Abstract: A garbage processor has a vessel for receiving garbage, a rotary pulverizer/stirrer for crushing and stirring the garbage in the vessel and a first heater for drying the garbage in the vessel. A steam is generated upon heating and drying of the garbage. An air blower feeds a high pressure an ambient air into the vessel to force the steam out of the vessel. A steam separator is provided for separating the steam into a water and a gas. A second heater is provided downstream of the steam separator for oxidizing the gas emanating from the steam separator to reduce a smell of the gas. The gas is deodorized before it is discharged to the atmosphere.

Abstract: Devices for controlling the reaction rate of a hydrocarbon to an acid or other intermediate oxidation product by pressure drop rate adjustments. The devices incorporate a reaction chamber, different means for monitoring miscellaneous parameters, means for feeding ingredients including gases, means for exiting products and gases, means for stopping the feeding and exiting of gases at predetermined time intervals, means for measuring the pressure drop rate during the period that the feeding and exiting of gases takes effect, and a controller, the function of which is to conduct adjustments in one or more of temperature, feeding rates of hydrocarbon, solvent, catalyst, promoter, and the like until the pressure drop rate and the reaction rate fall within desirable predetermined limits.

Abstract: A container positioning device includes a stop mechanism for stopping a carrier moving along a conveyor, the carrier supporting a container thereon. A pair of arms are pivotally mounted to move between an open position permitting the container to pass along the conveyor track, and a centering position with forward ends in contact with the container and positioning the container in a centering location. A forward end of the downstream arm is operable to move upstream and contact the container to move the container upstream to the centering location, where the second arm will contact the container to retain it in place.

Abstract: A flow reactor providing a high degree of selectivity in the reaction of a feedstock to produce one or more end product compounds, which includes: side walls defining an elongated reactor unit having a length dimension along which the feedstock is reacted under varying conditions of energy and chemical flux effective to produce the one or more end product compounds; a plurality of devices for supplying energy or chemical flux through the side walls and positioned to distribute the energy and chemical flux along the length of the reactor unit so as to optimize a property of the one or more end product compounds; devices for measuring a property of the end product compounds; and an adaptive feedback control system to determine, establish and maintain the optimum energy and chemical flux distribution along the length of the reactor based on the end product property measurement.

Abstract: A method of verifying sample volume quantifies the fluid volume aspirated and verifies sample uniformity by detecting the presence of foam or clots in the sample. After aspiration, a pressure sensor is used to measure the vacuum needed to hold up the column of fluid in the probe tip. By knowing the geometry of the probe tip, the vacuum can be converted to a sample weight and volume, based on sample densities. Non-ideal conditions, such as foam on the surface of the fluid or a clot in the fluid, result in a sample volume much lighter, in the case of foam, or much greater, in the case of a clot, than anticipated. The method also determines the elapsed time of the aspiration. Foamy samples result in aspiration times shorter than normal. Clotted samples result in aspiration times longer than normal. Additionally, a determination can be made as to whether an error condition occurred.

Abstract: A compact combination blood cell count and immunoassay apparatus for measuring drawn whole blood specimen includes a load station for receiving the whole blood specimen and a nozzle member that can selectively withdraw whole blood from the blood specimen. A blood cell count section and an immunoassay section are mounted along a unitary path of movement of the nozzle member so that a single nozzle member may be used for transporting the whole blood to the respective blood cell count section and immunoassay section. A controller can automatically direct a transport mechanism to use only the whole blood and to perform various steps of adding dilution liquid and reagents, along with appropriate washing of the nozzle and sample cells to insure an automatic operation. A hematozorit value can be determined from the blood cell count signal and used to correct the immunoassay signal when whole blood is used.

Abstract: A batch polymerization process controller using inferential sensing to determine the integral reaction heat which in turn is used to indicate the degree of polymerization of the reaction mixture batch. The system uses a reaction temperature compared with a desired temperature, and the result is used as a feedback to monitor and control the process. One version of the process controller also uses a feedforward signal which is an integral reaction heat indication from a process model. In another version of the process controller, the integral reaction heat is compared with a desired integral reaction heat, and result is used as another feedback to monitor and control the process. Heat production and reaction temperature profiles may be used, along with the thermokinetic equations to determine the polymerization process and reactor models which are utilized by the process controller to optimize the polymerization process in terms of efficient use of cooling water and desired polymerization of each mixture batch.

Abstract: An apparatus for separating a blood component, e.g., fibrin monomer, from blood or plasma comprises a container (110) with a reaction chamber for receiving the plasma, where said reaction chamber is defined by an outer wall and comprises means for supplying said reaction chamber with an agent for converting the fibrinogen content of the plasma into a non-cross-linked fibrin polymer. The apparatus comprises furthermore a device for centrifuging the reaction chamber with the plasma and said agent to a degree sufficient for separating the non-cross-linked fibrin polymer from the plasma, for depositing said polymer on the outer wall of the reaction chamber, and for expelling the remaining plasma from the reaction chamber. The container (110) comprises means for supplying the reaction chamber with a solvent for dissolving said non-cross-linked fibrin polymer.

Abstract: An ultra-miniature personal flow cytometer (pFCM) for the measurement of laser-induced fluorescence. The pFCM is approximately the size of a fluorescent microscope and includes a miniature optical module onto which the flow cytometry components are coupled. The miniature optical module is closely integrated with a flow cell through which a sample cell stream flows. The advantage of the pFCM is its compact size and efficiency that is made possible due to the unique microchip demultiplexing waveguide utilized in the separation of fluorescent wavelengths. The microchip demultiplexing waveguide is wholly contained in a tiny microchip consisting of a wave channel layer, a buffer layer, a substrate layer, and a plurality of micrograting filters. Photodetectors may either be coupled to the microchip demultiplexing waveguide by individual fiber optic members or incorporated into the wave channel layer in a photodiode array.

Abstract: For sterilizing surfaces with hydrogen peroxide, a stream of hot air is fed through a tube which includes a porous section, and vaporized hydrogen peroxide is diffused from the porous section into the hot air stream to obtain a combined hot air and vaporized stream mixture for supplying the vaporized hydrogen peroxide to a surface for sterilizing the surface. Further for carrying out the process, liquid hydrogen peroxide is fed to the porous section for forming a film on the porous section, and the porous section is heated to a temperature to vaporize the hydrogen peroxide for diffusion via the porous section into the hot air stream.

Abstract: The invention provides improved methods and apparatus for steam sterilization that monitor pressure at one of more points in the steam flow path in order to regulate the flow of cooling water mixed into the discharge or effluent. This permits the indirect, yet accurate and rapid, determination of discharge water temperature so that it can be mixed with just the right amount of cooling water to bring it to the desired temperature, e.g., 140.degree. F. or below.

Abstract: A multiple flashpoint vaporization system rapidly sterilizes large enclosures. A plurality of vaporizers (10) inject hydrogen peroxide vapor into streams of carrier gas supplied by a generator (20). Supply lines (30) transport the mixture of carrier gas and hydrogen peroxide vapor to a plurality of regions of an enclosure (32). Monitors (52) monitor hydrogen peroxide vapor concentration or other conditions in each region of the enclosure. A control system (50) adjusts the hydrogen peroxide vapor supply rate in response to the corresponding monitored conditions.

Abstract: A self-contained incubator for growth of microorganism kit and methods for use of such a kit are provided. The kit and methods may detect the presence of microorganisms and may utilie a microorganism growth and indicator medium provided in a sample container along with a heat source, preferably generating heat through chemical means, and optionally heat shields, allowing for on-site testing of a microorganism present in a sample. The sample container may also include a removable vessel cap that includes a barrier separating the sample from a material capable of disinfecting the sample, thereby preventing contact of the sample and the material for a desired time period. The vessel cap may also be used independently in other applications.

Abstract: Microfluidic apparatus which include a planar device and polymeric holder assembly are provided. The polymeric holder assembly includes a cavity disposed through the holder, providing optical access to the top and bottom of the planar device when the device is mounted in the polymeric holder. The planar device includes microscale channels disposed within the device.

Abstract: A system and method for controlling a microwave heated chemical process is disclosed. Time varying concentrations of some chemical substances within fumes in the microwave oven are monitored to detect concentration variations for which responses are known. Responses to the detected variations are initiated to control the chemical process without terminating the process. Examples of responses include varying microwave radiation energy, initiating safety systems, increased venting of the microwave oven, and so forth.

Abstract: Combinations, called matrices with memories, of matrix materials that are encoded with an optically readable code are provided. The matrix materials are those that are used in as supports in solid phase chemical and biochemical syntheses, immunoassays and hybridization reactions. The matrix materials may additionally include fluophors or other luminescent moieties to produce luminescing matrices with memories. The memories include electronic and optical storage media and also include optical memories, such as bar codes and other machine-readable codes. By virtue of this combination, molecules and biological particles, such as phage and viral particles and cells, that are in proximity or in physical contact with the matrix combination can be labeled by programming the memory with identifying information and can be identified by retrieving the stored information. Combinations of matrix materials, memories, and linked molecules and biological materials are also provided.

Abstract: A method for monitoring the oxidation rate in a flue gas desulfurization system having a slurry comprises locating a monitor in the system for accessing the slurry. A sample is periodically drawn from the slurry by the monitor wherein a titration is performed on each sample. The titration performed on each sample comprises adding a potassium iodate KIO.sub.3 solution, a potassium iodide KI starch solution and an acid solution to the sample in the monitor for causing the sample to exhibit a color corresponding to the oxidation rate.

Abstract: This invention provides a flue gas treating system which, though having a basic construction using a small-sized and high-performance gas-liquid contact apparatus comprising the combination of a parallel-flow absorption tower and a counterflow absorption tower, can reduce the ammonia concentration in the treated flue gas to a low level. This system includes a tank (21) for holding an absorbing fluid fed thereto; an inlet side absorption tower (22) of the counterflow type which extends upward from one lateral part of the tank (21) and in which untreated flue gas (A) is introduced from its lower end and brought into gas-liquid contact with the absorbing fluid within the tank (21); and an outlet side absorption tower (23) of the parallel-flow type which extends upward from another lateral part of the tank (21) and in which the flue gas leaving the inlet side absorption tower (22) is introduced from its upper end and brought into gas-liquid contact with the absorbing fluid within the tank (21).

Abstract: An exhaust gas treatment apparatus for the removal of at least a sulfur dioxide gas and ammonia from an exhaust gas by bringing the exhaust gas into vapor-liquid contact with an absorbing liquid comprises an introduction-side tank to which the absorbing liquid is supplied, a parallel-flow type absorption tower positioned above the introduction-side tank; an ejection side tank positioned adjacent the introduction side tank; a counter-flow type absorbing tower positioned above the ejection side tank; a mist eliminator for removing splash mist from the exhaust gas; and a controller for controlling the pH of the absorbing liquid in one of the introduction-side absorption tower and the ejection-side absorption tower.

Abstract: A steam condensate tempering system for a steam sterilizer uses a fast temperature sensor to measure the temperature of combined water and steam condensate from a sterilizer, and a controller for controlling the flow of cool water to mix with the steam condensate in response to the temperature sensed by the temperature sensor.

Abstract: A waste plastic disposal apparatus (K1-K4) including a storage portion (2) for storing waste plastic; a heating portion (7) for heating the waste plastic, which includes a heater (7b) and a fan (7a); a hot-air circulating path (20) for circulating hot air therethrough, which is defined by the storage portion (2) and the heating portion (7); an exhaust path (10) which branches off from the hot-air circulating path (20); and a deodorizing portion (9) which is provided in the exhaust path in response to intake of a predetermined quantity of external air into the hot-air circulating path (20) per unit time, the hot air in the hot-air circulating path (20) is exhausted in a quantity equal to the predetermined quantity from the exhaust path (10) through the deodorizing portion (9).

Abstract: In an analyzing apparatus of the present invention, sample racks, in each of which a plurality of sample containers are held, are transferred from a rack feeding unit to a discrimination unit for discriminating a type of each sample container. After the discrimination unit, a plurality of analyzing units are installed along a transfer line, and pipetters of different types are provided in the respective analyzing units. The discrimination unit detects information on the length and the width of each sample container held in each sample rack by using an optical detector. A control part selects one of the analyzing units, suitable for analyzing the sample container of which type was discriminated, based on the information detected by the discrimination unit, and transfers the sample container of which type was discriminated, to a sample pipetting position in the selected analyzing unit.

Abstract: An installation for monitoring an apparatus for generating atmospheres. The installation includes a measuring device for measuring at least one parameter representing the actual operation of the apparatus, an evaluator for evaluating the drift of each representative parameter over time and a trigger for triggering an intervention on the apparatus as a function of the drift before values of each representative parameter reach predetermined critical values.

Abstract: A carbon monoxide sensing system is provided including a garage having an automatic door adapted to open only upon the receipt of an activation signal. Further provided is a carbon monoxide sensor positioned within the garage and connected to the automatic door for transmitting the activation signal upon the detection of an amount of carbon monoxide which exceeds a predetermined amount. A light beam detector is adapted to generate the activation signal only upon the detection of vehicle within the garage. Also included is a control mechanism connected between the carbon monoxide sensor, light detection and the door opener for allowing the transmission of the activation signal to the door opener only upon the receipt of the activation signal from the light beam detector.

Abstract: The hydrocarbon light-off time in engine exhaust is reduced by employing a hydrogen oxidation catalyst, a CO oxidation catalyst of light-off temperature for CO and/or hydrogen below ambient temperature, and sufficient oxygen and sufficient CO and/or hydrogen in the exhaust that the exothermic reaction of the oxygen with the CO and/or hydrogen over the CO oxidation catalyst generates enough heat to raise the temperature of the CO oxidation catalyst to at least the light-off temperature of the hydrocarbon oxidation catalyst.

Abstract: A garbage disposing device of an energy-saving type comprises a housing having an air intake port and an air discharge port, and a vessel mounted within the housing to store therein food wastes. The vessel has an air inlet and an air outlet. An intake passage is formed in the housing to extend from the intake port to the air inlet for introducing a fresh air into the vessel. An exhaust passage is formed within the housing to extend from the air outlet to the discharge port for discharging therethrough an air containing unpleasant odor resulting from a decomposition of the food wastes. A deodorizer unit comprises a catalyst for decomposing the unpleasant odor in the air, a heater for activating the catalyst, and a case for incorporating therein the catalyst and the heater.

Abstract: Disclosed is a process for forming a compound by mixing at least two components, which comprises the steps of:circulating a specific component along a circulation route; andmixing the specific component with a second component different from the specific component by flowing the second component different from the specific component in the middle of the circulation route under specific mixing conditions to form a compound during circulation,wherein the mixing conditions are controlled so that the mixing conditions are changed accompanied with increase in a formation amount of the compound.

Abstract: An exhaust management control method comprising the steps of: immediately following a cold start of an engine, adsorbing hydrocarbons from engine exhaust into a hydrocarbon adsorber; determining when a catalytic converter catalyst light-off is obtained and thereafter purging the adsorber, wherein a first regeneration of the adsorber is obtained; detecting an engine off condition of the vehicle; and injecting air through the adsorber following the detected engine off condition while the adsorber is hot enough that coke deposits thereon are oxidized and thereby removed from the adsorber, wherein a second regeneration of the adsorber is achieved.

Abstract: A PCB supporting electronics is potted in a resilient sheet of material having an adhesive back face glued to a urinal below the flush water outlet. The front face is a target for a urine stream; it supports a urine sensor, say a temperature sensor. Added sensors measure urine characteristics as it flows over the face. Residue is flushed away. The PCB supports a data processing circuit. The output is sent to a remote indicator.

Abstract: The invention is a system and method for real-time monitoring and control of chemical sterilant concentration during all phases of a sterilization cycle by employing semiconductor-based sensor modules to selectively detect and measure the actual sterilant concentration in real time. In response to the transmitted concentration values, the sterilizer control system controls critical environmental parameters to maintain concentration levels within acceptable ranges for given time periods to assure sterilization efficacy and that the sterilant has been properly exhausted at completion of the cycle. The selectivity, sensitivity and accuracy of the semiconductor sensor are optimized by calibrating the sensor to baseline environmental parameters and by adjusting the sensor concentration reading when environmental parameters change during the sterilization cycle, by programming a new baseline value for the sterilant concentration at the new condition.

Abstract: An automatic sample injector for a gas chromatograph includes not only a syringe with a barrel and a plunger which is adapted to move inside the barrel but also a plunger-driving motor for pushing and pulling the plunger inward and outward inside the barrel, a position sensor for the plunger and an abnormality detector for detecting an abnormal operating condition of the plunger. The plunger-driving motor has a variable torque, and it is operated at a preliminarily determined reduced torque smaller than the normal torque at which it is operated under normal conditions. The subsequent motion of the plunger, or lack thereof, is monitored by the position sensor to determine whether the plunger is totally or partially stuck inside the barrel.

Abstract: Microfluidic devices and systems, and particularly, microfluidic devices that are easier to handle by the operator, without damaging, contaminating or otherwise fouling, as a result of manual contact with the device. These microfluidic devices and systems include manual handling structures, to allow handling of the small scale devices with minimal potential for fouling as a result of manual contact with the device.

Abstract: A sensor detects when a probe contacts liquid in a container due to a change in frequency of a probe oscillator. The sensor can have its output compared to a reference level to determine the presence or absence of liquid wherein the reference level is changed to follow the output of the detector. In one embodiment, it can be determined that liquid has been contacted when a count has been reached several times in a row (the count being a function of the probe output and changeable). In another embodiment of the invention, it can be determined that liquid has been contacted when a count has been reached within a certain threshold several times in a row, while still having the reference count change to follow the probe output (regardless of the threshold). A digital counter can be provided to determine the frequency of the probe oscillator. A reference counter can also be provided to tune the count (frequency) from the probe oscillator counter to thereby compensate for drift.

Abstract: Continuous measurements are made of a characteristic of the individual components of green liquor fed to a slaker and white liquor exiting from the slaker. The liquor component measurements provide a precise characterization of the liquors allowing for a more efficient control of the causticizing reaction in the kraft process. The individual component measurements are provided as inputs, along with certain ambient measurements, to a non-linear controller. The controller produces a causticizing control signal which is used to control the amount of lime introduced to the slaker. The controller is adapted to a particular process installation through the application of data collected from that installation. The controller, for example a neural network or fuzzy logic controller, produces a causticizing control signal according to unique parameters developed for the specific installation.

Abstract: A modular ozone distributing system for producing and distributing ozone to an air duct network of a building. The ozone distributing system includes an ozone generating unit for producing ozone from oxygen containing air and one or more ozone distributing units mounted to and in fluid communication with the air duct network connected to an HVAC system. Ozone produced by the ozone generating unit is delivered to each ozone distributing unit through a conduit. Each ozone distributing unit includes a high-speed blower which receives conditioned air from the air duct network and mixes it with the ozone delivered from the ozone generating unit for distribution into the air duct system. Control of ozone production by the ozone generating unit and distribution by the ozone distributing unit is provided by operation of the HVAC system.

Abstract: A catalyst packing apparatus with which a desired packed density can be easily and surely obtained by use of a suspended type catalyst ejector, wherein correlated data giving a scattering height from which a desired packed density can be obtained has been determined and stored beforehand in a memory part 74, and by setting a desired packed density, prior to the scattering of catalyst, a selecting part 75 selects a scattering height corresponding to the desired packed density from the correlated data in the memory part 74 and delivers the same to an adjusting part 76 which controls the catalyst ejector 30 so as to obtain this scattering height, thereby the catalyst 11 in a reaction tower 10 can be packed at the desired packed density.

Abstract: A microbial decontamination system includes a chamber for housing items to be decontaminated as well as a source of one or more iodine-containing fluids that are conveyed to the chamber as necessary. The system also includes a detector element for monitoring the concentration of free iodine within the chamber. A signal representative of the free iodine concentration is conveyed to a controller element which communicates with receptacles for housing the iodine-containing fluids so that additional iodine-containing fluids may be added to maintain the free iodine concentration within the chamber at a desired level.

Abstract: An exhaust gas sensor has first and second sensor elements. Exhaust gas surroundings of the first sensor element are catalytically activated, so that an oxygen partial pressure which is in equilibrium will always be measured by the first sensor element, regardless of the conversion capability of a catalytic converter. The exhaust gas surroundings of the second sensor element are separate from the exhaust gas surroundings of the first sensor element, so that the exhaust gas surroundings of the second sensor element are not catalytically active. As a function of the conversion capability of the catalytic converter, the second sensor element measures either an equilibrium oxygen partial pressure or a free oxygen partial pressure, which are of different magnitudes. A malfunction of the catalytic converter is detected by comparing measurement signals of the first and second sensor elements.

Abstract: An apparatus for destroying bacterial pathogens including at least one pair of electrodes secured in a housing configured to constrain flow of water through the region between the electrodes. In one construction, the electrodes are supported in a tube with sides of each member of an electrode pair conforming to the inner surface of the tube and electrode surfaces form a slotted space through which the water passes. In another constrcuction, one electrode is a tube and the other electrode is a rod supported concentrically inside the tube. The treated fluid passes axially through the space between the electrodes. A conductivity meter and flow meter applies a conductivity signal and a flow rate signal to maintain the field in a value that is not too excessive so as to prevent undesired reactions.

Abstract: A wet scrubber control system is configured with a pH sensor and a conductivity sensor in the return solution, and with a conductivity sensor in the feed solution. Concentration of the scrubbing agent within the feed solution is determined using the conductivity of the feed solution, corrected by subtracting a bias therefrom. The bias is established by first measuring the concentration of scrubbing agent in the return solution using the pH sensor. An expected conductivity of the return solution is then looked-up. The bias is set as the difference between the expected conductivity of the return solution and a measured conductivity of the return solution.

Abstract: An apparatus is disclosed for purifying the exhaust gas of a diesel engine by reducing the contents of soluble organic fractions which are particulates. The apparatus comprises a catalyzer provided on an exhaust pipe, a cooler provided around either a portion of the pipe between the catalyzer and the engine or the catalyzer in itself for cooling the gas flowing through the pipe, a temperature sensor for detecting the temperature of the gas flowing through the pipe, a tachometer for detecting the rotating speed of the engine, a load sensor for detecting the load on the engine, a controller for controlling the cooler on the basis of the respective detection outputs from the sensors.

Abstract: For the testing and cleaning of instruments (20) with continuous channels (25) for minimal invasive surgery or minimal invasive examination of body cavities, use is made of a testing and cleaning tray (10) for the instruments (20), which testing and cleaning tray (10) has flushing channels (30; 31), and of a holder arrangement (41) which receives this tray (10) and has attachments for each flushing channel (30). A fluid source (47) is connected via a distributor (56) to valves (57) and to the attachments of the holder arrangement (41). Using a throughput testing device (46; 55), the channels (25) of the instruments (20) are tested for penetrability individually or in groups one after another by means of fluid from the fluid source (47) being conveyed to the channels (25).

Abstract: An exhaust gas purifier includes a filter for collecting particulates, a heater for firing collected particulates, a blower for feeding air, and a controller for controlling power supplied to the heater and air flow rate of the blower. The air flow rate is varied in a regeneration period for improving the regeneration efficiency and for protecting the filter. In one embodiment, the air flow rate is initially reduced in the burning period and increased after burning in the radial direction at the downstream portion of the filter. The burning propagation speed, the heat generation and the increase of the temperature of the filter are limited by suppressing the air flow rate in the burning period. The particulates remaining in the downstream portion of the filter due to the suppressed air flow rate supplied in the burning period can be burned subsequently by supplying an increased air flow rate after the burning period.

Abstract: A wet oxidation apparatus includes a device for raising the pressure of liquid oxygen; an evaporator for evaporating the liquid oxygen; a device for supplying nitrogen including a compressor for compressing atmospheric air and for supplying the compressed air to a first mixer, a storage container for storing liquid nitrogen; a device for raising the pressure of liquid nitrogen; a second evaporator for evaporating the liquid nitrogen; the first mixer located for mixing the evaporated oxygen and nitrogen; a second mixer for mixing the resultant gas with waste water to be treated, and a reactor for receiving the mix of gas and water.

Abstract: An apparatus and method for monitoring the product quality of chlorine in which a sample stream of chlorine is taken from a chlorine stream and a portion of the sample stream is passed to one of three different analyzers for detection of various contaminants. A common data acquisition network receives data from each analyzer for integration and output. The analyzers include a bromine in chlorine analyzer, a non-condensable gas in chlorine analyzer, and a halocarbon in chlorine analyzer.

Abstract: A method and system for disinfecting air in ventilation ducts, using a non-poisonous and substantially non-volatile disinfectant. The disinfectant is vaporized by micro-vaporizer, and ionization electrodes ionize the air and the disinfectant particles. An ozone sensor is located downstream of the ionization electrodes and emits a signal to a controller, which controls the voltage at the ionization electrode, and thus the production of ozone is controlled.

Abstract: The invention comprises an apparatus for optimizing the dosage of a chemical waste water treatment agent using a fluorescent tracer by processing a sample of the waste water stream and allowing continuous on-stream monitoring of the performance of the chemical waste water treatment agent. The apparatus is comprised of a series of components that sample the waste stream, process the sample for analysis, analyze the sample, record the data in a historical database and, based upon the analysis as compared to historical data, adjust the chemical feed system to optimize the chemical waste water treatment agent according to the programmed optimization logic.

Abstract: The method of continuously controlling pH of an acid scrubbing liquid includes continuously withdrawing a constant partial stream from the scrubbing liquid; continuously measuring a pH in the partial stream with a glass electrode; adding base at a first rate to the partial stream upstream of the glass electrode and continuing the adding until the measured pH is in a pH set-point range of from 2.5 to 11.5; after the pH is in the pH set-point range, changing the first rate of adding base to the constant partial stream to compensate any subsequently occurring pH deviations; during the changing of the first rate of base addition, measuring the first rate of base addition to obtain a measured first rate; and automatically controlling a pH of the acid scrubbing liquid using the measured first rate as a controlling parameter by selecting a rate set-point range of the first rate of adding base to the constant partial stream so that the measured pH can be brought into the pH set-point range of from 2.5 to 11.

Abstract: A method for metering a reagent into a flowing medium includes adjusting a quantity of a reagent to be metered per unit of time into a flowing medium as a function of a thickness of a reaction zone in a catalytically active material. An apparatus for metering a reagent into a flowing medium includes a control unit, a device associated with the control unit for detecting a thickness of a reaction zone, and a metering device associated with the control unit for introducing a reagent into a flowing medium upstream of a catalytic converter as seen in flow direction of the medium. The control unit adjusts a quantity of the reagent to be metered into the flowing medium per unit of time by the metering device, as a function of a thickness of the reaction zone.

Abstract: A machine for synthesizing oligonucleotides has individual pumping modules for connection to each of a number of different monomers and to other fluids used in the synthesizing process. Each pumping module includes a pump and a three-port/three-way valve with the first inlet port connected to receive the fluid, and the second port connected to receiving a flushing agent, such as acetonitrile. A valving arrangement downstream from the pumping modules selects a monomer. The selected monomer and other fluids pass through flow sensors which provides signals to a controller, which uses these signals to regulate the pumping of the pumps. At least some of the valves allow multiple inlet ports to be kept open at the same time, thus allowing certain of the liquids to be mixed within the valves. The various pumps, valves and sensors are mounted to the exterior of a cabinet and arranged such that the liquid handling portions are exterior to the cabinet, while electrical portions are within the cabinet.