Abstract: A system, device, and method for mixing liquids involves pumping a first liquid into a first pump chamber of a pumping apparatus through a channel of the pumping apparatus and pumping a second liquid from a second pump chamber of the pumping apparatus into either the channel or the first pump chamber, preferably while the first liquid is being pumped into the first pump chamber, so that the two liquids are mixed within the pumping apparatus. The second liquid is preferably pumped in a pulsatile mode in which small quantities of the second liquid are pumped at intervals. The quantity and/or the interval can be dynamically adjusted to result in a predetermined concentration of the two liquids. The contents of the first pump chamber are pumped to a receptacle.

Abstract: A method for mixing fluids that can control mixing characteristics of fluids, a method for producing particulates that can provide desired particulates, and particulates produced thereby are provided. According to an embodiment of the present invention, in a method for mixing at least two kinds of fluids in a microreactor, a first fluid is supplied to a mixing zone through a divided supply passage, and a second fluid is supplied to the mixing zone through a supply passage. A total value of dynamic pressures of the first and second fluids is controlled to mix the first and second fluids in the mixing zone. Then, the mixed fluids are flowed into a micro passage.

Abstract: A system and method for analyzing a specimen containing particles that can be difficult to differentiate. The system and method determines a first collective count of a selected group of particles in the specimen, treats at least a portion of the specimen to alter a subgroup of the selected group of particles, determines a second collective count of any of the selected group of particles in the treated portion of the specimen, and subtracts the second collective count from the first collective count to determine a differentiation count for the subgroup of particles altered by the treating of the specimen. The system and method is described with the example of determining concentrations of red and white blood cells in a specimen (e.g. spinal fluid), using auto-particle recognition techniques, without attempting to distinguish and count red versus white blood cells co-existing in the same specimen portion.

Abstract: The fluidic system with an unclogging feature of the preferred embodiment includes a flow channel, a sheath pump to pump sheath fluid from a sheath container into an interrogation zone, and a waste pump to pump waste fluid from the interrogation zone into a waste container. The sheath pump and/or the waste pump draw sample fluid from a sample container into the interrogation zone. The fluidic system also includes a controller to adjust the flow rate of the sample fluid from the sample container into the interrogation zone. The pump and controller cooperate to propagate a pulsation through the flow channel from the pump if the flow channel is clogged. The fluidic system is preferably incorporated into a flow cytometer with a flow cell that includes the interrogation zone.

Abstract: Bulk storage of natural gas or methane is facilitated by absorbing and storing the gas in a liquefied medium through the interaction of moderate pressure, low temperature and a solvent medium. Systems and processes are provided that facilitate the absorption of natural gas or methane into a liquid or liquid vapor medium for storage and transport, and back into a gas for delivery to market. In a preferred embodiment, the absorptive properties of ethane, propane and butane under moderate conditions of temperature and pressure (associated with a novel mixing process) are utilized to store natural gas or methane at more efficient levels of compressed volume ratio than are attainable with natural gas alone under similar holding conditions. The preferred mixing process efficiently combines natural gas or methane with a solvent medium such as liquid ethane, propane, butane, or other suitable fluid, to form a concentrated liquid or liquid vapor mixture suited for storage and transport.

Abstract: A supply flow path for supplying a solvent is described. The supply flow path includes metering devices each with a piston, the metering devices being adapted for metering the solvent through separate source paths feeding the supply flow path. The supply flow path further includes a control unit adapted for controlling the metering devices' piston movement in accordance with solvent pressure, wherein a variation of the solvent pressure gives rise to a corresponding variation of a solvent volume contained in the supply flow path or a part thereof. The control unit is adapted for compensating for the variation of the solvent volume by corresponding movements or forward or backward displacements of the pistons.

Abstract: The present invention provides a method for mixing three or more fluids inside a capillary. The present invention further provides a method for optimizing efficient mixing of two or more fluids inside a capillary, and a computer-readable medium for use by a processor to carry out this method. Additionally, the present invention provides an automated system for mixing two or more fluids inside a capillary. Also provided is a system for optimizing efficient mixing of two or more fluids inside a capillary.

Abstract: A gas mixing device feeds from two gas sources (1, 4), placing each gas into half of a chamber (17, 16) which is divided by a flexible physical barrier (12), such that pressure is equalised across the chambers (16, 17). Upon the release of each gas from each chamber at the same time into a mixing barrel (7), exit pressures and thus mixing characteristics are suitably controlled for a desired mix of gasses, due to the pressure balancing effect of the flexible barrier (12). The device might also be termed a divider or a dilutor. The device might be used in the mixing of low concentrations of carbon monoxide, such as 1 percent, in nitrogen with more nitrogen to dilute the concentration to 0.001 percent.

Abstract: A fluid injection/ejection system for a fuel cell stack is disclosed, wherein the system includes an array of injectors and ejectors that support hydrogen recirculation and maximize a use of the hydrogen and an efficiency of the fuel cell stack.

Abstract: A constant flow pump and method of providing a constant fluid flow using such a pump, and more particularly a pump and method that maintain a constant flow by using a heart-shaped cam to directly reciprocate the pistons of the pump at a constant velocity are described. The pump operates by using heart-shaped cam to translate the rotational motion of a power source such as an engine or motor can into a constant speed linear motion.

Abstract: An expandable chemical delivery system sharing a common bulk fluid inlet and bulk fluid flow path to direct a bulk fluid through one or more selected chemical eductors. Each chemical eductor is slidably insertable into an eductor port on the manifold body such that rotation of the chemical eductor is not required for installation. After installation, the orientation of the chemical eductor can be rotatably adjusted so as to avoid interference with adjacent chemical eductors. Delivery of a bulk fluid to each chemical eductor is controlled via a corresponding valve assembly that selectively allows or blocks flow of the bulk fluid form the bulk fluid flow path to the corresponding chemical eductor. The manifold body can include a plurality of individual manifold bodies approximated with a coupling system to define the bulk fluid flow path. Alternatively, the manifold body can comprise a single fabricated body for high pressure operation.

Abstract: A post-mix beverage dispensing device of a type comprising at least two sources for the liquids to be mixed, which are fluidically communicated with at least two respective ducts, at least one delivery tap for a beverage, which is fluidically connected to said ducts, as well as for at least one of these ducts, means for adjusting the flow rate and/or pressure of the liquid, which are placed upstream of the delivery tap. The device also comprises, for each of these ducts, a bypass channel being provided with a relative plug, these bypass channels being provided with a respective outlet opening, which is placed downstream of the relative plug, and being interposed between the delivery tap and said means for adjusting the flow rate and/or pressure.

Abstract: Process and equipment for rapid and reliable infusion of treatment substances into a liquid mainstream. The equipment includes diversion of some of the liquid, boosting its pressure into an aspirating injector, which adds treatment substance and in turn discharges to a pair of opposed nozzles that inject the diversion stream with treatment substances back into the mainstream flow.

Abstract: Methods and devices for controlling the flow of gases through a plasma arc torch are provided. A flow of plasma gas is directed to a plasma chamber, a first flow of auxiliary gas is directed around a plasma stream that exits a tip in one of a swirling manner and a radial manner, and a second flow of auxiliary gas is directed around the first flow of auxiliary gas and the plasma stream in one of a coaxial manner, an angled manner, and a radial manner. The first flow of auxiliary gas functions to constrict and shape the plasma stream to improve cut quality and cut speed, and the second flow of auxiliary gas functions to protect the plasma arc torch during piercing and cutting and to cool components of the plasma arc torch such that thicker workpieces may be processed with a highly shaped plasma stream.

Abstract: The present invention provides a fluidics system and a method for selectively drawing fluid from at least one selected reservoir into a channel by providing a negative pressure source downstream of the fluid and channel and selectively back filling the selected reservoir with a gas.

Abstract: A fuel supply system includes a pressure regulator (16) regulating the pressure of fuel supplied from a fuel pump (14). A valve device (18) is associated with the pressure regulator (16) for controlling the pressure of the fuel regulated by the pressure regulator (16). The valve device (18) supplies a part of the fuel as a control fluid to the pressure regulator (16). The part of the fuel supplied from the valve device (18) as the control fluid is not discharged into a fuel tank (12) when the pressure regulator (16) regulates the pressure of the fuel to have a higher value.

Abstract: A electrochemical cell system includes a fluid manifold having a layered structure. The fluid manifold includes at least one conduit layer having a first side and a second side. The at least one conduit layer has at least one conduit channel.

Abstract: The present invention relates to a method and a column to handle foaming liquids or high viscous liquids and prevent flooding in liquid-gas mass transfer operations. Said operation is carried out by using higher or equal pressure at the liquid inlet than at the liquid outlet in said column. Said column comprises a single shell (7) housing at least one tray, where said shell is provided with at least one liquid inlet (1), one liquid outlet (11), one separate gas inlet (5) for each of said trays and at least one outlet (2) for gas leaving said column.

Abstract: The present invention relates to the field of tissue processing, particularly, to the treatment of fluids used in tissue processing. In one embodiment the present invention provides for treating a tissue processing fluid comprising first processing fluid comprising a first processing fluid and a second contaminating fluid, by: gradually varying the pressure of the fluid from an initial pressure level to a first pressure level such that the fluid remains below a vaporizing point of the second contaminating fluid and, heating the fluid to at least a vaporizing temperature of the second contaminating fluid. In another embodiment, the present invention removes the second contaminating fluid from the fluid by varying at least one of the pressure and temperature of the fluid so as to allow the second contaminating fluid to vaporize. Alternatively, an embodiment of the present invention interleaves the step of removing with one or more tissue processing protocol steps.

Abstract: Methods, devices, and systems are disclosed for combining fluids of different pressures and flow rates in, for example, gas gathering systems, gas wells, and other areas in which independently powered compressors are not desired. Methods, devices, and systems for turning a shaft are also provided, as are methods, devices, and systems for dropping pressure in a gas line.

Abstract: A valve for controlling fluid flow in a fluid system is disclosed. The valve includes a housing, a servo spool, and a piston. The servo spool defines a spiral groove and a spiral land. The piston defines an orifice configured to provide flow communication to a supply of pressurized fluid and an orifice configured to provide flow communication to a portion of the fluid system exterior to the valve. The valve further includes a main spool operably coupled to the piston. The main spool is configured to control flow of fluid in the fluid system. The spiral groove and spiral land are configured such that angular displacement of the servo spool results in a force imbalance on the piston, thereby moving the piston and the main spool in one of a first direction and a second direction.

Abstract: A method of combining a first fluid from a first source (1) with a second fluid from a second source (16) in a de-sired ratio, by measuring the flow rate and pressure of the first fluid (at 12 and 14) prior to combining (at 10), and determining from this the desired flow rate and pressure at which the second fluid should be added to achieve the desired ratio. The pressure and flow rate of the second fluid is measured (at 6 and 8) and provides a feedback loop to ensure that the second fluid is being added at the desired flow rate and pressure to achieve the desired ratio. The pressure and flow rate of the second fluid may be controlled by multiple pumps 2 of different power.

Abstract: A flow cytometer is provided which includes an interrogation flow cell and a plurality of assay fluidic lines extending into the interrogation flow cell. A method of operating such a flow cytometer includes priming the interrogation flow cell with a sheath fluid and injecting different assay fluids into a flow of the sheath fluid through the plurality of fluidic lines. A fluidic line assembly is provided which includes a plurality of capillary tubes coupled to a base section configured for coupling to an interrogation flow cell assembly of a flow cytometer. The capillary tubes are dimensionally configured such that when the fluidic line assembly is arranged within the flow cytometer and fluid is dispensed from one or more of the capillary tubes at a given pressure differential with respect to an encompassing sheath fluid within the interrogation flow cell the fluid is substantially centrally aligned within the interrogation flow cell.

Abstract: A flow blender device that includes a plurality of input flow conduits and a single output flow conduit. A variable sized orifice is positioned along at least one of the conduits for metering and controlling fluid flowing through the flow blender device. The variable sized orifice can be positioned along any of the input or output flow conduits. The flow blender device can use differential pressure measurements across the variable sized orifices to determine fluid flow rates in the flow blender device.

Abstract: The invention is a self-contained process shutdown device that detects abnormal pressures and initiates shutdown by removing the pneumatic or hydraulic pressure needed for a given process or flow to continue. The process' pressure is detected by means of a switch-gauge (a pressure gauge with high and low alarm electrical contacts) which has a pressure sensing port connected to the monitored pressure. The contacts from the switch-gauge are connected to an electronic logic circuit that sends one or more shutdown pulses to trip a pulse driven solenoid and initiate the shutdown. This device provides indicator lamps to show statuses and alarms as well as switch or pushbuttons to activate the “Reset” and “Test” functions. The electrical power is supplied by a power module that is constituted of battery cells connected in such way that it provides a dual voltage output to feed the electronic logic separate from the pulse driven solenoid driver circuit.

Abstract: A single layer fluid routing device comprising a first channel having a cross-section of a first aspect ratio and a first depth; a second channel having a second cross-section of a second different aspect ratio and a second different depth; wherein the second channel intersects with the first channel from a first point to a second point, the first and second points having different offsets relative to the cross-section of the first channel.

Abstract: The invention relates to the technical field of microfluidic channel structures. The invention discloses a microfluidic channel system with a high aspect ratio as well as a process for producing the microfluidic system. The process according to the invention enables the production of channel structures with aspect ratios of any magnitude without the process being limited by the manufacturing conditions to certain materials for the channel system. The channel system can thus be optimally adapted to a desired field of application.

Abstract: A method for controlling liquid delivery in a processing chamber. The method includes generating an analog input (AI) signal proportional to a process variable and calculating an analog output (AO) signal based on a setpoint and a deadband. The setpoint is a target value of the process variable and the deadband is an allowable tolerance around the setpoint that determines when the control logic is activated to control the process variable. The method further includes transmitting the AO signal to a control device and adjusting the process variable proportional to the value of the AO signal.

Abstract: A system for dispensing and mixing metered amounts of first and second liquid components of a soft drink. The system comprises a mixing chamber connected by separate feed conduits to pressurized sources of the first and second liquid components. First normally closed valves are located in and demarcate the feed conduits into upstream and downstream sections. The first valves are opened automatically in response to pressure above a threshold level in their respective upstream conduit sections, and are operative when open to deliver a constant flow of liquid through their respective downstream conduit sections to the mixing chamber. Second normally closed valves are located in the upstream conduit sections. The second valves are opened in response to a command signal, and each second valve automatically closes in response to a drop in pressure below the threshold level in the upstream conduit section of the other second valve.

Abstract: The invention is therefore directed to a rotary valve actuating system coupled to a pipeline for a pressurized fluid, the actuating system being coupled to the rotary valve to selectively cause operation of the valve. The valve actuating system comprises at least two reservoirs having an amount of an operating liquid in a first portion being coupled to an external source of pressurized fluid in a second portion thereof. A slideable piston is positioned within each of the reservoirs to isolate the first and second portions, and upon application of pressure from the external pressurized fluid against the slideable piston, operating liquid is supplied to actuate the rotary valve. In this manner, the operating liquid is isolated from the external source of pressurized fluid, such as supplied from the pipeline.

Abstract: An apparatus for dividing the flow of a gas stream and a method for controlling the flow division of a gas stream are disclosed, the apparatus including an inlet conduit for receiving the gas stream, outlet conduits in fluid communication with the inlet conduit for delivering the gas stream, a balancing gas feed conduit in fluid communication with an outlet conduit, a balancing gas feeder in fluid communication with the balancing gas feed conduit, and a balancing gas controller; and the method including the steps of dividing the process gas stream into process gas stream fractions and injecting a balancing gas stream into a process gas stream fraction in an amount sufficient to displace a portion of gas flow from the process gas stream fraction into one or more remaining process gas stream fractions.

Abstract: A process for activating polymer including preconditioning a diluent by heating it to a high temperature and then mixing the heated diluent with the polymer to form a blend having a high polymer content (e.g., about 5% polymer and 95% hot diluent). The blend is activated and then diluted by mixing it with a cold or cool diluent in order to provide an output stream of about 0.25-2% polymer having a relatively low temperature. The high temperature and high polymer content enables a continuous process, as distinguished from batch processes used heretofore which required substantial holding time in an aging tank. The reduction of the temperature of the blend by mixing it with cold or cool diluent prevents damage to heat-sensitive polymers.

Abstract: A cleaning method and a corresponding cleaning device offer adequate protection to individuals, devices and installations, for cleaning component parts of installations that carry an electrical high-voltage and which are not disconnected during cleaning. Towards this end, the component parts to be cleaned are subjected to the action of a two-phase particle stream (PS) consisting of a compressed gas (DGA) serving as a carrier medium and of carbon dioxide ice particles (TP) carried therein. Possible superficial accumulations of dirt are removed from the component parts by way of low-temperature embrittlement and by the kinetic energy of the impacting carbon dioxide particles. The carbon dioxide ice particles themselves sublimate without leaving residues.

Abstract: A hydrogen supply method is provided which, by use of an inexpensive and compact hydrogen supply means, can reduce the pressure of the hydrogen stored in said hydrogen supply means, and moreover can efficiently supply hydrogen to a high pressure hydrogen storage means. Hydrogen is supplied from first hydrogen supply means 1, 2, 3 for supplying hydrogen stored under high pressure and second hydrogen supply means 4, 5, 6 for supplying hydrogen stored in a hydrogen absorbing alloy to a hydrogen storage means 9 for storing hydrogen under high pressure. Hydrogen is supplied from the first hydrogen supply means 1, 2, 3 to the hydrogen storage means 9 until the hydrogen pressure in the hydrogen storage means 9 reaches a predetermined pressure. After this step, hydrogen is supplied from the second hydrogen supply means 4, 5, 6 to the hydrogen storage means 9 until the hydrogen pressure in the hydrogen storage means 9 reaches a maximum filling pressure.

Abstract: The invention relates to a state-variable feedback control system for monitoring and optimally controlling the operation of a microfluidic aspirate dispense-system. A steady state operating pressure is determined from the fluid, flow and/or operational characteristics of the system. Measurements from one or more pressure sensors are part of the control strategy to derive information for active feedback control and/or to achieve the desired operating pressure. Advantageously, the control system adds to the versatility of the aspirate-dispense system, for example, by permitting rapid dispensing of drops of different size. The control system also desirably facilitates efficient, repeatable and accurate performance and reduces wastage of valuable reagents or fluid.

Abstract: The present invention provides a feedback control system using at least one operating personnel for controlling a system or a function in a system. The control results from sequential manual interruption by the operator of the fluid flow at the discharge end of a flowing system within a preset time period. As the liquid flow is interrupted, changes in flow characteristics, such as those affecting flow or pressure, for example, are instantly caused within the system. A transducer connected to the system senses these changes in flow characteristic and subsequently transduces them into electrical impulse signals that correspond directly to the sequential interruptions occurring at the discharge end of the system. An electronic circuit counts these electrical impulses, and causes relay switches to change state, causing electromechanical functions in the system to occur.

Abstract: An apparatus for feeding gases for use in semiconductor manufacturing reduced in size and manufacturing costs and facilitating maintenance and operation of the gas supply system. The apparatus comprises a plurality of gas supply sources, gas source valves provided on the gas lead-out pipes from the respective gas supply sources, flow rate controllers provided on main gas feed pipes into which the lead-out pipes converge, and gas supply valves provided on the outlet side of the flow rate controllers.

Abstract: A method of monitoring and regulating the viscosity of paint in an automotive paint application is provided. The method includes delivering paint to the paint application system with a pump. Continuously monitoring the pressure that the paint is delivered to the paint application by the pump. Returning the paint which is not applied to the automotive vehicle by the paint application system through a return line. Continuously monitoring the pressure of the paint flowing through the return line. Continuously calculating the viscosity from the pressure differential between the delivery pressure and the return line pressure and the flow rate in the return line and the fluid resistance of the paint application system to determine the viscosity of the paint. Delivering the paint from the return line to a sump. Selectively adding thinners to the paint to cause the paint to have a predetermined level of viscosity.

Abstract: A fluid mixing system and a method of using same for maintaining uniform concentrations of fluid chemical additives in a dilutant, in which the system includes a multi-port aspirator device including a venturi having a venturi inlet for receiving dilutant and a venturi outlet of reduced diameter for discharging said dilutant, a dilutant injector source fluidly coupled to said multi-port aspirator device for delivering a dilutant at a dilutant pressure thereto, and a plurality of injectate sources fluidly connected to the aspirator device at or immediately downstream said venturi outlet, wherein each said injectate source is capable of independently varying pressure at said a multi-port venturi injector with respect to said dilutant pressure. The use of the inventive fluid mixing system also provides a facile and accurate means of injecting required volumes of wet chemicals into a flowing stream of a carrier fluid.

Abstract: A ratio mixing valve for mixing first and second fluids in a constant volumetric ratio regardless of variations of supply pressures of the two fluids. The valve has an inlet passage for the first fluid that passes through a spool valve chamber, and an inlet passage for the second fluid that also passes through the spool valve chamber. Vent passages connect the two fluid passages to the ends of the spool valve chamber. The spool valve has a pair of annular grooves aligned with the two inlet passages. One groove partially blocks one of the inlet passages to form a variable orifice that responds to pressure changes in the incoming fluids by moving the spool valve to a position which adjusts the volumetric flow through the two passages to maintain a constant ratio between the fluids in the mixture.

Abstract: A device for automatic dilution of chemical additives and water utilizing a single pump (20) drawing water and other chemical additives through a dilution manifold (10). The introduction of air into the system is monitored such that the system performance is not impaired. If the air leak is small corrections can be made or the system will accept the small error, but if the air leak is large, the system will shut down and activate an indication or alarm to signify that some malfunction has occurred, such as a chemical supply being unconnected or empty.

Abstract: Apparatus and methods for precision batch or continuous flow blending of gases are described. Pulsatile precision metering valves having substantially zero dead space are employed to introduce gases to a mixing chamber or manifold in predictable uniform quantities to achieve precision gas blends according to predetermined criteria. During batch processing, gases to be blended are repeatedly characterized by the change in mixing vessel pressure with respect to time immediately after blending. Estimates of additional amounts of a given gas to be added to achieve a desired final partial pressure of the given gas in the mixing vessel are based on empirical data previously measured and stored for the gas in question.

Abstract: An installation for lubricating, cleaning and/or disinfecting conveyor belts for containers, more particularly for foods, such as bottles, glasses, cans, bags and the like, comprising a central metering station connectable to a water pipe used to dilute a concentrated lubricant, cleaner or disinfectant, and several distributing pipes connected to the metering station lead to the points of use. At each point of use there is a mixing valve (13-19) connectable to distribution line (52) and the water pipe (23) and individually adjustable for each point of use and a pressure reducer (50, 51) fitted upstream of each mixing valve. Varying concentration can be provided for each point of use (31-37) with little technical complexity. In another embodiment, the invention is the process carried out by the installation.

Abstract: The invention is directed to a process for providing a gas having a minimum pressure and a composition that includes a major component to an end application, said process comprising the following steps:a) providing a first gas having said major component in a first concentration to said end application;b) providing means for measuring the pressure of said first gas being delivered to said end application;c) providing a second gas having a second concentration of said major component of said first gas which exceeds said first concentration;d) providing a third gas having a third concentration of said major component of said first gas which is less than said first concentration;e) providing means for mixing said second and said third gases so as to produce a fourth gas at at least said minimum pressure and which has said major component in a fourth concentration; wherein,f) when said means for measuring the pressure of said first gas to be received at said end application detects a deficiency with respect to sa

Abstract: In a low pressure gradient liquid chromatograph, two eluting liquids are transferred while they are being mixed with each other, whereby the mixing ratio thereof is changed with time. The mixing is performed by alternately opening and closing check valves provided in the liquid passages of the eluting liquids during a time period corresponding to the actual suction stroke of a plunger pump. The mixing ratio is determined by the time periods during which the check valves are opened, respectively. A detector is provided for detecting the pressure of the mixed liquid and the timing for opening and closing the check valves is changed in accordance with the detected pressure.

Abstract: A method and apparatus are disclosed for improving the consistency and quality of a frozen carbonated beverage product. The invention utilizes a method of monitoring the level of liquid in the mixing chamber of a frozen carbonated beverage machine to accomplish this result. The method involves measuring the pressure spikes that occur in the mixing chamber. The magnitude of a pressure spike is indicative of the amount of liquid in the mixing chamber. If a pressure spike is too high or too low, that is indicative that there is too much or too little liquid in the mixing chamber. By regulating the amount of liquid in the chamber, the consistency and quality of the beverage product can be maintained. The present invention uses a microprocessor to determine when the spikes are outside of an acceptable predetermined range.

Abstract: The invention provides a preparative liquid chromatography apparatus wherein flow rate control can be effected in a wider range and with a higher degree of accuracy than where a pump is used while preventing production of air bubbles in liquid and the mixture ratio of chemicals can be controlled in a wide range and with a high degree of accuracy.

Abstract: A device for automatic dilution of chemical additives and water utilizing a single pump (20) drawing water and other chemical additives through a dilution manifold (10). The introduction of air into the system is monitored such that the system performance is not impaired. If the air leak is small corrections can be made, and if the air leak is large, the system will shut down and activate an indication or alarm to signify that some malfunction has occurred, such as a chemical supply is unconnected or empty.

Abstract: A gas mixing valve has first and second inlet chambers linked to supplies of a first and second gas, and a mixing chamber having a blended gas outlet. The inlet chambers are connected to the mixing chamber via first and second control valves, each valve having a valve seat and valve member with opposing surfaces defining a flow control orifice. Each valve seat and valve member are relatively movable between a closed position in which no flow occurs and a maximum opening position to define a series of orifices of progressively increasing area corresponding to the same geometrical progression. The position of each valve member can be controlled to provide a desired mixing ratio. Each valve seat is provided in a respective piston, and the pistons are tied together to move in response to variations in pressure drop across each piston, in order to vary the orifice size to compensate for changes in flow rate without changing the mixing ratio.

Abstract: A checkvalve is provided for dispersing a fluid into a flowing stream. All operating parts of the checkvalve are located in the flowing stream to provide uniform and rapid dispersion of the fluid.