US2874800A - Devices for removing from gas or vapor solid or liquid particles suspended therein - Google Patents

Description

1959 H. VAN DER KOLK 2,

DEvIcEs FOR REMOVING FROM GAS OR VAPOR SOLID OR LIQUID PARTICLES SUSPENDED THEREIN Filed Sept. 15, 1954 INVENTOR. Ale i/Li m... 1w /4L nited States PatentO DEVICES FOR REMOVING FROM GAS OR VAPOR soLlllgElgR LIQUID PARTICLES SUSPENDED Hendrik van'der Kolk, Heemstede, Netherlands, assignor to Bureau van Tongeren N. V., Heemstede, Netherlands, a company of the Netherlands Application September- 13, 1954, Serial No. 455,472

1 Claim. ct' aHo The present invention relates to a-new and novel device for removing solid or liquid particles from a gas or vapor in which they are suspended whereby the gas or vapor is separated into a rnajorportion, entirely or substantially partly freed from suchparticles, .and into a minor portion wh'erein-the specific'amount of such particles is proportionally increased. Y

Such a device essentially comprises an elongated frustoconical element that is composed of a wire of substantially uniform cross-section which is spirally wound into the shape of a truncated cone forming a passage for the particle laden gas orvapor andwhose windings are relatively spaced so as to form a helicoidal gap through which the cleaned gas or vapor can escape.

A device of this general nature is disclosed in Haber Patent No. 2,034,467. Such patent discloses an apparatus for removing solid or liquid particles from gases or vapors, the essential element of which is constituted by a frusto-conically coiled strip having an elongated rectangular cross section, said element having its wide end connected to a conduit supplying under pressure the gas or vapor laden with solid or liquid particles, the narrow end thereof being connected to the suction side of a blower. In passing through said element, the gas or vapor will, for by far the greater part, escape through the gap between the windings of the coil because the pressure inside the element is greater than the pressure outside so that there is a flow of gas through the gaps, but the greater part of the solid or liquid particles is unable, owing to its inertia, to follow the acute bend to be followed by the gas or vapor on its way from the interior of the coil to the space outside the coil, so that said particles are discharged, together with a minor portion of the gas or vapor, through the narrow end of the coil and disposed of. Thus, said element divides the dust or liquid laden gas or vapor into two part flows, namely, a large flow which is completely or partly freed from the foreign bodies and a small flow or shunt flow in which the contents of foreign bodies is enriched by a corresponding amount.

In the manufacture of such element, described above, the strip must be stretched along one of its edges, i. e. the developed length of said edge must be increased. If it is desired to ensure both a uniform width of the gap between the consecutive windings throughout the full length of the strip and a uniform angle between the strip and the axis of the cone, which uniform width and angle are fundamental requirements for an eflicient separation of the dust from the gas, such stretching operation is exceedingly difficult. Indeed, in that case, the ratio between the developed length of the stretched outer edge and the developed length of the unstretched inner edge of the winding at the narrow end of the element must considerably exceed the corresponding ratio of the winding at the wide end thereof. From the narrow to the wide end, said ratio must gradually decrease.

The invention has for its object to provide an efficient element of the general type referred to that can be manu- 3 2,874,800 Patented Feb. 24, 1.959

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factured in a very simple and cheap manner. In accordance with'the invention, the wall of the element is-formed by a wire spirally wound into'a truncated cone and having a cross section such that the perpendicular dropped from its center of gravity on the axis of theinscrib'ed conical boundary surface, intersects the areawherein the section touches said inscribed or defined conical boundary surface. The wire is angular in cross section and touches the inscribed defined conical boundary surface along a straight line coinciding with a generatrix of the cone formed by the element. 1 v} Experiments have shown that, if the wire is'relatively thin, i. e. if it has a thickness of say 20 mm. or less, and if the gap between the windings is sufficiently narrow, the shape of the cross section of the wire, provided that it meets the requirements stated hereinbeforeymay, for instance, be that of a square, of a triangle, of a rectangle, a trapeze or a diamond, especially so since under said conditions, the angle, through which the flow of the gas or the vapor must deviate from the originally axail 'direction in order to escape from the passage of the element through the gaps thereof,is of minor importance. It is then not necessary for said angle to have a value of far more than V The foregoing and ancillary objects are attained by this invention, certain forms ofwhich are shown in the attached drawing, wherein: q

Figure -1 is a diagrammatic view of the environmentjfor the new element, which i's'shown partly in elevation and partly in vertical section.

Figure 2 is an axial sectional view on an enlarged scale of the element of Figure 1, and,

Figures 3 and 4 are views similar to Figure 2 and showing modifications in the cross-sectional shape'of the wire defining the element.

Referring more particularly to the drawing and, initially to Figure 1, the reference numeral 1 generally designates a stack or similar conveying tube for gas or vapor laden with solid or liquid particles. The gas or vapor, having solid or liquid particles suspended therein, is drawn from the member 1 by a fan 2 or similar device and forced through the conveying conduit 3, exterior of the member 1 into a delivery conduit 4. The delivery conduit 4 is disposed internally of the member 1 and conveys the gas or vapor, having solid or liquid particles suspended therein, under pressure to the wide end of the coil element 5 which is attached to the lower discharge end thereof.

The coil element 5 is axially arranged in themember 1. The truncated conical element 5 is made by winding a wire having an angular cross section on a truly conical form. The windings are spaced to provide gaps 6 through which the major part of the cleaned gas or vapor will escape, whereas the solid or liquid particles will, owing to their inertia, be carried to and discharged through the narrow open end of the coil, together with a minor part of the gas or vapor, into a conduit 7 which discharges the particles into a suitable chamber (not shown). In passing through said element 5, the major portion of the gas or vapor will escape through the spiral gaps 6 between the windings of the element because the pressure inside the element is greater than the pressure outside, but the greater part of the solid or liquid particles is unable, owing to its inertia and the pressure, to escape through the gaps, so that the particles are discharged, together with a minor portion of the gas or vapor, through the discharge conduit 7.

As shown in Figures 1 and 2, the major portion of the gas or vapor will flow through the gaps in the directions of the arrows b while the particles and minor portion of the gas or vapor will follow the direction of the arrows 11;.

In Figure 2, the axis of the truncated cone is indicated by a. The wire has a rectangular cross section and the perpendicular p droppedfro'riYthe center of gravity c of said cross section on the "axis a intersects the straight i ne de he e t n, he ang e, h o h c h "ed vapor gas has te"de'viat'e'from its originally 'ajdal"direction of fig 'is indicated by the angle 'clesi'gnati be eeri theaxis aandj the arrow b l lid it is to be noted that the wire is angular on and touches the inscribed conical boundt it P bnga'straight line coinciding with a generam; oftheCOne formed by the frustmconical element.

Thus, the element S is an; elongated frusto-conical elemerit, which is open at both its ends; and Said element is made up ofi the spirally wound wire the windingsof which are spac ed'toi fonn the helicoidal' gap ij'th'rough which he eases a b 9 an e c peem 1: surface f each wire defines a conical, bound- In Figurej 2, the cross section of, the wire is trapeziforiii, whereasfin Figuret, the cross section of the wire is dame djshaped; 'B'oth' Figures 3fa'nd 4 show a perpendicula p dropped from the center of gravity c of the cross section of 'wir'e'on, the, axis a of the inscribed conical surfac o'rvtl e "defined conical boundary surface.

' Tlie wire rriay be formed oi any angular cross-sectional shape, with the full area of the inner face of the wire touching theconic'al boundary surface inscribed or de- Accordingly whilevarious forms have been shown gas or vapor so as to separate the gas or the vapor into a majorportion 'wholly' or partly freed frointhese particles, and a minor portion wherein the specific amount of said particles is proportionally increased; said device comprising an elongated frusto con ical element open at both of its ends, said element being'comp-osed of a wire of substantially uniform cross-section, spirally wound into the shape o fa. truncated cone, the windings being relatively spaced apart to form helicoidal gaps through'wh'ich the cleaned gasor vapor can escape, said wireiu its truncated conical shape defi'ningta frusjiofconical passage and having a cross section such. that, the. perpendicular dropped from the center of gravity of the cross section on the axis of the defined conical. boundary of the passage intersects the area. wherein said section. touches the defined conical boundary surface, said wire being angular in cross section and touching the inscribed conical boundary surface along a straight line coinciding with a genera'trix of the cone formed by the frusto-co riical element.

References. Cited in the file of this patent N TED AT S: PAT NT 2,068,282 Strindberg Jan. 19, 1937 2,197,971 'Elze etal. Apr. 23, 1940 FOREIGN- PATENTS 188,453 I Great Britain Noy. 16, 1922 388,627- Great Britairi Mar. 2, 1933

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