AU607678B2 - Cyclone separator - Google Patents

Description

0tnffe&fPf1t~a 'vz Insert place and date of signature.

Signature of declaran t(s) (no afttstation required) Note- initial all alterations, Declared at HoustonI Texas this 1st a of AU 1ist 1990 DAVIF.S C'OLLISON, MELBOURNE and CANBERRA.

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AU-AI-73087/87 WORLD INTELLECTUAL PROPERTY ORGANIZATIONS INTERNATIONAL APPLICATION PUBLISHEEk iJ 4 TJt TE PAVNCOOaATION TREATY (PCT) (51) International Patent Classification 4: B04C 5/14 (11) International Publication Number: WO 87/ 0660G2 Al(43) International Publication Date: 5 November 1987 (05.11.8*0 (21) International Application Number: PCT/AU87/00I 18 (22) International Filing Date: (31) Priority Application Number: (32) Priority Date: (33) Priority Country: 22 April 1987 (22.04.87) PH 5594 3 April 1986 (23.04.86) (24<"72) Applicant and Inventor: CARROLL, Noel [AU/ AU]; 'Strathalbyn', The Crescent, Sassafras, VIC 3787

(AU).

(74) Agents: LESLIE, Keith et al.; Davies Collison, I Little Collins Street, Melbourne, VIC 3000 (AU).

(71) ccno 5pac~VM rA o~ Aor_ $4oir This docUnet 1flI ioenneft a is correctf0 etkf 4 9 an (81) Designated States: AT (European patent), AU, BE (European patent), CH (European patent), DE (European patent), FR (European patent), GB, GB (European patent), IT (European patent), JP, LU (European patent), NL, NL (European patent), NO, S$E (European patent), US.

Published With international search report.

Tas U-S AUSTRALIAN (54)Title, CYCLONE SEPARATOR i2 a (57) Abstract A cyclone separator (10) for separating oil from oily water and having a tapered separating chamber (24a) with tangential inlets an axial overflow outlet for separated oil, at the larger diameter end, and an axial underflow outlet for separated water, at the smaller diameter end. An enlargtd ,nd portion (18) is provided at the underflow outlet (23) to facilitate separation.

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-1- CYCLONE SEPARATOR This invention relates to cyclone separators.

The invention has application in liquid-separators, particularly separators for separating oil and water from an oil-water mixture such as of the kind described in International Application PCT/AU83/00028, United States Patent specification 4,464,264, United States Patent specification 4,576,724 or United States Patent specification 4,237,006.

According to the invention there is provided a cyclone separator for t o. separating oil from oily water comprising an elongate separating chamber of 06 •circular cross section and extending from a larger diameter end to a smaller diameter end and having an axial overflow outlet at the larger diameter end and an S 15 underflow outlet at the smaller diameter end, the separating chamber comprising first, second and third chamber portions axially arranged in that order from the larger diameter end to the smaller diameter end, the first chamber portion comprising an inlet chamber having at least one inlet for introducing oily water tangentially into the separating chamber and having a largest diameter do, the second portion comprising a tapered portion extending from a larger diameter end to a smaller diameter end and a diameter d 2 at its larger end and a diameter d 3 at its smaller end, and the third portion comprising a generally cylindrical portion of diameter d 3 the cyclone separator also including at the underflow outlet end of the separating chamber an end portion which flares outwardly away from the overflow outlet at a half angle of taper within the range of from 6' to 200 from a diameter d 3 to a diameter d 4 and wherein d, d 2 d 2 d 3 and d 4 d 3 The invention is further described by way of example only with reference to.

the accompanying drawings, the single figure of which is a longitudinal cross sectional diagram of a cyclone separator constructed in accordance with the invention.

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r ~li: -2- The exemplary cyclone separator shown comprises an outer casing 24 which defines an elongate separating chamber 24a therewithin. The separating chamber is axially symmetrical and of circular transverse cross section. Chamber 24a extends from a large diameter end 10a of the separator to a smaller diameter end 10b of the separator. In this instance, the separating chamber defines a first portion 12 of cylindrical form, a second tapered portion 14, which tapered portion 14 in turn leads to a third portion 16 of cylindrical form. A tapered portion 12a extends between portions 12, and 14. Portion 16 presents, at its end remote from portion 12, an underflow outlet 23. The portion 16 thence leads to an end portion 18 of the separator. The separating chamber 24a has an underflow outlet 23, for the denser fluid, this being located at the end of portion 16 remote from the larger diameter o' 04

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r i 90091 ,dbwspc.014,cydonscK,2 WO 87/06502 PCT/AU87/00118 3 of the separator. The separating chamber 24a also has one or more tangential fluid inlets 26 positioned adjacent the larger diameter end of the separator and an axial overflow outlet 34 arranged at the larger diameter end (for outflow of the less dense of the components of the fluid to be separated).

The separator 10 is designed specifically, in this particular instance, for separation of oil from an oil-water mixture, the mixture being admitted via inlets 26, the separated water being taken off via outlet 23 and the separated oil being taken off via outlet 34. Separators of this or other type suitable for separating liquid components one from the other are generally designed to ensure relatively low shear stress within the liquid as it is moving within the separating chamber 24a. International Application PCT/AU83/00028, United States patent specification 4,464,264, Australian patent specification 84713/82 and United States patent specification 4,237,006 describe cyclone separators effective for separating oil from an oily water mixture where water predominates. These disclose particular configurations and dimensional constraints applicable to this type of separator. Generally, these separators are characterized by having relatively long length to diameter ratio, for example the diameter d i at the larger diameter end of the separator may be related to the overall length of the separator so that the overall length is at least five times the diameter d

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More particularly, the separator may be characterised by the following: 1 2 /d 2 2 .04 4Ai/ d 0.0 i 1 ~0.l I V WO 87/06502 PCT/AU87/00118 4 d0/d2 0.25 d l d2 d 2 d 3 where d

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d 2 d 3 and i 1, 12' 13 are the diameters and lengths of the first portion 12, second portion 14 and third portion 16, respectively, A. is the total cross sectional area of the or of all of the inlets 26 measured at the points of entry normal to the inlet flow, and d is the diameter of the outlet 34.

Where provided, the tapered portion 12a may have a taper whose conicity (half-angle) is 100. The portion 14 may have a taper whose conicity (half-angle) is 20' to 10. Where a portion such as portion 14 is tapered, the respective diameter such as diameter d 2 thereof in the above formulae is to be taken as the diameter thereof at the largest diameter end. These ratios are described in United States patents 4,576,724 and 4,237,006. In a particular form, disclosed in United States patent 4,576,724, the following relationship applies: d 0/d 2 0.

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The portion 18 is of frustoconical form increasing, away from the outlet 23 from a diameter d at the end closest the outlet 23 to a diameter d 4 at the end remote therefrom. The conicity (half-angle) of the portion 18 may be 80 and portion 18 may be of length 14 rather more than the smallest diameter d 3 thereof such as 1 3 1 4 /d 3 5. In accordance with conventional practice, the outlet 23 may be coupled such as via a pipe 20 through a suitable flow restricting means, or choke 22, which may be constructed in accordance with

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WO 87/06502 PCT/AU87/00118 the teachings of United States patent specification 4,464,264, or International Application PCT/AU83/00028 for outflow therefrom of the denser liquid (water in this instance) from the separator.

Particularly, the flow restricting means may present a passageway which is of generally frustoconical form decreasing in diameter away from the end portion 18 to a diameter at the end remote from the end portion 18 which is in the range 1/3 to 2/3 the diameter of the passageway -a-at the end adjacent end portion 18.

The provision of the portion 18 has been found to be particularly useful in that it permits a relative shortening of the length of the separator as compared with its diameter, as compared with what would be the case otherwise. As mentioned, separators for separating liquid components, particularly the aforementioned oily water mixtures,.

are generally characterized by being of relatively great length and the reduction in length achievable by use of the portion 18 is therefore of practical significance in enabling fitment of separators into confined spaces and, furthermore, in reducing manufacturing costs. The provision of the portion 18 is thought to facilitate operation by permitting recovery of a dynamic pressure head loss which normally occurs in the operation of separators of the kind in question. In particular, there will normally .be a substantial static pressure loss from' the inlets 26 to the outlet 23 of the separator, and the frustoconical configuration of the portion 18 aids in minimising this loss.

As described in International Application PCT/AU85/00010, the multiple tangential inlets 26 p."LIA' ~~h I II i w l ,I I WO 87/06502 PCT/AU87/00118 6 shown may be replaced by a single inlet of involute form.

Claims (8)

1. A cyclone separator for separating oil from oily water comprising an elongate separating chamber of circular cross section and extending from a larger diameter end to a smaller diameter end and having an axial overflow outlet at the larger diameter end and an underflow outlet at the smaller diameter end, the separating chamber cc,.prising first, second and third chamber portions axially arranged in that order from the larger diameter end to the smaller diameter end, the first chamber portion comprising an inlet chamber having at least one inlet for introducing oily water tangentially into the separating chamber and having a largest diameter the second portion comprising a tapered portion extending from a larger diameter end to a smaller diameter end and a diameter d 2 at its larger end and a diameter d 3 at its smaller end, and the third portion comprising a generally cylindrical portion of diameter d 3 the cyclone separator also including at the .o 15 underflow outlet end of the separating chamber an end portion which flares outwardly away from the overflow outlet at a half angle of taper within the range of from 60 to 200 from a diameter d 3 to a diameter d 4 and wherein di d2; d 2 d 3 and d 4 d 3 too*

2. A cyclone separator as claimed in claim 1 wherein the said half-angle of the end portion is ,:bstantially

3. A cyclone separator as claimed in claim 1 or claim 2 wherein the end S"portion is longer than the diameter thereof at the smallest diameter end of the end 25 portion.

4. A cyclone separator as claimed in claim 3 wherein 1< 1 4 /d3 where 14 is the length of the end portion and d 3 is the diameter of the end portion at its smallest diameter end. j. 7,dbwspc.O14,cyclonpe,7 -8- A cyclone separator as claimed in any preceding claim wherein s 1 2 /d 2 s 0.4 s 4A, d 1 2 a 0.10 do/d 2 0.25 d, d 2 d 2 d 3 where 11, 12, and 13 are the lengths of the first, second and third portions respectively, d 2 is a diameter of the second portion, do is the diameter of the overflow outlet and A, is the total cross-sectional area for inflow of material to the 10 separating chamber as presented by the inlet means and measured at the points of entry normal to inlet flow. A cyclone separator as claimed in claim 5 including a tapered portion of the separating chamber, joining said first and second portions thereof. 009

7. A cyclone separator as claimed in claim 5 or claim 6 wherein the conicity (half-angle) of the second portion is in the range 20' to

8. A cyclone separator as claimed in any one of claims 5 to 7 wherein d/d 2 0.1. *9*

9. A cyclone separator as claimed in any preceding claim including flow Sorestriction means coupled to the larger diameter end of said end portion to restrict flow from the end portion. A cyclone separator as claimed in claim 9 wherein said flow restricting means comprises a passageway which decreases in diameter away from said end portion to a diameter at the end of the passageway remote from said end portion which is in the range 1/3 to 2/3 of the diameter of the passageway adjacent said end portion. r a j U -9-

11. A cyclone separator substantially as hereinbefore described with reference to the accompanying drawings. DATED this 17th day of September, 1990. CONOCO SPECIALTY PRODUCT, INC. By its Patent Attorneys DAVIEiS COLLISON 4. U.. U. Up'.. U. Ut U Ee U .UU U 'U 90 Ut U U U.. U U U