A cooling electronic cabinet assembly includes a cabinet that has a plurality of storage compartments that is each defined within an interior of the cabinet to store an electronic device. The cabinet has a plurality of air holes each being integrated into the cabinet. A plurality of blowers is each coupled to the cabinet and each of the blowers is aligned with a respective air hole. Each of the blowers urges air in a first direction when the blowers are turned on to urge the air over the electronic devices in the cabinet for cooling the electronic devices. A plurality of filter housings is each coupled to the cabinet and each of the filter housings is aligned with a respective one of the air holes. A plurality of filters is each of the filters is removably insertable into a respective one of the filter housings to filter particles from the air is blown through the filters.

A filter unit is disclosed that increases solids loading capacity, decreases specific flowrate during filtration, and improves backwash effectiveness. A flow shaping plate and/or flow diverting member are used to reduce flow entrance effects during reverse, backwash flow through the filter unit.

An assembly for pleating a filter media sheet and using the assembly with a pleated filter media as a filter for filtration units. The assembly includes a male member and a female member. The male member includes several pleat ridges arranged in rows and columns and the female member includes several pleat valleys arranged in rows and columns. The filter media sheet can be placed over the female member and a last column of pleat ridges can be gently pressed over a first column of pleat valleys, such that the first column is within the last column, respectively. The step can be repeated incrementally till the last column of the pleat ridges is within the last column of the pleat valleys progressively forming a pleated filter media sandwiched between the male member and the female member.

An assembly for pleating a filter media sheet and using the assembly with a pleated filter media as a filter for filtration units. The assembly includes a male member and a female member. The male member includes several pleat ridges arranged in rows and columns and the female member includes several pleat valleys arranged in rows and columns. The filter media sheet can be placed over the female member and a last column of pleat ridges can be gently pressed over a first column of pleat valleys, such that the first column is within the last column, respectively. The step can be repeated incrementally till the last column of the pleat ridges is within the last column of the pleat valleys progressively forming a pleated filter media sandwiched between the male member and the female member.

A filter assembly including a housing (15) and a filter cartridge (10). The housing has a housing inlet (16) and a housing outlet (17). The filter cartridge (10) has a filter inlet (11) fluidly connected to the housing inlet (16) and a filter element (12) between a top cap (18) and a bottom cap (19). The top cap (18) and the bottom cap (19) create a circular guiding system. The bottom cap (19) has a first part (19a) that receives the filter element (12) and a second part (19b) that is connected with a mating surface (20) of the housing. The second part has a first circular section (21a) and a second section (21b) and the first section has another shape than the second section (21b), such that the bottom cap (19) cannot rotate in relation to the mating surface.

A filter assembly including a housing (15) and a filter cartridge (10). The housing has a housing inlet (16) and a housing outlet (17). The filter cartridge (10) has a filter inlet (11) fluidly connected to the housing inlet (16) and a filter element (12) between a top cap (18) and a bottom cap (19). The top cap (18) and the bottom cap (19) create a circular guiding system. The bottom cap (19) has a first part (19a) that receives the filter element (12) and a second part (19b) that is connected with a mating surface (20) of the housing. The second part has a first circular section (21a) and a second section (21b) and the first section has another shape than the second section (21b), such that the bottom cap (19) cannot rotate in relation to the mating surface.

A steam strainer having two support rings spaced from each other in a longitudinal direction and multiple adjacent, ring segment-shaped strainer elements which have a large number of through-holes, are each detachably secured to the support rings and extend between these support rings to form a lateral surface, wherein the side edges of directly adjacent strainer elements abut each other.

A steam strainer having two support rings spaced from each other in a longitudinal direction and multiple adjacent, ring segment-shaped strainer elements which have a large number of through-holes, are each detachably secured to the support rings and extend between these support rings to form a lateral surface, wherein the side edges of directly adjacent strainer elements abut each other.

A coating material mist remover of the present disclosure includes: a first duct that discharges air containing coating material mist from an outflow port directed downward; a second duct having an inflow port opened in a horizontal direction; and an incinerable intermediate filter that is detachably connected between the first duct and the second duct and removes the coating material mist from the air. The coating material mist remover also includes: a first connection mechanism that can connect and separate the first duct and the intermediate filter; and a second connection mechanism that can connect and separate the second duct and the intermediate filter.

A system for removing particulates of a fissile material includes first and second filtration paths. A first filter and a first valve are disposed in the first filtration path. A second filter and a second valve are disposed in the second filtration path. The first valve and the second valve are configured to switch between a dual open state and a mixed open/closed state. During the dual open state, the first valve and the second valve axe open to permit concurrent flows of the effluent gas through the first and second filtration paths. During the mixed open/closed state, one of the first valve and the second valve is open while the other of the first valve and the second valve is closed to permit the particulates on a corresponding one of the first filter and the second filter to be dislodged by a countercurrent flow of a purging gas.