FCC unit charge injection device with limited pressure drop

Abstract

The invention relates to an injection device (10) configured to atomize a liquid into droplets using a gas, comprising a hollow tubular body (12) of longitudinal direction (X). An internal wall (13) defines a first zone referred to as a contact zone (Z1) and a second zone (Z2). The body has: at least a first and a second inlet opening (14; 16) opening into the said first zone (Z1), so as to respectively inject a liquid and an atomizing gas, at least one outlet orifice (18) situated downstream of the first and second zones, for removing the atomized liquid from the body. The internal wall (13) of the body is provided, between the zones (Z1) (Z2), with at least one chicane (20.sub.i) configured so that, in each plane perpendicular to the longitudinal direction of the body containing the said chicane, this chicane extends over just part of the periphery of the internal wall (13).

Claims

1. An injection device configured to atomize a liquid into droplets using a gas, comprising: a hollow tubular body extending in a longitudinal direction (X) and of which an internal wall defines a first zone referred to as a contact zone (Z1) and a second zone (Z2) situated downstream of the first zone with respect to a direction in which the liquid and the gas circulate inside the body, the latter having: at least a first and a second inlet opening opening into the said first zone (Z1), so as to respectively inject a liquid and an atomizing gas into the first zone, at least one outlet orifice situated downstream of the first and second zones, for removing the atomized liquid from the body, wherein the internal wall of the body between the contact and the second zone comprises a plurality of chicanes configured so that, in each plane perpendicular to the longitudinal direction of the body containing the plurality of chicanes, wherein the plurality of chicanes extends over at least a quarter of the periphery of the internal wall, wherein the internal wall between the contact zone and the second zone take the form of a straight internal duct.

2. The injection device of claim 1, characterized in that the internal wall is provided with a plurality of disjointed chicanes.

3. The injection device of claim 2, characterized in that each chicane is spaced away from at least one other chicane in the longitudinal direction of the body.

4. The injection device of claim 2, characterized in that each chicane is angularly offset from the other chicanes by rotation about an axis parallel to or coincident with the said longitudinal direction (X).

5. The injection device of claim 4, characterized in that the orthogonal projection of the chicanes onto a plane perpendicular to the longitudinal direction of the body extends over the entire periphery of the internal wall, with the projections overlapping or juxtaposed.

6. The injection device of claim 1, characterized in that the chicanes have a height, measured perpendicular to the longitudinal direction of the body, that is non-zero and equal at most to of the maximum internal dimension of the body perpendicular to the longitudinal direction of the body.

7. The injection device of claim 1, characterized in that the plurality of chicanes defines a wall one edge of which is secured to the internal wall along a line extending in a plane perpendicular to the longitudinal direction of the said body.

8. The injection device of claim 1, characterized in that the plurality of chicanes define a wall one edge of which is secured to the internal wall along a segment of a curve, notably of a helicoidal curve.

9. The injection device of claim 1, characterized in that it comprises a target extending perpendicular to the longitudinal direction of the body, facing a single liquid inlet opening of axis perpendicular to the longitudinal direction (X).

10. The injection device of claim 1, characterized in that it comprises two liquid inlet openings extending perpendicular to the longitudinal direction of the body and situated facing one another.

Description

(1) The invention is now described with reference to the appended, non-limiting drawings, in which:

(2) FIG. 1 is a schematic depiction in longitudinal section of an injection device according to one embodiment of the invention;

(3) FIGS. 1a and 1b are views in section on the lines AA and BB of FIG. 1, respectively;

(4) FIG. 1c is an orthogonal projection in a plane perpendicular to the longitudinal direction X of the chicanes of the injection device of FIG. 1, according to an alternative form of embodiment;

(5) FIG. 2 is a schematic depiction in longitudinal section of an injection device according to another embodiment of the invention;

(6) FIGS. 2a, 2b and 2c are views in section on the lines CC, DD and EE of FIG. 2, respectively;

(7) FIG. 3 partially depicts a longitudinal section of an injection device according to another alternative form;

(8) FIG. 4 partially depicts a perspective view of the open internal wall of an injection device according to another alternative form;

(9) FIG. 5 depicts a view of several chicanes along the longitudinal axis X according to another alternative form;

(10) FIG. 6 depicts a view along the longitudinal axis X according to another alternative form of one single same chicane, and views in section in two distinct directions AA and BB which are perpendicular to the longitudinal direction;

(11) FIGS. 7 and 8 partially depict views in longitudinal section of chicanes having free edges of different shapes.

(12) In the various figures, elements that are identical bear the same references.

(13) FIG. 1 schematically depicts an injector 10 which has a hollow tubular body 12, in this instance essentially cylindrical, which extends in a longitudinal direction X.

(14) The body 12 comprises an internal wall 13 which defines a first zone Z1 referred to as a contact zone, and a second zone Z2 situated downstream of the first zone Z1 with respect to a direction in which the liquid and the gas circulate inside the body (in this instance from left to right in the figure).

(15) This hollow body 12 also has: a first gas inlet opening 14, intended to be connected to a gas supply pipe, a second, liquid inlet opening 16, intended to be connected to a liquid supply pipe, an outlet orifice 18 for discharging the atomized liquid, which is situated downstream of the zones Z1, Z2.

(16) The openings 14 and 16 open into the first zone Z1, also referred to as the contact chamber.

(17) Inside the body 12, the fluids circulate from the inlet openings 14, 16 towards the outlet orifice 18.

(18) The injector 10 depicted in FIG. 1 is commonly referred to as being of the impact type.

(19) Here, the first zone Z1 and the second zone Z2 both take the form of a straight internal duct connecting the first inlet opening 14 to the outlet orifice 18 in an axial direction of the said body. This internal duct has an internal diameter that is substantially constant. In other words, the internal wall 13 is cylindrical in this instance, its axis coinciding with the longitudinal direction X of the body.

(20) The injection device 10 further comprises a target 19 extending in projection from the internal wall 13 in the first zone Z1, facing the liquid introduction opening 16 and through the passage of the gas entering via the opening 14.

(21) The liquid is sprayed against the target 19 as soon as it enters the first zone Z1 via the opening 16. The jet of liquid is broken open and carried in the form of droplets by a stream of atomizing gas introduced at high speed through the opening 14. The atomization of the liquid in this type of injector 10 takes place in two stages. A first part of the atomization occurs at the target 19 as the jet of liquid is broken open. The second part of the atomization occurs at the reduced-diameter outlet orifice 18, where the narrowing in diameter accelerates the fluids.

(22) According to the invention, the internal wall 13 of the body is provided, between the first zone Z1 and the second zone Z2, with at least one chicane 20.sub.i (where i, the number of chicanes, is a non-zero whole number) configured so that, in each plane perpendicular to the longitudinal direction X of the body containing the said chicane, this chicane extends over just part of the periphery of the internal wall. Because this chicane locally reduces the diameter of the internal wall 13, it disrupts the movement of the fluid, encouraging mixing. In particular, the presence of the chicane makes it possible to avoid the formation of a film of liquid on the wall by bringing the liquid back into the axis of the stream of gas.

(23) In the example of FIG. 1, four disjointed chicanes 20.sub.1, 20.sub.2, 20.sub.3, 20.sub.4 are provided.

(24) It will be noted here that each chicane 20.sub.1, 20.sub.2, 20.sub.3, 20.sub.4 is configured in such a way that the orthogonal projection of the chicane onto a plane perpendicular to the longitudinal direction of the body extends over just part of the periphery of the internal wall in the said plane of projection (see FIGS. 1a, 1b).

(25) Two chicanes 20.sub.1, 20.sub.2 extend in one and the same plane perpendicular to the longitudinal direction X, the other two chicanes 20.sub.3, 20.sub.4 extending in another perpendicular plane, spaced away from the plane of the chicanes in the longitudinal direction X.

(26) The chicanes 20.sub.1, 20.sub.2, 20.sub.3, 20.sub.4 are furthermore offset angularly by rotation about the longitudinal direction X, as visible in FIGS. 1a and 1b. It will be noted that these chicanes are in a staggered configuration, their orthogonal projection onto a plane perpendicular to the longitudinal direction of the body extending over the entire periphery of the internal wall 13.

(27) As an alternative that has not been depicted, provision could be made for the orthogonal projection of these chicanes onto a plane perpendicular to the direction X not to extend over the entire periphery of the internal wall 13 but to extend over just part, as depicted in FIG. 1c.

(28) In another alternative form that has not been depicted, provision could be made for the orthogonal projection of the chicanes onto a plane perpendicular to the direction X to extend over the entire periphery of the internal wall 13, with the projections of the chicanes overlapping.

(29) Thus, the relative layout of the chicanes may be chosen in such a way as to cause as much disruption as possible to the movement of the fluid circulating inside the injection device, without increasing the drop in pressure.

(30) In the example depicted in FIG. 1, the chicanes take the form of planar walls perpendicular to the longitudinal direction X. In other words, one edge of the wall of each chicane is thus secured to the internal wall 13 along a line extending in a plane perpendicular to the longitudinal direction of the said body.

(31) FIG. 2 depicts an injection device 10 which differs from the embodiment depicted in FIG. 1 only in that the target 19 is replaced by an opening 17 intended to be connected to a liquid duct.

(32) This injection device 10 is also of the impact type, but the jet of liquid impinges not on a target but on another jet of liquid. Thus, the openings 16 and 17 are positioned facing one another, perpendicular to the longitudinal direction X, so that the jets of liquid leaving them impinge on one another inside the first zone Z1, substantially facing the gas inlet opening 14. A configuration of the openings as described in document FR 3 020 578 A1 could also be considered.

(33) FIGS. 2 to 8 depict other embodiments which differ from those previously described in terms of the number and/or shape of the chicanes. In these figures, the chicanes are denoted by the reference 20, the suffix i, which is a non-zero whole number, representing the number of chicanes, the symbols prime (), double prime (), triple prime () and quadruple prime () denoting embodiments that differ from those previously described.

(34) In the embodiment of FIG. 2, the injection device 10 is equipped here with three chicanes 20.sub.1, 20.sub.2, 20.sub.3 spaced apart in the longitudinal direction X and angularly offset (see FIGS. 2a, 2b, 2c).

(35) The chicanes depicted in FIGS. 1 and 2 define planar walls perpendicular to the longitudinal direction X. These walls could also be curved. Thus, FIG. 3 is a partial depiction in axial section of the injection device 10 provided with chicanes 20.sub.1, 20.sub.2 that are curved, notably in the direction of the central longitudinal axis of the body 12. Here, the concavity of these chicanes is orientated towards the outlet orifice 18. Nevertheless, provision could be made for it to be orientated in the opposite direction.

(36) In this embodiment, each chicane 20.sub.1, 20.sub.2 defines a wall, one edge of which is secured to the internal wall 13 along a line extending in a plane perpendicular to the longitudinal direction X. Although not depicted, other chicanes 20.sub.i spaced apart in the X-direction and/or angularly offset from one another could be provided.

(37) FIG. 4 is a partial perspective depiction of the wall 13 of an injection device 10 comprising a chicane 20.sub.1 which defines a wall one edge of which is secured to the internal wall 13 along a segment of a helicoidal curve H. The chicane 20.sub.1 may define a planar or curved wall, as depicted in FIG. 1c. In the example, the segment of a helicoidal curve does not make a complete circuit of the body. Nevertheless, provision could be made for it to make a complete circuit thereof, or even for it to make more than one complete circuit thereof.

(38) One or more chicanes 20.sub.i may be provided, these for example being angularly offset and/or spaced apart in the longitudinal direction X. Furthermore, they may be arranged relative to one another in such a way as to impart to the fluid impinging on the curved face thereof one and the same rotational movement about an axis parallel to the longitudinal direction of the body.

(39) The chicanes described hereinabove may be produced as one-piece with the body 12, for example by moulding or machining, or may be added-on elements which are fixed, for example welded, held between flanges, or the like. When several chicanes are present, they may be identical or different, it being possible to combine the various shapes and arrangements of chicanes described hereinabove.

(40) The chicane or chicanes are arranged between the first and second zones Z1, Z2. Typically, the second zone has a length (in the longitudinal direction X) 2 to 10 times greater than the length of the first zone. The chicane or chicanes, notably the first chicane, may be situated at a distance l from the axis or the target 19 or the openings 16, 17 that is less than the diameter of the internal wall 13, at the level of the first zone, for example at a distance corresponding to of this diameter (for the sake of clarity, the figures are not drawn to scale).

(41) The chicane or chicanes may have a non-zero radial dimension or height (perpendicular to the longitudinal direction X) that is relatively small, for example less than .sup.th of the diameter of the internal wall 13, or even of the order of 1/10.sup.th of this diameter. This height may be variable along the length of a chicane, as depicted in FIG. 5, in which four chicanes 20.sub.1, 20.sub.2, 20.sub.3, 20.sub.4 are depicted, with their height varying at the ends.

(42) The non-zero thickness of each chicane, measured in the longitudinal direction X of the body, is, for example, at most 16 to 35 mm.

(43) It will be noted that, whatever its shape (curved or planar), a chicane (or the tangent thereto at its point at which it meets the internal wall 13 of the body) may define a predetermined angle with respect to a plane orthogonal to the longitudinal direction of the body (see FIGS. 3, 6, 7(b) and 8(a)). This angle may be variable for one and the same same chicane 20, as visible in FIG. 6.

(44) The chicane or chicanes inclined in this way may be inclined in the direction of the outlet orifice 18.

(45) Whatever its shape (curved or planar), the free edge of a chicane (the opposite edge to the edge secured to the internal wall of the body) may have a face 22a of rounded shape (FIG. 7(a)), a face 22a that is bevelled (FIG. 7(b)), two faces 22a, 22b with rounded shapes (FIG. 8(a)) or two faces 22a, 22b with a bevelled shape (FIG. 8(b)).

(46) When just one face is provided, this may be situated on the side of the mixing zone Z1 in the longitudinal direction X, as depicted.

(47) The various embodiments described hereinabove may be combined and implemented with equal preference for one or several chicanes.