Abstract: In an embodiment, a fluid collection device includes a fluid impermeable barrier that at least partially defines a chamber. The fluid impermeable barrier also defines an opening extending therethrough that is configured to be positioned adjacent to a female urethra or have a male urethra positioned therethrough. The fluid collection device also includes a channel extending between an inlet and outlet thereof. The inlet is configured to be in fluid communication with a gas source and the outlet is configured to be in fluid communication with a fluid storage container. The outlet is positioned downstream from the inlet. The channel also defines at least one aperture or passageway therein that allows an interior of the channel to be in fluid communication with the rest of the chamber.

Abstract: A compressor system (10) and an intake pipe (300) used for the compressor system (10), wherein the intake pipe (300) comprises: a lubricant separator (310), which is configured to separate a lubricant which is in a compression fluid flowing through the intake pipe (300); and a first lubricant supply pipe (340), which is configured to supply the separated lubricant to a first compressor (100) or a second compressor (200) in the compressor system (10).

Abstract: The present invention is intended to reduce noise or vibration occurring in an exhaust gas mixer, and provided with: a mixer main body that has a hollow part extending in an axial direction; an inner pipe part that is provided in the hollow part along the axial direction; a gas introduction part that is provided to the mixer main body, and introduces mixing target gas into a space to spiral the mixing target gas; and a gas lead-out part that is provided in the inner pipe part to lead out the mixing target gas, wherein a central axis of the inner pipe part and a central axis of the hollow part are provided in mutually different positions.

Abstract: A vacuum cleaner operable to separate debris from an air stream. The vacuum cleaner includes a first cyclonic separator and a second cyclonic separator having an inlet configured to receive the air stream from the first cyclonic separator. The inlet of the second cyclonic separator directs the air steam in an inlet flow direction from an upper end of the first housing toward a lower end of the first housing and along a longitudinal axis into the second cyclonic separator. The inlet of the second cyclonic separator has an inlet cross-sectional area for flow of the air stream measured normal to the longitudinal axis that decreases in the inlet flow direction.

Abstract: The present invention relates to an inertial separator for gas liquid separation, comprising: a tubular body (12) having an inlet (14) extending through a sidewall of the body (12) substantially in tangential direction, an annular duct (16) arranged inside the tubular body (12) and being in fluid communication with the inlet (14), wherein the annular duct (16) extends into an interior chamber (18) of the tubular body (12) via an annular gap (20) extending between an inside facing side wall portion (15) of the body (12) and a first insert (30; 50).

Abstract: A lidded cylindrical container having an inlet duct having an intake for connecting to gas flow having particulate or liquid, and an outtake for directing the as flow downwardly and tangentially across a wail of the container. An outlet duct is integrally connected around the inlet duct and having an intake opening into the inside of the lidded cylindrical container and an outtake adapted to move the gas flow away from the particulate collection device leaving the particulate within the lidded cylindrical container. The cyclonic particulate collection device is secured to the lidded container through a single opening in the lidded cylindrical container.

Abstract: An apparatus and method for separating a natural gas production stream from hydrocarbon well operations into a gas component and a sand and liquid component is described. More specifically, a sand separator comprising a cylindrical body, a production stream inlet port, a gas outlet port and a solid and liquid drain port is described. The cylindrical body has an inner cavity with an inner cone having one-way gas vents and a stationary auger wrapped around the inner cone. The production stream inlet port includes a pipe having a curved tip that directs the production stream into the body and around the inner cone and stationary auger, causing the production stream to slow down and the components to separate.

Abstract: A cyclone for separating sticky particles from gas streams includes an inlet duct having an end in a direction of a particle outlet. The end has a flow cross-section including a triangular expansion that is formed laterally by a vertical of a cylindrical outer wall of the cyclone and by art outer boundary of the cyclone. An outer angle of inclination between the vertical and the outer boundary, proceeding from the end of the inlet duct, is reduced from 30° to 0° in a flow direction of gas streams. An immersion tube is disposed eccentrically in a direction of the inlet duct.

Abstract: A centrifugal separator for separating liquid droplets from a gas flow can be used for scrubbing gases to be emitted into the atmosphere, as well as for separating water, oil and gas condensate droplets from a gas flow in any industry. The separator comprises a cylindrical body with axial gas flow inlet and outlet pipes and separated liquid removal sections located on the end surfaces of the body. A swirler and a central perforated pipe are installed in series and in axial alignment in the body from the gas inlet side. A conical displacer is installed in the perforated central pipe. Separation stage vanes are located between the central pipe and the conical displacer along the entire length of the displacer, and hydraulic seal vanes are placed at the same level between the central pipe and the body. The separator design provides a more efficient separation of liquid droplets from a high-velocity gas flow and can operate in any position.

Abstract: A vacuum cleaner comprising a cyclonic separating apparatus including a dirty air inlet, a main body connected to the cyclonic separating apparatus and a motor and fan unit for generating an airflow through the cyclonic separating apparatus from the dirty air inlet to a clean air outlet, wherein the cyclonic separating apparatus includes at least a first cyclonic cleaning stage and an elongate filter arranged fluidly downstream from the first cyclonic cleaning stage, the elongate filter being housed in a duct at least partially surrounded by the first cleaning stage, and wherein the filter comprises an inlet portion and a filter portion defining a generally tubular filter chamber, the inlet portion including one or more radially facing inlets to permit air to flow into the inlet portion in a radial direction from where the air flows from the inlet portion to the filter chamber in an axial direction.

Abstract: A muffler is provided that air or gas flows through to attenuate acoustic oscillations and reduce sound levels. An inner vortex and an outer vortex are created within the device that reduce noise within the rotating flow of gases. The gases flow in the outer vortex from an inlet in a live end of the housing toward a dead end of the housing. A projection is provided in the dead end of the housing that creates a low pressure area that causes the formation of the inner vortex flowing from the dead end toward the live end to an outlet.

Abstract: The present disclosure relates to a support bracket assembly and multiple support bracket assemblies supporting a series of interlocking ceramic elements. The interlocking ceramic elements form a cylindrical structure that is an important component of a cyclone separator. Several industrial plants have large cyclone separators such as power plants and cement plants where it is necessary to remove solids from a particle-laden gas stream. The support bracket assembly is comprised of five main components: two end plates, a middle support arm which is capable of supporting a ceramic element, and two horizontal flat bars that fit through the two end plates and the middle support arm.

Abstract: A cyclonic fluid separator has a tubular housing (10) in which the fluid is accelerated and swirl imparting means (2) for inducing the fluid to swirl through an annular space between the housing and a central body (1) mounted within the housing (10), which central body (1) is provided with resonance abatement means, such as: tensioning means (20,22) which apply a tension load to an elongate tail section (8) of the central body (1) such that the natural frequency of the central body (1) is increased; vibration dampening means (31,50,60), which inhibit vibration of at least part (8) of the central body (1); solid particles (31) arranged in a segmented tubular tail section (8) of the central body (1), a viscous liquid (50) arranged between a tubular tail section (8) of the central body (1) and a tensioning rod (51), apertures (60) drilled radially through a tail section (8) of the central body (1); and/or a low pressure fluid (80) injected through a central opening (82) in the central body (1).

Abstract: A contained vortices device that allows for the flow of air or gas into and out of the device. In the process of gases moving through the device, a vortex is created within the device that allows for the separation of heavier materials, reduction of the size of any particulates, and the expelling of particulates of a significantly smaller size than was introduced to the device.

Abstract: A cyclone for separating sticky particles from gas streams includes an inlet duct having an end in a direction of a particle outlet. The end has a flow cross-section including a triangular expansion that is formed laterally by a vertical of a cylindrical outer wall of the cyclone and by art outer boundary of the cyclone. An outer angle of inclination between the vertical and the outer boundary, proceeding from the end of the inlet duct, is reduced from 30° to 0° in a flow direction of gas streams. An immersion tube is disposed eccentrically in a direction of the inlet duct.

Abstract: A conventional dust-catcher for blast furnace gas comprises a pressure vessel, with a gas inlet and outlet dome (14), a separation chamber (16) and a lower dust hopper (18), and a diffuser pipe (26) extending axially through the gas inlet and outlet dome (14) into the separation chamber (16). To increase the separation efficiency of such a dust hopper (18), it is proposed to centrally arrange a flow deflecting chamber (50, 50?), having a smaller cross-section than the separation chamber (16), in the separation chamber (16), so that there remains an annular settlement chamber (52) between the inner wall of the separation chamber (16). The diffuser pipe (26) is connected to this flow deflecting chamber (50, 50?) so as to axially discharge a downward gas flow into the top end of the flow deflecting chamber (50, 50?), wherein this downward gas flow is deflected upward.

Abstract: A cyclone dust-collecting apparatus is provided. The dust-collecting apparatus is detachably mounted in a main cleaner body of a vacuum cleaner and disposed on a suction flow path extending from a suction port body to a suction source. The dust-collecting apparatus includes a body having an opened lower portion; at least one cyclone unit disposed to one side in the body to separate dust from air flowing into the body and discharge air from which the dust has been separated; and a bottom cover to open or close the lower portion of the body. The body has an inflow pipe penetrating the body from a rear portion of the body and connected to the cyclone unit and the inflow pipe has an inclined top surface.

Abstract: A cyclone dust-collecting apparatus is provided. The dust-collecting apparatus is detachably mounted in a main cleaner body of a vacuum cleaner and disposed on a suction flow path extending from a suction port body to a suction source. The dust-collecting apparatus includes a body having an opened lower portion; at least one cyclone unit disposed to one side in the body to separate dust from air flowing into the body and discharge air from which the dust has been separated; and a bottom cover to open or close the lower portion of the body. The body has an inflow pipe penetrating the body from a rear portion of the body and connected to the cyclone unit and the inflow pipe has an inclined top surface.

Abstract: A vent for a fluid system includes a chamber through which fluid can flow along either a first flow path or a second flow path, in which the resistance to fluid flow is relatively high when the fluid follows the first flow path and relatively low when the fluid follows the second flow path. In a preferred embodiment the chamber is substantially cylindrical and has two ports, one of which is substantially coaxial with the chamber and the other of which is substantially tangential to the chamber. The fluid flow, at least when flowing the first flow path, may include a component of higher density than the fluid, and the flow of fluid along the first flow path may act to separate the higher density component from the fluid.

Abstract: An inlet for an environmental air monitor is described wherein a pre-separator interfaces with ambient environment air and removes debris and insects commonly associated with high wind outdoors and a deflector plate in communication with incoming air from the pre-separator stage, that directs the air radially and downward uniformly into a plurality of accelerator jets located in a manifold of a virtual impactor, the manifold being cylindrical and having a top, a base, and a wall, with the plurality of accelerator jets being located in the top of the manifold and receiving the directed air and accelerating directed air, thereby creating jets of air penetrating into the manifold, where a major flow is deflected to the walls of the manifold and extracted through ports in the walls.

Abstract: A gas sampling separator 29 for the separation of liquid or other contaminants from gas received from a pipeline may be easily inspected visually and cleaned. A cylindrical body 62 forming a separation chamber 64 is threaded onto a base 40. A tube 68 within the separation chamber receives gas from a port in the base and directs the gas into the separation chamber for separation of the gas from the contaminants. The separated contaminants collect in a sump 58 formed by the base and may be vented upon actuation of a manually actuated valve 76.

Abstract: A cyclone dust collecting apparatus has: a cyclone body; a suction pipe extended to be protruded into the cyclone body by penetrating one side of the cyclone body in order to guide an air, which has been drawn into through a suction unit, into the cyclone body; a discharge pipe for guiding a clean air centrifugally separated in the cyclone body to an outside of the cyclone body; and a guide member for guiding the air, which whirls along a side wall of the cyclone body after being drawn into through the suction pipe, to a lower side of the suction pipe. According to the cyclone dust collecting apparatus of the present invention, a deterioration of suction force of the cyclone dust collecting apparatus is prevented, and thus a dust collection efficiency of the cyclone dust collecting apparatus will be improved.

Abstract: An enclosure for an air aspirating machine, such as a compressor 11 for a fuel cell drive 13, which represents a closed volume, so that said volume can be used acoustically for the air that is being drawn in. An air intake 17 is extended into the enclosure 12, which is made of a sound damping and absorbing material 18, so that the resonant cavity 19 acts as a series resonator. The air is drawn in via an air inlet 21 of the compressor 11. Alternatively, the resonant cavity can also be used as a parallel resonator in that the intake path for the air is sealed within the enclosure 12 and is provided only with sound communicating openings to the resonant cavity.

Abstract: A blade and skirt assembly for a directional gas cleaning and drying system which is typically installed in a gas pipeline for removing solid and liquid impurities from steam or a process gas such as natural gas in the pipeline. The directional gas cleaning and drying system is typically characterized by a vertical, cylindrical gas vessel having an annular interior adsorption surface. In a preferred embodiment, the blade and skirt assembly of this invention includes multiple, angled vortex blades extending horizontally outwardly from a central cone-shaped blade hub, with the edges of the vortex blades attached to the adsorption surface. A cone-shaped dispersal skirt of the blade and skirt assembly is typically fitted with multiple, radially-extending gas flow vanes and typically attached to the blade hub.

Abstract: An air inlet for a dust collector wherein a scroll inlet duct and an associated cylindrical duct are mounted on the top wall of the dust collector housing so that dust-laden gas flows into the scroll duct and through the cylindrical duct resulting in a rotational path of downwardly flowing gas within the cylindrical duct providing a centrifugal force on the gas so that when the dust-laden gas enters the collector housing it spreads outwardly toward the walls of the collector housing and downwardly resulting in a substantial cloud of uniform flow of dust-laden gas over the length and width of the collector housing to provide a uniform deposit of dust particles on the filters while precluding abrasion of the filter media. A perforated metal plate is positioned in the collector housing in proximity to the outlet of the cylindrical dust to facilitate the outward and downward flow of dirty gas in the collector housing.

Abstract: A cyclone, in particular a cyclone collector and a cyclone classifier having an arrangement disturbing the gas-particle flow in the inlet area of the inlet casing or in the cylindrical part of the housing. This flow disturber effects a deflection and dispersion of the dense material flow, whereby improved separation, in particular of the finest particles, is facilitated without significant reduction damage of the powder collecting efficiency. The flow disturber can be a prism-type flow disturber, a flap of a blowing arrangement.

Abstract: A mechanical fluid separator defines an interior chamber for centrifugally separating entrained media from a fluid stream. The mechanical fluid separator has a fluid inlet connecting the interior chamber with a media entrained fluid source. A cone shaped baffle disposed within the mechanical fluid separator defines a conical surface having a concave surface and a convex surface. The conical surface has an annular base side and an annular apex side. The base side terminates in a circumferential rim contacting the annular chamber surface above the fluid inlet and said apex side terminates in an apex annular hole. The fluid stream is centrifugally directed in a first direction about the annular chamber surface and the convex surface of the conical baffle to disentrain the entrained media from the fluid stream. The disentrained fluid stream then passes through a window in the cone shaped baffle and escapes through a fluid outlet.

Abstract: A steam processing apparatus and method in which a plurality of separators are disposed along the length of a cylindrical drum having inlet means for receiving a mixture of liquid and vapor and outlet means for discharging the separated liquid and vapor. The mixture is discharged against a baffle after which the separated liquid is passed to the drum liquid outlet and the separated vapor is passed upwardly by natural buoyant forces to the drum vapor outlet. The separators are disposed in a plurality of rows--two to each side of the axis of the drum along the length thereof.

Abstract: The air in which the oil particles are suspended is drawn from the environment through an air intake (4) as a result of the vacuum created by a centrifugal aspirator (11) and then passes along a substantially vertical duct (5) in which an internal helical element (6) causes the mechanical separation of the oil particles by centrifugal action due to the rotation of the air imparted by the helix, the oil particles collecting on the wall of the duct (5) from which they drain into a collecting hopper (2), after which the air is further filtered by an additional filter (9, 10) before reaching the delivery opening (13).

Abstract: Equipment takes in steam from a boiler and expands same to form water droplets. A baffle causes steam and droplets to swirl. Solubles are dissolved by droplets and insolubles separate. Both are collected by a receiver.

Abstract: A moisture pre-separator for the exhaust portion of a high pressure steam turbine is disclosed. The pre-separator mounts in the nozzle and adjoining piping of the exhaust portion and provides a first channel for capturing moisture caused by secondary flow and a second channel for capturing moisture flowing on the exhaust hood wall. Drains are provided for both channels.

Abstract: Apparatus for removing entrained liquid from a gas stream comprises a cylindrical casing (67) designed to be mounted so that its axis is substantially vertical. An inlet port (62) and a gas outlet port (63) are provided adjacent to the upper end of the casing and drain means (80) are provided at the lower end of the casing whereby separated liquid may be drained therefrom. A gas outlet tube (75) coaxial with the inner surface of the casing, extends downwardly from the upper end thereof, the outlet tube communicating at its upper end with the gas outlet port (63). A plurality of baffles (72) are arranged in an annulus around the outer surface of the outlet tube (75), the baffles being located downstream of the inlet port (62) and shaped to impart a spinning movement to the incoming gas stream. An impingement plate (77) is located downstream of the baffles and has an upper surface extending transversely across the path of the air stream leaving the baffles.

Abstract: A cyclone separator and an installation of such a separator in a processing vessel are set forth which conditions the inlet flow to prevent the depositing of particulates at the cyclone inlet. The separator is disposed in a cylindrical enclosure represented by the processing vessel. The enclosure has an inner surface and defines a chamber to receive the gas and entrained particulates. Disposed within the chamber is the smaller diameter cyclone separator having a cylindrical wall. To admit gas, the separator wall has an inlet, one side boundary of which is arranged tangential with the enclosure inner surface, the other side boundary being spaced from the surface to define an axially extending, scroll-shaped envelope between the enclosure inner surface, the cyclone wall and its inlet.

Abstract: A centrifugal separator for separating liquid and solid contaminants from flowing gas and for separating certain liquids from other liquids. The centrifugal separator finds novel application as a flow stabilization system wherein the separator vessel is coupled into a natural gas flowline upstream of flow measurement equipment to minimize fluctuations of flowing natural gas, which may contain solid and liquid contaminants. The separator vessel defines an internal fluidic column within which is developed rapid cyclonic gas flow activity for separation of any liquid and solid contaminants from the gas. The vessel also defines a sump for accumulating and/or draining contaminants separated from the flowing natural gas in the fluidic column. An outlet extends into the vessel positioning an outlet opening to receive only gas from the cyclonic circulation of natural gas.

Abstract: Steam turbine apparatus is disclosed as comprising first and second turbine sections having respectively an outlet opening and an inlet opening. The first or high pressure turbine section has a plenum wall adjacent its exhaust opening that collects water thereon. A crossover structure is disposed between the outlet opening and the inlet opening for transmitting a steam/water mixture to the second or low pressure turbine section. A hollow member having first and second openings at its respective ends, is associated with the first turbine section such that the first opening is sealed with respect to the outlet opening. The hollow member extends into the first turbine section and its second opening is dimensioned to shadow the outlet opening so that the hollow member captures and discharges the water contacting the adjacent plenum wall and to inhibit the steam/water mixture directed through the outlet opening from stripping and conveying the contacting water to the crossover structure.

Abstract: A separator apparatus has been invented which rapidly disengages catalyst from product vapor in the reactor discharge stream of a fluid catalytic cracking (FCC) apparatus. The separator apparatus comprises a flow diverter which comprises a frustum in which are spiral channels which induce a spin on the impacting stream and are sufficiently deep to contain a layer of catalyst. A position member is attached to the frustum base and apertures in the position member allow the flow of vapor to a bore and on to cyclone separators where final catalyst-vapor separation is made. Catalyst does not pass through the apertures and remains within a cylindrical separation chamber in flow communication with a dip leg which directs the catalyst to a stripper vessel in the fluid catalytic cracking apparatus. The separator apparatus is a solution to the vibration problem experienced in the use of rough-cut cyclones.

Abstract: Apparatus for removal of ash and the like from open fireplaces, ashpans etc. by means of a vacuum cleaner, said apparatus comprising an airtight ash container, an inlet pipe stub for ash and air and an outlet pipe stub to be connected with a suction source such as a vacuum cleaner, wherein the container comprises a barrel with a bottom and an easily mountable and dismountable cover or lid and wherein the lid or cover carries the inlet pipe stub and the outlet pipe stub.

Abstract: A separator for separating particles carried in a fluid carrying medium is disclosed. The separator includes an elongated duct and associated openings incorporated in a solid body. The duct is axisymmetrical relative to its longitudinal axis, and includes a curved wall portion having a curved cross-section taken along the longitudinal axis. An axisymmetrical opening located downstream of the curved wall portion leads from the duct into an axisymmetrical channel which is substantially radially disposed relative to the longitudinal axis. Continuation of the duct downstream of the opening is a discharge portion which is substantially colinear with the longitudinal axis. In operation, a substantial majority of the fluid carrying medium leaves the duct radially through the opening and channel in a state substantially free of particles.

Abstract: A cyclone with a tangential peripheral inlet and a central axial outlet is improved as to efficiency by inducting air between the inlet and the outlet. The inducted air is diverted by a baffle that temporarily separates it from the dust-laden inlet air, the baffle being arcuate in the same direction as the wall of the separation chamber, so that the inducted relatively dust-free air forms an inner layer and the dust-laden air forms an outer layer in the separation chamber. This promotes the separation of the dust on the inner side of the outer wall of the chamber and so facilitates separation of the dust from the air. A portion of the outlet air from which the dust has been separated can also be recycled in a stream disposed on the other side of the inducted ambient air.

Abstract: A hermetic refrigeration motor-compressor assembly includes a motor driving a compressor having suction and discharge ports. A hermetically sealed casing encloses the motor and compressor and has a gas inlet opening coupled by a conduit to the evaporator of the refrigeration system. A discharge conduit is coupled to the compressor discharge port and extends out of the casing to the condenser. The casing also encloses a suction muffler having a wall defining a chamber, the wall having inlet and outlet openings communicating with the chamber, the casing and muffler inlet openings being in closely spaced alignment to provide a semi-direct suction coupling. The muffler outlet opening is directly coupled to the compressor suction port. The wall of the muffler has another opening therein spaced from the inlet and outlet openings and communicating with the chamber. A passage in the muffler chamber extends between the inlet and other opening and has opposite ends respectively coupled thereto.

Abstract: A cyclone separator-type vacuum cleaner. The vacuum cleaner has a cylindrical housing having three sections. Each section of the housing is joined to an adjacent section by latches provided on the housing. By releasing the latches the internal mechanisms of the vacuum cleaner can be easily accessed for cleaning or maintenance. The vacuum cleaner has a first baffle that is funnel-shaped and a second baffle in the form of an outwardly-flared skirt member. The skirt member is attached at the base of the funnel-shaped baffle. The two baffles together form an exhaust path through their center through which the incoming air exits after the dirt has been separated therefrom. The funnel-shaped first baffle directs the incoming dirt-laden air inwardly in a circular path of decreasing cross-sectional area so that the speed of the circulating air is increased, causing centrifugal separation of dirt.

Abstract: An air dryer of a compressed air system includes a vertical cylindrical tank with a downwardly directed entry pipe therein having a terminal to form liquid droplets on the bottom thereof. The tank has a manual drain valve on the bottom. A baffle near the top finishes separating any liquid from the compressed air.

Abstract: In apparatus for vacuuming particulate matter an enclosed housing includes at least one inlet for ingress of particulate matter and at least one outlet enabling air to egress from the housing, the inlet and outlet being oppositely disposed. A fan is connected to the at least one inlet and one outlet to generate a partial vacuum within the housing, and a cyclone is connected to the at least one outlet removing secondary particulate matter contained in the particulate matter. A duct interconnects the cyclone and a region of the housing spaced therefrom for conducting air from the housing to the cyclone. A duct inlet in the form of a slit extends transversely across the housing in the region of the at least one inlet.

Abstract: The invention comprises an L-shaped tank which, in combination, has both a vertical, liquid-reservoir housing and a horizontal, filter housing through which compressed gas, which has liquid entrained therein, is conducted. The gas is guided in centrifugal travel through the vertical housing, to separate out the liquid, and then it passes through a filter, fixed within the horizontal housing about an apertured outlet pipe, also to separate any remaining liquid from the compressed gas. A plurality of baffles require the product gas to follow a circuitous or tiered path through the vertical housing, and the apertured outlet pipe is offset from the center of the horizontal housing to insure that the being-filtered gas uniformly addresses the outlet pipe.

Abstract: Improved apparatus for carrying out catalytic chemical conversion and restoring the catalytic activity of solid particles previously used to promote chemical conversion involve improved devices to at least partially separate solid particles-vapor mixtures. These improved devices include, for example, properly positioned arresting vanes, flow reversal systems and/or plates, and provide for reduced attrition of the solid catalyst particles.Improved methods employing such apparatus are also disclosed.

Abstract: A fluid separating apparatus in which an inlet is disposed in the upper portion of a substantially vertically oriented cylindrical housing for receiving a mixture of liquid and vapor. The mixture is separated in the housing by the application of centrifugal forces to the mixture and the liquid exits from the lower portion of the housing and the vapor rises and exits from the upper portion of the housing.

Abstract: An apparatus for separating liquid particles from a gas-stream by passing the gas stream through a curved tube so that the liquid is caused to concentrate along the inner surface of the outer wall of the curved tube. The concentrated liquid together with some gas is passed to a liquid collecting chamber. The liquid is drained from the liquid collecting chamber and the gas is returned from the liquid collecting chamber to the main stream.

Abstract: A cyclone separator having a central fluid conduit. An interceptor ring is externally attached to the end of the fluid conduit and has a surface which intercepts fluid flowing longitudinally along the outer surface of the fluid conduit and directs the fluid outwardly toward the interior wall of the container. Circumferential and longitudinal slots are located in the container in proximity to the interceptor ring to enhance the outward direction flow of fluid from the ring. A diffuser collar having a central opening therein is connected to the interceptor ring in a manner leaving an annular space or circumferential slots between the ring and the collar through which space unwanted materials.In an alternate version the diffuser collar is larger in diameter than the fluid conduit and the conduit extends into the diffuser collar forming a space therebetween by which an outer layer of fluid is skimmed from the spiraling column of fluid entering the fluid conduit to further cleanse the fluid of unwanted substances.

Abstract: A dust contaminated air stream enters a cyclone-type dust separator having a curved outer wall and follows a path that spirals downwardly and inwardly. The primary air stream, which occurs during the first revolution, is separated from the subsequently occurring secondary air stream by an inner wall or baffle in the form of a curved member extending inwardly into the separator approximately one-half revolution along a path generally paralleling said air stream and defined by a continuously decreasing radius. The inner wall terminates at the dust separation point, which is also the turning point of the air stream. The inner wall and corresponding portion of the outer wall converge slightly to cause an acceleration of the primary air stream. A discharge cylinder extends downwardly through the top of the separator into the interior thereof and has a lower edge or inlet at a point in substantially the same horizontal plane as the above-mentioned turning point of the air stream.