A sieve panel and related methods of construction for dewater slurries with shaped-wire elements that have a variable tilt arrangement along the sieve panel. Each of the plurality of shaped-wire elements can be selectively oriented when mounted to a support member to define a desired tilt angle of the shaped-wire element relative to the support members Tilt angle can be selectively varied between an upper end and a lower end of the sieve panel to enhance dewatering characteristics of the sieve panel. The sieve panel can be fabricated such that an upper portion and a lower portion are essentially mirror images of each other such that the sieve panel can be flipped after leading edges of the individual screening elements have suffered wear leading to a degradation in dewatering performance. By flipping the sieve panel, an effective service life of the sieve panel can be essentially doubled.

The disclosure provides a filtering device comprising a housing, a blocking member and a screening member. The housing includes a body, an inlet end and an outlet end. The housing forms an accommodation space. The inlet end and the outlet end are respectively formed at two ends of the accommodating space. The inlet end is capable of receiving fluid. The blocking member is capable of splitting the fluid into a plurality of fluids and collecting the non-fluid composition of the secondary fluid having a first size. The screening member is disposed between the inlet end and the blocking member, and the screening member is configured to receive the secondary fluid to limit the non-fluid composition having a second size of the secondary fluid to the screening member. After the secondary fluid passes through the shield and the screening member, the secondary fluid is output from the outlet end.

The disclosure provides a filtering device comprising a housing, a blocking member and a screening member. The housing includes a body, an inlet end and an outlet end. The housing forms an accommodation space. The inlet end and the outlet end are respectively formed at two ends of the accommodating space. The inlet end is capable of receiving fluid. The blocking member is capable of splitting the fluid into a plurality of fluids and collecting the non-fluid composition of the secondary fluid having a first size. The screening member is disposed between the inlet end and the blocking member, and the screening member is configured to receive the secondary fluid to limit the non-fluid composition having a second size of the secondary fluid to the screening member. After the secondary fluid passes through the shield and the screening member, the secondary fluid is output from the outlet end.

A filter subassembly, having a first screen comprising a fabric that has mesh elements, the mesh size of which determines how effectively particles are prevented from penetrating therethrough, wherein a second screen is provided at a distance from the first screen, and the two screens are arranged in series.

The invention provides novel slot tube screen material for filtering applications, in particular for separating solid particles from liquids. The slot tube filter screens manufactured according to the invention feature very small slot openings, which are narrowed with respect to a slot opening dimension of conventionally fabricated slot filter tubes. The slot tube construction of the invention comprises a torsion-rotation deformed structure of normally axially orientated parallel support members of the slot tube mantle, which further comprises spiral windings of profile wire around said support members, whereby at each contact crossing a solid weld connection fixes a crossing profile wire to a support member. The plastically twisted slot tube structure displays a helical distortion of the axial support ribs inside the slot tube. As a consequence the filter slot openings between adjoining windings of profile wire are markedly narrowed (versus undeformed slot tube), which offers the possibility of reliably achieving very small filter slot openings of less than 0.020 mm in slot tube filters or screens.

Microscale and/or mesoscale condenser arrays that can facilitate microfluidic separation and/or purification of mesoscale and/or nanoscale particles and methods of operation are described herein. An apparatus comprises a condenser array comprising pillars arranged in a plurality of columns, wherein a pillar gap greater than or equal to about 0.5 micrometers is located between a first pillar of the pillars in a first column of the columns and a second pillar of the plurality of pillars in the first column, and wherein the first pillar is adjacent to the second pillar. The first ratio can be characterized by D.sub.x/D.sub.y is less than or equal to a first defined value, wherein D.sub.x represents a first distance across the lattice in a first direction, wherein D.sub.y represents a second distance across the lattice in a second direction, and wherein the first direction is orthogonal to the second direction.

Microscale and/or mesoscale condenser arrays that can facilitate microfluidic separation and/or purification of mesoscale and/or nanoscale particles and methods of operation are described herein. An apparatus comprises a condenser array comprising pillars arranged in a plurality of columns, wherein a pillar gap greater than or equal to about 0.5 micrometers is located between a first pillar of the pillars in a first column of the columns and a second pillar of the plurality of pillars in the first column, and wherein the first pillar is adjacent to the second pillar. The first ratio can be characterized by D.sub.x/D.sub.y is less than or equal to a first defined value, wherein D.sub.x represents a first distance across the lattice in a first direction, wherein D.sub.y represents a second distance across the lattice in a second direction, and wherein the first direction is orthogonal to the second direction.

A padded grating system comprising sheets of multiple composite members secured together with multiple support bars or battens, wherein each composite member preferably consists of an elongated rigid bar with a foam layer adhered thereto which are encapsulated by a PVC or plastic water impervious tube or sleeve that has been heated and shrunk thereon. The sheets are specifically designed to be used in connection with water rides such as the FlowRider® and can be modularly installed on site to cover certain drainage areas. The composite members are preferably made by gluing the rigid bars onto a sheet of foam and cutting the foam sheet to form the composite members, and after the tube or sleeve has been heat shrunk around each one, the ends of the composite members are then cut and sealed.

A multiple-fluidic circuit substrate structure with an integral inter-circuit bypass lumen effectively provides multiple parallel filtered fluid inlets having filtered fluid outlets with at least one inter-circuit pass-through channel in fluid communication between the filtered fluid outlets to automatically provide full flow of filtered fluid to each of a plurality of fluidic circuits or to two or more circuits even if one fluidic circuit's corresponding inlet fluid filter is clogged.

A multiple-fluidic circuit substrate structure with an integral inter-circuit bypass lumen effectively provides multiple parallel filtered fluid inlets having filtered fluid outlets with at least one inter-circuit pass-through channel in fluid communication between the filtered fluid outlets to automatically provide full flow of filtered fluid to each of a plurality of fluidic circuits or to two or more circuits even if one fluidic circuit's corresponding inlet fluid filter is clogged.