Advanced passive wedge wire screen intake
Abstract
Screen intake assemblies and related methods of fabrication and operation that improve both operational performance and structural strength. The screen intake assembly can include one or more screen portions that run substantially and continually along the length of the screen assembly to provide increase fluid intake and uniform flow. The screen intake assembly can comprise a central manifold having an exterior manifold screen portion to provide additional filtering capacity. The screen intake assembly can be used alone or in combination with internal flow modifier structures to increase fluid intake and uniformity. Internal flow modifiers can include a perforated flow modifier pipe, an internal flow modifier pipe, and/or converging flow modifiers. The screen intake assembly can include cleaning systems that operate continuously or on demand.
Claims
exact text as granted — not AI-modified1 . A screen intake assembly comprising:
a central manifold including a lower outlet portion and tee-section, said tee-section including at least two external flanged manifold walls and at least one external support rib residing between the at least two external flanged manifold walls, said at least one external support rib arranged transversely to a central axis defined by the lower outlet portion; a pair of screen sections fluidly connected on opposed sides of the tee-section; and a central screen section substantially extending across the tee-section.
2 . The screen intake assembly of claim 1 , wherein the tee-section defines a flanged manifold wall positioned substantially along a central axis defined by the lower outlet portion, wherein the pair of screen sections are fluidly connected on opposed sides of the flanged manifold wall.
3 . The screen intake assembly of claim 1 , wherein the tee-section defines a pair of spaced apart manifold walls and wherein each of the pair of screen sections is coupled to the corresponding spaced apart manifold wall.
4 . The screen intake assembly of claim 3 , wherein the central screen section extends across a central axis defined by the lower outlet portion.
5 - 6 . (canceled)
7 . The screen intake assembly of claim 1 , wherein the lower outlet portion includes a fluid intake portion.
8 . The screen intake assembly of claim 7 , wherein the fluid intake portion can be selected from a lower screen portion, a plurality of slots and a plurality of apertures.
9 . A screen intake assembly comprising:
a central manifold including a lower outlet portion and tee-section; a pair of screen sections fluidly connected on opposed sides of the tee-section; and a central screen section substantially extending across the tee-section, and wherein the central manifold further comprises an internal flow modifier internal to the pair of screen sections and the central screen section.
10 . The screen intake assembly of claim 9 , wherein the internal flow modifier comprises:
a perforated flow modifier pipe; an internal flow modifier pipe within the perforated flow modifier pipe; and at least one radial support member mounted between the perforated flow modifier.
11 . The screen intake assembly of claim 10 , further comprising:
at least one divider plate mounted within the lower outlet portion.
12 . The screen intake assembly of claim 10 , wherein the at least one radial support member comprises a plurality of spaced apart radial support members, each spaced apart radial support member further comprising a plurality of flow aperatures.
13 . The screen intake assembly of claim 12 , wherein the plurality of flow apertures in the plurality of spaced apart radial support members are positioned along a shared radial axis.
14 . The screen intake assembly of claim 1 , wherein each of the pair of screen sections, comprises:
at least two screen portions arranged along a screen axis transverse to a central axis defined by the lower outlet portion such that a screen length along the screen axis is defined by the sum of each screen portion and the central screen.
15 . A screen intake assembly comprising:
a central manifold including a lower outlet portion and tee-section; a pair of screen sections fluidly connected on opposed sides of the tee-section; a central screen section substantially extending across the tee-section; and an expandable internal flow member within the screen portions and the central screen, wherein each screen section includes at least two screen portions arranged along a screen axis transverse to a central axis defined by the lower outlet portion such that a screen length along the screen axis is defined by the sum of each screen portion and the central screen.
16 . The screen intake assembly of claim 1 , wherein the pair of screen sections, the central screen section and the tee-section define a non-circular cross-section along a screen axis transverse to a central axis defined by the lower outlet portion.
17 . The screen intake assembly of claim 16 , wherein the screen sections, the central screen section and the tee-section define a screen height and a screen width, wherein the screen width is greater than the screen height.
18 . The screen intake assembly of claim 1 , wherein the screen section and the central screen section are defined by a first length of Vee-wire continually wrapped and welded to a support member to define a first wire gap and a first wire height.
19 . A screen intake assembly comprising:
a central manifold including a lower outlet portion and tee-section; a pair of screen sections fluidly connected on opposed sides of the tee-section; and a central screen section substantially extending across the tee-section wherein the pair of screen sections and the central screen section are defined by a first length of Vee-wire continually wrapped and welded to a support member to define a first wire gap and a first wire height, and wherein the screen section further comprises a second length of Vee-wire continually wrapped and welded to the support member such that the second length of Vee-wire is positioned between adjacent wraps of the first length of Vee-wire, the second length of Vee-wire having a second wire height less than the first wire height such that a second wire gap is defined between the second length of Vee-wire and each adjacent first length of Vee-wire, said second wire gap being less than the first wire gap.
20 . A screen intake assembly comprising:
a central manifold including a lower outlet portion and tee-section; a pair of screen sections fluidly connected on opposed sides of the tee-section; and a central screen section substantially extending across the tee-section, wherein the central manifold further comprises an oscillator assembly inducing vibrations on each screen section and central section.
21 . The screen intake assembly of claim 20 , wherein the oscillator assembly comprises a remote power source.
22 . The screen intake assembly of claim 20 , wherein fluid flow through the central portion is converted to rotational energy with a turbine or propeller style assembly of power the oscillator assembly.
23 . The screen intake assembly of claim 20 , wherein the central manifold further comprises an internal flow modifier internal to the pair of screen sections and the central screen section and wherein the oscillator assembly further comprises a flow-through oscillator mounted between the internal flow modifier and the pair of screen sections and the central screen section.
24 . A screen intake assembly comprising:
a central manifold including a lower outlet portion and tee-section; a pair of screen sections fluidly connected on opposed sides of the tee-section; a central screen section substantially extending across the tee-section; and an internal air burst system comprising:
a plurality of air burst pipes radially arranged about a central screen axis defined by the pair of screen section and the central screen section; and
a remote source of pressurized air,
wherein the pressurized air is radially, sequentially delivered through the plurality of air burst pipes.Cited by (0)
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