width of the channel for feeding the dispersion phase.

Abstract: The present invention relates to a temperature controlling apparatus and the temperature controlling method which can arrest foaming and inflation of the air contained in a liquid, and can perform temperature controlling of a liquid of high reliance, and the present invention is constructed to have one or a plurality of sets of nozzles which can suck and discharge a liquid through a tip, and can retain the sucked liquid, a suction and discharge mechanism which can suck and discharge a gas via the each nozzle, a temperature regulator which can maintain one or two or more set predetermined temperatures for a predetermined time regarding one or two or more predetermined temperature controlling regions set in the each nozzle, a movement mechanism which allows relative movement between one or two or more containers which can accommodate a liquid and a nozzle, and a controlling part which instructs the movement mechanism, the suction and discharge mechanism or the temperature regulator to adjust a liquid to be suck

Abstract: High-density microfluidic chips contain plumbing networks with thousands of micromechanical valves and hundreds of individually addressable chambers. These fluidic devices are analogous to electronic integrated circuits fabricated using large scale integration (LSI). A component of these networks is the fluidic multiplexor, which is a combinatorial array of binary valve patterns that exponentially increases the processing power of a network by allowing complex fluid manipulations with a minimal number of inputs. These integrated microfluidic networks can be used to construct a variety of highly complex microfluidic devices, for example the microfluidic analog of a comparator array, and a microfluidic memory storage device resembling electronic random access memories.

Abstract: A detection device is provided for detecting the presence of an agent in a fluid. The device includes a body defining first and second chambers. It is intended for the first chamber accommodating the flow of fluid therein. A first valve is disposed in the body between in the first and second chambers. The first valve opens in response to the presence of the agent in the fluid. A first detection structure is disposed in the second chamber in order to generate a predetermined signal in response to exposure to the fluid.

Abstract: A method for utilizing an aircraft to transport a container of beneficial gas to altitudes greater than five kilometers and releasing the beneficial gas into the stratosphere at that altitude. The released beneficial gas may comprise oxygen, neutralizing chemicals in gas form, other gases beneficial to the ozone layer, or the like. The aircraft transporting the container of beneficial gas may comprise an airplane, a balloon, or any other aircraft known in the art. Additionally, the beneficial gas may be released at altitudes greater than five kilometers, such as seven or ten kilometers. A threshold ozone concentration level may be determined such that beneficial gas is released from the containers only when the measured ozone concentration is below the threshold ozone concentration level. Further, the stratospheric density may be measured and the quantity of beneficial gas released into the stratosphere may be determined in proportion to the measured stratospheric density.

Abstract: A method for using an engineered fluid in a manner that reduces or minimizes waste includes applying the engineered fluid to a container having a settled component of a stored fluid, retrieving the applied engineered fluid and at least a portion of the settled component from the container, and using the applied engineered fluid at least once in the same manner as the stored fluid was used. In certain applications, the applied engineered fluid may be put to a different use. The engineered fluid may be processed prior to use.