Abstract: An analyzing apparatus has a partition dividing the interior of a housing into a lower space accommodating a power supply/control unit which generates heat and a duct and an upper space accommodating other units. Heat generated by cooling devices is exhausted to the exterior of the housing through the duct while the heat generated by the power supply/control unit is otherwise exhausted to the exterior. This construction makes it possible to achieve an improved heat exhaust efficiency and efficient cooling of a reaction unit provided in the upper space of the housing. A cover holding mechanism includes at least one each spring cam hinge and friction hinge.

Abstract: The present invention concerns a gas/liquid(s) separation system constituted by three different sections: a primary separator (1) for flows with a G/L in the range 0.1 to 10; a secondary separator (2) for flows with a G/L in the range 10 to 50; a system (3) which limits the formation of a liquid vortex; where G/L is the ratio of the gas to liquid mass flow rates.

Abstract: An apparatus for printing a biomolecular droplet onto a substrate using an electric charge concentration effect includes; an electric field forming electrode including an accommodating area in which the biomolecular droplet including micro magnetic beads is accommodated and a nozzle formed on an end of the accommodating area through which the biomolecular droplet is discharged, a substrate disposed below the electric field forming electrode, including a grounded target surface onto which the biomolecular droplet discharged from the nozzle of the electric field forming electrode is deposited, a magnet disposed below the substrate which applies a magnetic force on the micro magnetic beads, and an open circuit type voltage applying unit electrically connected to the electric field forming electrode which applies a charge to the electric field forming electrode which generates an electrical force which causes the biomolecular droplet to be ejected onto the target surface of the substrate.

Abstract: The carbon dioxide absorbent contains a lithium-containing oxide, an alkali halide, has a high carbon dioxide absorption capability, and sufficiently maintains the carbon dioxide absorption capability even in repeated used for absorption and desorption of carbon dioxide.

Abstract: The invention relates to a method and installation for the dry fractionation of edible oils and fats and related products, said method comprising the steps of: a) solidifying the product in a crystallizer comprising at least one cooling chamber that is provided with at least one wall permitting heat transfer, to form a solid block of crystallized material; b) discharging the chambers and collecting the block; c) crushing the block so that a pumpable paste is obtained; d) pumping this paste into a filter press; e) separating this paste into an olein fraction and a stearin fraction by filtration and collecting both fractions.

Abstract: The present invention relates to a method of producing high-density polyidimide (HPI) films and its production equipment. The production equipment comprises a raw material supplying means, a vacuum cavity, an energy supplier, a clad laminator, and a baked solidified polymer. The foregoing components constitutes the production equipment, using the monomer with the CONH bond or copolymer as raw materials to extract the unsaturated C?N bond by heat, electrons, light, radiation rays or ions as energy under low-pressure environment, so that the H in vacuum can extract the non-solidified HPI film from the electronic radical covalent polymers and via heat or light to rearrange the structure into a solidified HPI film. By means of the method according to the present invention, the original HPI that is not easily to produce as a film can be easily made in form of a film of HPI polymer on the clad laminator.

Abstract: A system for the rapid characterization of multi-analyte fluids, in one embodiment, includes a light source, a sensor array, and a detector. The sensor array is formed from a supporting member into which a plurality of cavities may be formed. A series of chemically sensitive particles are, in one embodiment positioned within the cavities. The particles may be configured to produce a signal when a receptor coupled to the particle interacts with the analyte. Using pattern recognition techniques, the analytes within a multi-analyte fluid may be characterized.

Abstract: The present invention relates to a device for binding molecules, molecular groups, molecular parts and/or cells contained in a liquid to target structures, the device having at least one object holder with at least one target structure firmly held therein and which contacts at least one duct made of at least one material. One aperture of the duct is a liquid inlet aperture, and a second aperture is a liquid outlet aperture. At least one object holder thermostat is used for cooling the object holder.

Abstract: Partitions for columns for the separation of components or chemical reactions are assembled from plates or wall elements provided with plug and clamp connectors along respective edges and formed by strips so that the partitions can be easily and safely assembled and disassembled.

Abstract: A storage device for the preservation of oxidizable materials includes a storage chamber enclosing a storage space adapted to receive oxidizable materials for storage therein. The storage device also includes a zeolite chamber having a zeolite therein, the zeolite chamber allowing at least one selected gas to pass therethrough while inhibiting at least oxygen from passing therethrough. The zeolite chamber is in fluid communication with the storage chamber such that the at least one selected gas allowed to pass through the zeolite chamber flows into the storage chamber. An air mover feeds gases to the zeolite chamber, and the level of oxygen within the storage chamber is reduced relative to the level of oxygen in the atmosphere.

Abstract: A process and apparatus to deliver both process chemical and solvent for cleaning the process chemical in a solvent purge refill system along with an integral solvent sorption module, in a single “assembly” that permits ease of shipping, minimal end-user interaction, sufficient solvent for the solvent purge operation, without residual solvent, requiring disposal. This eliminates customer handling of the solvent, and eliminates the customer's need to find a solvent waste facility, as residual solvent can be returned in the same package in one piece/one step.

Abstract: A method of removing inorganic contamination from dielectric condensate precursor fluids and silicate esters, such as tetraethylorthosilicate (TEOS), methyltriethoxyorthosilicate (MTEOS), hydrogen silsesquioxane (HSQ), methyl silsesquioxane (MSQ), polyarylene ether, benzocyclobutene (BCB), or OSG, includes obtaining a commercial grade fluid having up to 10,000 ppb individual metallic contaminants; converting the sodium form of one or more macroporous ion exchange resin beds to a hydrogen form; converting the chloride form of one or more macroporous ion exchange resin beds to a hydroxide form; drying the macroporous ion exchange resin beds to remove substantially all water from the ion exchange resin beds; passing fluids through the ion exchange resin beds one or more times by recirculating all or a portion of the fluid to obtain a purified fluid having less than 1 ppb of individual metallic contaminants, less than 10 ppb of boron contaminants, and less than 1 ppb of chloride contaminants; and collecting the p

Abstract: Method and apparatus for mixing small volumes of reaction components. In one application, a plurality of removable vessels are placed in a parallel reactor, and reaction components are delivered to each vessel. An impeller is rotated in each vessel to mix the components. Each impeller has a rotary shaft and at least one blade on the shaft for placement in the reaction components. The blade is dimensioned so that one rotation of the impeller causes the blade to sweep out a sweep volume representing a large amount of the fill volume of the vessel.

Abstract: The present invention refers to a device and a procedure for the collection and initial preparation of tissue/blood or other sample of nucleated or DNA-containing cells or cell components for molecular genetic investigation. The invented device for the collection and initial preparation of samples of DNA-containing cells includes a sample receiving container and means for the collection of the sample, which is introduced into the sample receiving container after collection of the sample and seals this tightly. The sample receiving container has a base and side walls, is closed with a easily penetrable lid and has—in an area of the side walls of the container removed from the base—means to secure the introduced sample collection tool; in the container are substances to protect from DNA-degrading enzymes.

Abstract: A water purification device, method and system with the water purification device having a container for holding a water purification material therein with the water purification device including a shroud extending in a direction generally normal to a flow of debris laden water with the shroud inhibiting direct flow of debris into a water inlet in the water purification device by directing water and debris over the shroud and around the water purification device while a portion of the water can be directed laterally into the water purification material within the water purification device to thereby purify the water that flows over the water purification materials with the water purification device including multiple spaced and positioned water inlets so that the likelihood of the water inlet being completely obstructed is remote.

Abstract: A method of disrupting biological material includes drying particulate material, mixing the material with a gas under pressure, releasing the pressure explosively and collecting the resultant product. The biological starting material is any particulate material and includes: cells with membranes, cells with rigid cell walls, non-cellular biological material, intra-cellular material, and unbounded homogenous material. Apparatus for batch, semi-continuous and continuous operation of the method is provided. Included is a chamber with at least one inlet valve and at least one outlet valve and collection means. The chamber is capable of withstanding at least 800 bar, preferably 30 bar pressure. The particle size of the starting material is in the range 0.1 to 2000 &mgr;m and of the resultant product, less than 2 &mgr;m.

Abstract: A process for the long-term preservation of DNA molecules and a packaging for practicing the same provides for extraction, purification and dehumidification of the DNA by any suitable technique carrying out an encapsulation in a sealed corrosion-proof metallic capsule of the DNA molecule.

Abstract: A gas purifying system includes a water spraying system, and a collecting apparatus installed downstream of the water spraying system. The collecting apparatus has a surface composed of an electron emitting material, and the electron emitting material is capable of emitting electrons when subjected to visible light, ultraviolet light or electrical energy. The system can also include an ultraviolet lamp, with an ultraviolet photoelectron emitting material surrounding the ultraviolet lamp. The ultraviolet lamp and the ultraviolet photoelectron emitting material are positioned between the water spraying system and the collecting apparatus.

Abstract: Polybutylene terephthalate having good heat stability and excellent hydrolysis resistance is continuously produced in a series of a first reactor for reacting an aromatic dicarboxylic acid comprising terephthalic acid as a main ingredient or a derivative thereof with a glycol comprising 1,4-butanediol as a main ingredient, thereby producing an oligomer with an average degree of polymerization of 2.2 to 5, a second reactor for polycondensating the oligomer from the first reactor, thereby preparing a low polymerization product with an average degree of polymerization of 25 to 40, and a third reactor for further polycondensating the low polymerization product from the second reactor, thereby producing a high molecular weight polyester with an average degree of polymerization of 70 to 130, or followed by a fourth reactor for further polycondensing the polyester from the third reactor to an average degree of polymerization of 150 to 200, thereby producing a high molecular weight polyester.

Abstract: A gas purifying system including a water spraying system, and a collecting apparatus installed downstream of the water spraying system. The collecting apparatus has a surface composed of an electron emitting material, and the electron emitting material is capable of emitting electrons when subjected to visible light, ultraviolet light or electrical energy. The system can also include an ultraviolet lamp, with an ultraviolet photoelectron emitting material surrounding the ultraviolet lamp. The ultraviolet lamp and the ultraviolet photoelectron emitting material are positioned between the water spraying system and the collecting apparatus.

Abstract: The invention relates to a method in autoclaves, the autoclave being divided into imaginary areas, the areas being heated by the feeding of steam into the areas in order to heat goods which have been placed in the autoclave so that it reaches sterilising temperature, whereby the feeding of heat between the areas is controlled. Such control is effected by successive registration of the temperatures in the areas and when the temperatures differ between the areas, the feeding of steam to the area which temporarily has a higher temperature is ceased, and as soon as the temperature in the adjacent area has passed the last mentioned temperature, the feeding of steam to that same area is resumed. In a device for the carrying out of the method, a temperature meter is arranged in each area.

Abstract: Disclosed is a process and apparatus for treatment of liquid. Liquid is introduced into a reaction vessel (10) and rises inside a first chamber (12) of the reaction vessel (10). The liquid is led out of the first chamber (12) downwardly along an outer surface (40) of the first chamber (12) in a thin film into a second chamber (14). In a third chamber (16) energy for raising the internal energy of the liquid is supplied to the liquid by means of an energy supply device (30). The treated liquid is withdrawn from the reaction vessel (10). The energy supply device includes an ultrasound-emitting transducer in which a piezoceramic disc (82) is supported via an elastic seal (84) between a pot-shaped housing member (78) and a sleeve (80).

Abstract: The invention relates to melting pots provided with silicon protective layers, a process for applying the silicon protective layer and the use thereof.

Abstract: Apparatus for a process using supercritical fluid includes a pressure vessel including an agitator for mixing a batch of materials therein; a source of process media supplied to the pressure vessel in a supercritical state; first delivery devices for introducing into the pressure vessel batch materials that are mixed in the presence of the process media in a supercritical state to produce a reaction mixture based on a selectable reaction process; a receiver vessel; and second delivery devices for controlling transfer of the reaction mixture to the receiver vessel; the source comprising a tank for holding a selectable mass of the process media in a supercritical state and for supplying the process media on demand during the reaction process and during delivery of the reaction mixture to the receiver vessel.

Abstract: A treatment apparatus for analyzing the impurities in silicic material with high precision, includes a container having an inner space in which at least one analysis sample container and a sample decomposing solution are accommodated. The container is divided into a lid body and a lower body, each of the lid body and the lower body being opened at the division surface side thereof to form an open end and being closed at the surface side opposite to the division surface side to form a close end thereof. The inner peripheral surface of the open end of the lower body is formed in a stepwise shape so that the analysis sample container is disposed to be spaced from the surface of the decomposing solution which is stocked in the lower body, and the inner peripheral surfaces of the lid body and the lower body are smoothly continuously threadily engaged with each other through abutment faces thereof to keep the container in an appropriate hermetic level.

Abstract: Apparatus and method for producing a defined size distribution of polynucleotide fragments having a selected mean size range between about 100 and 20,000 base pairs. The method includes passing a suspension of polynucleotide fragments through an apparatus containing a capillary with an orifice near the outlet end of the capillary.

Abstract: Process and apparatus for packaging beverages such as fruit juice provides plastic pouches filled with juice and sealed to form containers that are shelf stable for extended periods. The process involves limited heating, holding and cooling times for the juice. Preferred film for the pouches includes a multilayer construction having a barrier core and heat sealable outer layers.

Abstract: There is provided a hydrogen peroxide removal equipment which has a high capability for removing hydrogen peroxide and is able to cope with variation in amount of a hydrogen peroxide containing waste water and variation of a hydrogen peroxide concentration occurring in a semiconductor plant. A tank 51 is internally provided with a first decomposition section 16, a second decomposition section 17 and a third decomposition section 8 which are constituted by combining a charcoal 9 and a plastic material 10 having a void capable of allowing water and gas to pass therethrough. The first and second decomposition sections 16 and 17 are provided below the level of an outlet port 42 and arranged on both sides of a vertical partition plate 13 located apart from a bottom plate 51E. The third decomposition section 8 is provided above the level of the outlet port 42 and arranged above the first and second decomposition sections 16 and 17.

Abstract: Described is an improved process for fragmenting a biomaterial and isolating and recovering a component thereof. The preferred improved process includes the step of performing the fragmentation by nebulizing a liquid medium containing the biomaterial. A preferred process for fragmenting isolated DNA includes the step of nebulizing a fluid containing the DNA. This preferred process provides randomness superior to prior known DNA fragmentation methods, as well as other important advantages. An improved nebulization device is also described.

Abstract: Described is an improved process for fragmenting a biomaterial and isolating and recovering a component thereof. The preferred improved process includes the step of performing the fragmentation by nebulizing a liquid medium containing the biomaterial. A preferred process for fragmenting isolated DNA includes the step of nebulizing a fluid containing the DNA. This preferred process provides randomness superior to prior known DNA fragmentation methods, as well as other important advantages. Improved nebulization devices are also described.

Abstract: A method for cleaning a mixture of air and vapour from volatile crude oil with recovery of the hydrocarbons, wherein the vapours are absorbed in an absorption means (3) by direct contact with a petroleum distillate, such as "petroleum" which has been cooled sufficiently beforehand to cause combined cooling condensation and absorption of the hydrocarbons, the petroleum distillate having a substantially constant hydrocarbon concentration is transferred from the absorption means (3) to a buffer tank (5), from which it is conveyed either to a stripping means (4) in which the hydrocarbons dissolved in the petroleum distillate are stripped so that the petroleum distillate circulates in a substantially closed circuit, or for further processing or use. Prior to absorption under pressure in the absorption means (3) the entering mixture of air and vapour is compressed in a compressor (1) and washed with crude oil under pressure in a washing column (2).

Abstract: An apparatus for producing amorphous particle dispersions of high-melting microcrystalline solids in a continuous process. The apparatus comprises a pump, two heat exchangers, a back-pressure valve and conduits connecting them, whereby it is possible to make aqueous dispersions of particles whose melting points are above 100.degree. C.

Abstract: Disclosed is a system for sequestering carbon dioxide by combining sub-cooled carbon dioxide gas phase and liquid water (fresh or salt) in a reactor to form carbon dioxide clathrates in a continuous process at pressures from 3 to 20 atmospheres. The seawater feed for the clathrate reactor is pumped to the surface from a depth of approximately 1000 meters. A slip stream of the reactor feed water is used to pre-cool the carbon dioxide gases. The pre-cooled gaseous, or liquid carbon dioxide and the reactor surfaces are then sub-cooled by refrigeration to temperatures of -40.degree. C. to 0.degree. C., which is typically only 5.degree. to 45.degree. C. below ambient sea water temperatures at depths of 1000 meters. Forming clathrates in this manner is considerably less energy-intensive than CO.sub.2 compression and liquefaction at high pressures.

Abstract: Fluorine is recovered as calcium fluoride from a fluoroetchant solution composed mainly of hydrogen fluoride and ammonium fluoride using a sealed reaction tank equipped with a supply port for adding the fluoroetchant solution to the tank, a supply port for adding calcium carbonate to the tank, a vapor supply port for adding steam to heat the solution in the tank, an air supply port for providing air to aerate the contents of the tank, a stirrer for stirring the contents of the tank, an ejector for removing vapors from the tank connected to the tank via a mist separator for separating mist from the vapors being removed from the tank, and an exhaust port for removing calcium fluoride from the tank.

Abstract: A stocker for accommodating, storing or transporting articles in clean, contamination-free conditions for either a long time or temporarily. The stocker has a particle collector provided in a part thereof. The particle collector includes an irradiation source such as ultraviolet light source, and a photoelectron emitting material that emits photoelectrons on irradiation with irradiation energy from the irradiation source. The particle collector further includes an electric field forming electrode, and a charged particle collecting material. The space where the particle collector is provided is preferably partitioned from the other space of the stocker by an irradiation energy screening material.

Abstract: An ultraviolet fluid disinfection system including:one or more fluid flow passageways,one or more modules located in each passageway, each module having one or more rows of ultraviolet lamps, positioned to irradiate the fluid with ultraviolet,a lamp control assembly connected to each row of lamps to monitor data from and control operation of the lamps,a power distributor connected to the lamp control assemblies,a data interface connected to the lamp control assemblies, anda data control assemblies connected to the data interface and to the lamp control assemblies to read data from the lamp control assemblies and communicate with the data interface.

Abstract: An ultraviolet liquid sterilization system including an ultraviolet light source. Provision is made for gravity feeding a liquid to be sterilized past the ultraviolet light source to expose the liquid immediately to the light to sterilize the liquid without the need for a pump, or pressure.

Abstract: The present invention relates to a device for preparing a photographic liquid which is to be applied in the manufacture of a photographic photosensitive material wherein multiple layers of photographic liquids are applied simultaneously. The present invention has at least one chemical measuring station which measures various kinds of chemicals sent from chemical storage tanks and prepares a photographic liquid which is to be applied to a film, supplies the measured chemicals to a pot and a conveys the chemicals in the pot to a hopper from which the chemicals are supplied to a liquid preparation tank.

Abstract: An apparatus for conducting a highly sensitive assay is provided wherein the level of a specific material is detected using a reaction which produces a detectable substance such as a colored dye or a fluorescent material in proportion to the concentration of the material being detected and which is carried out on an absorbent detecting layer comprising a superabsorbent polymeric material. The use of the superabsorbent polymeric materials greatly increases the sensitivity of the assay in a manner not achieved in the prior art because these polymeric materials are an excellent medium for the detection of the color changes caused by the reactants in the assays. These superabsorbent polymers offer increased sensitivity of up to about ten times greater than that which was possible using conventional backing materials as the absorbent layer in assays. The present invention comprises a quick, inexpensive, and accurate means for testing materials such as alcohol with a sensitivity that approaches 0.001% (w/v).

Abstract: In a device for metering at least two fluid reaction components into a mixing chamber, flexible displacement elements (1, 2; 47, 48, 49, 50) are provided in each container chamber (43, 44, 45, 46) which divide each container chamber (43, 44, 45, 46) into a component chamber (12, 13; 51, 52, 53, 54;) and a hydraulic chamber (16, 17; 55, 56, 57, 58), whereby the flexible displacement element (1, 2; 47, 48, 49, 50) for each component is acted on by a hydraulic flow which can be pre-specified and also regulated during the metering procedure in its magnitude and duration by a control-regulation device (3 or 4).

Abstract: A mixture of mercury and red phosphorus obtained by flowing an aqueous solution having at least one mercury salt dissolved in it through a layer of granular red phosphorus in a column arranged in upright position and provided, close to its lower end, with means supporting the layer of red phosphorus, is separated into its constituents. To this end, fluidizing matter is forced from below under pressure over a period of 5-30 minutes through the said means and layer of red phosphorus thereon, the mercury/red phosphorus-mixture covered with solution and provided with flow deflecting paths becoming lifted up; mercury dropping from the mixture so lifted is collected over a period of 5-30 minutes on the supporting means; fluidizing matter is forced from above under pressure over a period of 1-20 seconds into contact with the said mixture; and the mercury running down from the supporting means is collected. Apparatus for carrying out the process.

Abstract: An improved transport container for semiconductor wafers includes chamber structure of sheet material with structure in the chamber for supporting the semiconductor wafers. The chamber includes a first access door portion through which the semiconductor wafers may be introduced into and removed from the chamber, a coupling for attaching the chamber to a source of inert gas for flowing inert gas through the coupling to create a positive pressure in the chamber, and a port spaced from the coupling for continuously releasing gas from the chamber preferably at a rate in the range of one-half to ten cubic centimeters per minute so that the wafers are exposed to a flowing, low but positive pressure inert gas environment during storage and transport.

Abstract: This process of preparation consists in subjecting said placental tissue after pressing, grinding and washing in a neutral and acid medium to a treatment in alkaline medium at a temperature less than or equal to 10.degree. C. and in then subjecting the portions of collagen solubilized during this treatment, as well as the collagen solutions resulting from an eventual subsequent treatment for the solubilization, at least partial, of the insoluble residue, to purification by chromatography on an anion exchange resin, at a temperature less than or equal to 10.degree. C., followed with fractional precipitation of the collagens by salts in acid medium.The human collagenous materials obtained can be used as biomaterials in biotechnology and in pharmacy and are perfectly immunologically innocuous for the human species.

Abstract: A tubular container is traversed axially by a gas tube the interior of which is continued beyond the end enclosure of the container. The gas tube is provided with apertures filled with metal wool and closed by a compacted ceramic wool plug. The interior of the container is compartmentized by a plurality of bulk head like annular partitions each having a cylindrical inner flange and a cylindrical outer flange, whereby the inner flanges sit tightly on the gas tube and the outer flanges bear tightly against the inside wall of the tubular container. A single vessel may be traversed by heat exchange tubes, or a bundle of such vessels may be immersed in heat exchange fluid.

Abstract: A process and product of waste recovery at phosphorus furnaces is disclosed wherein small sized discrete particles of carbonaceous material or beneficiated phosphate ore are mixed with a mineral acid, an alkaline fluid and water, and the reacted mixture is tumbled in a horizontal cylinder at a temperature below that at which the carbonaceous material oxidizes to form agglomerates which are then indurated to discrete particulate size as desired for a charge component; the agglomerates are fed to a phosphorus smelting furnace together with other materials needed to make elemental phosphorus, furnace gases are cooled with recirculating water, a side stream of the water is taken off, treated, and used as feedstock in fluid fertilizers. Apparatus is disclosed for agglomerating coke and phosphate and; further, for measuring the abrasion and shatter resistance of agglomerates.

Abstract: The present invention relates to a process for the reduction of the vinyl chloride content of aqueous dispersions of vinyl chloride polymers and copolymers by counter-current stripping with steam in a perforated plate column, by (1) adjusting the amount of steam introduced at the bottom of the column in such relation to the perforated area of an individual plate that the pressure drop across one plate gives a steam space between two adjacent plates of not more than 50 mm in height, such that the steam space is established just underneath the upper perforated plate and whereby the liquid layer is maintained above the lower perforated plate, and the liquid by bubbling steam therethrough, flushes the wall (surfaces) of the column in the steam space and said perforated plates to become clear of polymer particles; (2) the amount of dispersion fed to the top of the column and the amount of outgoing, stripped dispersion are adjusted in such relation to each other that at any time, the liquid layer is maintained well

Abstract: A hermetically sealed ampoule containing blood gas control fluid is provided wherein the fluid occupies the entire ampoule with no appreciable head space. The ampoule is provided with a plunger-like seal adapted to be directed against the contents of the ampoule and a pierceable seal through which may extend a hollow needle to act as a conduit for the contents upon expulsion from the ampoule. A syringe is also provided for expelling the contents from the ampoule.

Abstract: A process for recovering and using fines of flux, such as limestone, used in a metallurgical process, such as oxygen steelmaking, is described. The process involves collecting fines from a receiving zone, e.g., with blower and baghouse equipment. The fines so collected are then conveyed, as by a dense-phase conveyor, to a first processing zone containing a first screening means for screening flux material which is to be fed to the process. Material not passing through said first screening means is fed to the metallurgical-process vessel, but fines passed by the first screening means are collected and formed into briquettes. The briquettes are conveyed to a second processing zone which is located above the conveyor which leads from the receiving zone to the first processing zone mentioned above. The second processing zone contains a second screening means and means for storing and releasing to the said conveyor the briquettes or portions thereof which have not passed through said second screening means.

Abstract: High purity water distribution systems are purged and disinfected by incorporating an outlet purge line into the conventional recirculating loop of the prior art. The purge line communicates with each outlet opening of the high purity water system and means are provided for intermittently and sequentially purging the outlets.