An evaporator and a baffle structure thereof are disclosed by the present application. The baffle structure is configured to block liquid droplets in a gas, and includes: a bottom portion extending in a first direction and side portions extending from the bottom portion in a direction intersecting the first direction; and a liquid blocking region provided on the side portions, the liquid blocking region being provided therein with a plurality of holes penetrating the side portions to allow gas to pass through the holes.

A method and apparatus for concentrating compressed air, and an air dryer, in which a concentrating tube is formed by connecting a plurality of concentrating units, so that the structure, when compared with the conventional one, can be simplified and the number of parts can be reduced by virtue of the concentrating tube, thereby reducing the size and weight, facilitating production and reducing the cost, enabling to obtain not only outstanding concentrating and dehumidifying performance but also convenience, and in which the best concentrating and dehumidifying performance can be obtained easily and freely depending on the environment and conditions where the method and apparatus thus constructed are used, and collection of drain can be performed reasonably and easily.

A fluid treatment system combines cyclonic separators and gravitational separators for use in onshore and offshore oil and gas operations and elsewhere. The characteristics of apertures that interface between a gravitational separation chamber and a cyclonic separator are configurable in accordance with operational requirements. By selecting aperture characteristics, improved control and separation efficiencies can be achieved.

The present invention relates to a particle separator configured to be operatively connected between an enclosure hood and a ventilation system. In practice, an air stream containing particulate matter from an industrial process is directed through an enclosure hood, through the particle separator and into the ventilation system. Relatively large particles are removed from the air stream in the particle separator before the air stream reaches the ventilation system. This reduces the abrasion and general damage that can occur from relatively large particles moving through the duct structure of a ventilation system.

A three-tiered funneling type mist collection arrangement for collecting water from mist in air flowing therethrough is disclosed. The mist collection arrangement includes support frame, first funnel disk, second funnel disk, third funnel disk, and mesh member. First funnel disk, second funnel disk, and third funnel disk are mounted on the support frame while being coaxially aligned, such that a first drip cavity, a second drip cavity, and a third drip cavity is coaxially aligned with each other. The second funnel disk has a lesser diameter than the first funnel disk. The mesh member is attached to and extends between a first periphery of the first funnel disk and a second periphery of the second funnel disk, to form a frustoconical structure. Water in mist of surrounding air is collected on the mesh member, which is trickled to the first funnel disk and later to the third funnel disk.

A three-tiered funneling type mist collection arrangement for collecting water from mist in air flowing therethrough is disclosed. The mist collection arrangement includes support frame, first funnel disk, second funnel disk, third funnel disk, and mesh member. First funnel disk, second funnel disk, and third funnel disk are mounted on the support frame while being coaxially aligned, such that a first drip cavity, a second drip cavity, and a third drip cavity is coaxially aligned with each other. The second funnel disk has a lesser diameter than the first funnel disk. The mesh member is attached to and extends between a first periphery of the first funnel disk and a second periphery of the second funnel disk, to form a frustoconical structure. Water in mist of surrounding air is collected on the mesh member, which is trickled to the first funnel disk and later to the third funnel disk.

Systems are disclosed for separating and collecting liquid and particulate from a flowing gas stream. The systems may include a plurality of horizontally oriented helical separators positioned in a vessel between a gas stream inlet and a gas stream outlet. The helical separators form helical channels for the gas stream and may include an upstream conical portion. The vessel includes a first space upstream from the helical separators wherein the gas stream changes direction before entering the helical separators, such that the change in direction causes mechanical separation of liquids or solids from the gas stream. The vessel may also form a second space downstream from the helical separators for collecting liquid and particulate separated from the gas stream. The first and second spaces in the vessel may each include a drain which empties into a common sump, such that the first and second spaces are in fluid communication.

A blasting or stripping booth is provided creating a generally downward flow for treatment of fluid and particle flow, which reduces operator exposure to potentially hazardous debris. The booth comprises an enclosure defining an upper region for a workpiece, a lower region, and a separator assembly. In some instances the separator assembly includes individual separator units which are discrete units, each having a generally square or rectangular plan view configuration which are arranged in an array for providing the required process flow capabilities. Further embodiments utilize structures forming the separator which have an elongated trough-like configuration. These embodiments find a particular application in large-scale stripping or blasting booth used in production environments where workpieces may flow through a treatment system in a serial manner. Other suitable applications include batch type processing of parts.

A liquid recovery device includes: an outer pipe that includes an introduction portion into which a gas-liquid two-phase fluid is introduced; an inner pipe disposed inside the outer pipe at a position where the introduction portion is extended to a downstream side in a flow direction of the gas-liquid two-phase fluid; a double pipe portion that includes a clearance part provided between an inner side of the outer pipe and the inner pipe at a downstream side of the outer pipe in the flow direction; a communication hole that communicates the inner side of the inner pipe with the clearance part; and a drainage portion connected to the clearance part to discharge the liquid-phase fluid flowing into an interior of the clearance part.

A liquid recovery device includes: an outer pipe that includes an introduction portion into which a gas-liquid two-phase fluid is introduced; an inner pipe disposed inside the outer pipe at a position where the introduction portion is extended to a downstream side in a flow direction of the gas-liquid two-phase fluid; a double pipe portion that includes a clearance part provided between an inner side of the outer pipe and the inner pipe at a downstream side of the outer pipe in the flow direction; a communication hole that communicates the inner side of the inner pipe with the clearance part; and a drainage portion connected to the clearance part to discharge the liquid-phase fluid flowing into an interior of the clearance part.