法国专利FR3030295A1 COMPACT DISPENSER TRAY FOR CONTACT COLUMNS GAS / LIQUID AT SEA

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专利摘要:
The invention relates to a distributor plate (2) for heat exchange column and / or material between a gas and a liquid comprising means (4) for the passage of gas through the plate. According to the invention, the plate comprises an upper plate (P1) and a lower plate (P2), each of the plates comprising at least two distinct means for the passage of the liquid, the openings of the means (10, 11) of the upper plate. (P1) being located at distinct ribs, at least one means (10) of the upper plate (P1) having the lowest elevation communicating with one of the means (12) of said lower plate by a feed duct (9). ). The invention also relates to a heat exchange column and / or material between a gas and a liquid, equipped with such a distributor plate (2), a floating barge comprising such a column, and the use of the column. .
公开号:FR3030295A1
申请号:FR1462559
申请日:2014-12-17
公开日:2016-06-24
发明作者:Yacine Haroun；Pascal Alix；Manel Fourati
申请人:IFP Energies Nouvelles IFPEN；
IPC主号:

专利说明:

[0001] The present invention relates to the field of offshore gas / liquid contact columns (in English offshore), and more particularly the offshore units for gas treatment, 002 capture, dehydration or distillation. The offshore units for gas treatment and / or CO2 capture by amine washing comprise liquid and gaseous absorption and regeneration columns for fluids. The latter operate in gas / liquid flow against the current or cocurrent and are installed on boats, floating barges or offshore platforms, for example FPSO type (English Floating Production, Storage and Offloading which means platform production of storage and unloading), or of FLNG (Floating Liquefied Natural Gas which means Liquefied Natural Gas Platform). Floating columns can also be fitted with distillation columns or dewatering columns. The columns used in these offshore units for gas treatment and / or capture of CO2 and / or distillation and / or dehydration generally operate on the principle of an exchange of material and / or heat between the gas and the fluid which circulate in the columns. FIG. 1 represents a particular case of a gas treatment column 1 equipped with a distributor plate at the top of the column. Conventionally, this gas treatment column 1 comprises several sections filled by a contactor 3, a distributor plate 2 is disposed above each section 3. The gas / liquid contactor contacts the gas G and the liquid L to allow exchanges. The standard distributors 2 used in the absorption / regeneration or distillation columns generally consist of a collector / distributor plate equipped with chimneys 4 (see FIG. 2). The distribution of the liquid is done by the passage of the liquid in the orifices 5 positioned on the bottom of the plate 2 and the distribution of the gas is by the chimneys 4. Each chimney 4 allows the passage of the gas, according to the mode of operation against current or co-current, from the lower part of the column to the upper part of column 1 or from the upper part to the lower part. The chimneys 4 are projecting from one side of the plate 2 and are perpendicular to it. Each chimney 4 is formed of several walls, for example parallelepipedal or cylindrical which delimit an internal volume which is open on either side of the plate 2. To prevent the liquid from passing into the chimneys 4, the exhaust opening or of arrival of the gas above the plate (according to the mode of operation against the current or co-current), is preferably orthogonal to the longitudinal direction of the chimney 4. The objective of the distributor plate is to distribute the liquid L homogeneously on the gas / liquid contactor 3. The trays equipped with chimneys can be of different types, and the chimneys can be positioned according to different configurations. Various variants of dispensing trays are disclosed in particular in the following patent applications and patents: US6338774B, US2004020238A, US6149136A and US5752538A. The gas / liquid contact columns considered are placed on floating structures, for example of boat type, platform or barge, sensitive to the swell.
[0002] As a result, the equipment installed on these units, and in particular the gas / liquid distribution trays, undergo wave movements with up to six degrees of freedom ("yaw, pitch, roll, heave, yaw, cavally"). As an indication, the angle associated with the combination of pitching and rolling oscillations can be of the order of +/- 8 ° with a period of 10 to 20 s. The orders of magnitude of the longitudinal, transverse and vertical accelerations then encountered in the column are respectively of the order of 0.2 to 0.5 m / s 2, 0.8 to 1.5 m / s 2 and 0.2 to 0.5 m / s 2 to 50 m above the bridge. Under these conditions, the operation of conventional distributor trays equipped with chimneys (Figure 2) can be strongly disturbed. Indeed, the operation of these distributors is mainly gravity, a liquid guard of uniform height "h" must be established on the distributor plate. The square of the speed of passage of the liquid through the orifices 5 located at the bottom of the plate 2 is proportional to the height of the liquid guard (UL2 gh). When the plate 2 is inclined under the effect of the swell (Figure 3), the height of the liquid guard is no longer uniform on the distributor plate (h1> h2) which causes an imbalance in the distribution of the liquid inlet the gas / liquid contactor 3. The quality of distribution and thus the efficiency of the column are strongly impacted. This mal-distribution, if not mastered, can significantly degrade the performance of the column. A significant liquid guard would be required to compensate for these effects, which means an increase in bulk and weight that is not suitable for offshore units. The guard of liquid is the interface between the gas and the liquid. The height of the liquid guard corresponds to the level of the liquid relative to the upper face of the tray. In order to avoid this type of problem, distribution elements that are not very sensitive to horizontal defects have been implemented. These distributors generally consist of a manifold and a distributor connected by one or more relatively long vertical pipes for the distributor to remain in charge regardless of the wave conditions encountered. These distributors are generally insensitive to the effects of waves and generate a good quality of distribution but are very bulky: their height can be several meters in some cases (US 2004020238 A). Another solution to these problems is described in patents FR 2771018 A (U56294053 B1) and FR 2771019 A (US 6395138 B1), it consists in using two distributors (primary and secondary). Each distributor is divided into several compartments in which the liquid is distributed. Thanks to these compartments, the liquid is better distributed during the inclination of the column. However, this solution remains cumbersome because it requires two distributors. In addition, the compartments do not communicate together, the distribution of liquid in the compartments is not balanced. US Patent 5,132,055, meanwhile, discloses a distributor tray in which the chimneys make it possible to compartmentalize the flow zone of the liquid. According to this document, the chimneys are then all parallel. The compartments therefore all have a different surface. In addition, the parallelism of the chimneys does not ensure a good distribution and a good distribution of the liquid on the entire plate. Indeed, when the slope of the plate is parallel to these chimneys, the height of the liquid guard varies significantly between the two ends of the plate. The patent application FR 2989595 A (US 2013/277868 A) discloses a dispenser tray on which are formed perforated partitions defining compartments. Perforated partitions make it possible to limit the bad distribution of the liquid.
[0003] The invention relates to a dispensing tray having at least two levels of collection and distribution of liquid. For the high liquid flow rates, a portion of the upper level liquid passes into the lower level, before being distributed from the tray to the packing bed by at least one opening at the base of the lower level. Another part of the liquid contained in the upper level is directly distributed to the base of the lower level. The objective of the proposed invention is to improve the operating flexibility in case of a wide range of variation of the liquid flow, while maintaining a small footprint.
[0004] The device according to the invention Thus, the present invention relates to a distributor plate for heat exchange column and / or material between a gas and a liquid comprising means for the passage of gas through said plate. Said plate comprises an upper plate and a lower plate, each of said plates comprising at least two distinct means for the passage of said liquid through said plate, the openings of said means of said upper plate being located at distinct ribs, at least one means said upper plate having said lowest rib communicating with one of said means for passing said liquid from said lower plate through a supply conduit.
[0005] According to a preferred embodiment of the invention, one of said means for the passage of said liquid through said upper plate may be formed by chimneys projecting from the upper face of said upper plate.
[0006] Advantageously, said means of said upper and lower plates, in communication with said conduit for the passage of said liquid, may be constituted by orifices of said plates. Preferably, one of said means for the passage of said liquid through said upper plate may be constituted by orifices of said upper plate. According to a preferred embodiment of the invention, said means for the passage of gas may be gas distribution elements of cylindrical, cubic or parallelepiped shape.
[0007] Preferably, said means for the passage of the gas may be gas distribution elements in the form of a chimney projecting from the upper face of said lower plate and passing through said upper plate.
[0008] According to one embodiment of the invention, the half-space formed above said first plate, said first level, can be divided into compartments by means of at least one partition to the right of the upper face of the said first plate, said partitions of said first level including at least one perforation to allow the flow of a portion of said liquid between said compartments of said first level, and wherein the closed space between said first and second plates, said second level , is divided into compartments by means of at least one partition. According to one embodiment of the invention, said first level of said tray may comprise a plurality of secant partitions.
[0009] Preferably, said partitions of said first level may be composed of two series of partitions, said partitions of each series being parallel to each other and secant to the partitions of the other series.
[0010] In a very preferred manner, the partitions of said second level may be placed symmetrically with the partitions of said first level relative to said upper plate.
[0011] According to one embodiment of the invention, said perforations of two parallel partitions of said first level defining a same compartment may not be aligned.
[0012] Preferably, said perforations may be arranged at the base of said partitions of said first level. Advantageously, said partitions of said first level may have a height greater than or substantially equal to the height in said first level of said gas distribution means. According to one embodiment of the invention, the dimensions 1_, 1 and 1_, 2 of a compartment of said first level can be between 100 and 1000 mm.
[0013] According to one embodiment of the invention, said first level may comprise at least one retention compartment located at the periphery of the distributor. In addition, the invention relates to a heat exchange column and / or material between a gas and a liquid, wherein the two fluids are brought into contact by means of a lining. Said column comprises at least one distributor plate according to the invention for distributing said fluids on said packing. The invention also relates to a floating barge, in particular for the recovery of hydrocarbons, which comprises at least one column according to the invention.
[0014] In addition, the invention relates to the use of a column according to the invention for a gas treatment process, 002 capture, distillation or air transformation. BRIEF DESCRIPTION OF THE DRAWINGS Other characteristics and advantages of the method according to the invention will appear on reading the following description of nonlimiting examples of embodiments, with reference to the appended figures and described below. FIG. 1, already described, illustrates the particular case of a gas treatment or CO2 capture column equipped with a distributor tray at the top of the column.
[0015] Figure 2, already described, illustrates a distributor tray according to the prior art. Figure 3, already described, illustrates an inclined distributor plate according to the prior art.
[0016] Figure 4 illustrates a partial view of a distributor tray according to one embodiment of the invention. Figure 5 illustrates a distributor plate in an inclined position according to one embodiment of the invention.
[0017] FIG. 6 illustrates the operation of a distributor plate according to one embodiment of the invention as a function of the liquid flow rate. Figure 7 is a comparative curve between a distributor plate according to the invention and a distributor plate according to the prior art. Figure 8 illustrates an alternative embodiment of the dispenser tray according to the invention.
[0018] Figure 9 illustrates an alternative embodiment of the dispenser tray according to the invention. Figure 10 illustrates an alternative embodiment of the dispenser tray according to the invention. DETAILED DESCRIPTION OF THE INVENTION The invention relates to a distributor plate for a heat exchange column and / or material between a gas and a liquid, comprising at least one gas distribution means through the plate, an upper plate and a lower plate, each of the plates having at least two separate means for the passage of liquid through said plate. According to the invention, the openings of the means of the upper plate are located at distinct ribs, and at least the means of the upper plate having the lowest elevation communicates with one of the means for the passage of liquid from the lower plate by a supply duct.
[0019] The top plate of the tray according to the invention is called the top plate and the bottom plate of the plate according to the invention is located at the lowest side. The ribs are evaluated when the plate is in a non-inclined position and along a vertical axis traversing the plates constituting the plate. According to the invention, a first means for the passage of liquid, called "medium with high opening" thereafter, the upper plate has an opening whose coast is greater than the coast of the opening of a second means, called "medium with low opening" thereafter, the upper plate. According to the invention, the low opening means for the passage of the liquid from the upper plate communicates with a means for the passage of said liquid from the lower plate by a supply duct. According to the invention, the gas distribution means through the plate passes through both the upper and lower plates of the plate.
[0020] Thus described, the invention comprises two levels of collection and distribution of the liquid: A first level, said higher level thereafter, constituted by the half-space formed above the upper plate, wherein the liquid arriving from the gas treatment column is collected and then distributed via at least two means for the passage of liquid through the upper plate, o A first means, high opening, allowing the passage of the liquid contained in the upper level through the plate superior; o A second means, with a low opening, extended by a conduit, to a means of the lower plate for the passage of liquid through the lower plate, allowing the passage of the liquid contained in the upper level to below the lower plate . Thus, a portion of the liquid contained in the upper level passes through the entire plateau; A second level, called lower level thereafter, constituted by the space formed between the two plates in which the liquid coming from the upper level, by the high-opening means allowing the passage of the liquid contained in the upper level through the upper plate, is collected and then distributed via a means for the passage of liquid through the lower plate. According to one embodiment of the invention, the lower level of the plate is only supplied with liquid by the high-opening means located in the upper level.
[0021] Thus described, the dispenser tray according to the invention allows a portion of the liquid contained in the upper level to pass through the entire tray, via a feed duct joining the two plates, and to another part of this liquid of to be first distributed in the lower level of said plateau, before being distributed under said plateau.
[0022] Figure 4 illustrates a distributor plate 2 according to an embodiment of the present invention. This is an isometric view of a platter cut according to a diameter of the platter. The other part of the plate is deduced by symmetry, with a partition at the level of the cutting plane. FIG. 4 describes a distributor plate 2 constituted by an upper plate P1 and a lower plate P2 delimiting an upper level Ni and a lower level N. The means 11 for the passage of liquid with a top opening of the upper plate P1 comprises an opening whose coast is greater than the rib of the opening of the second means 10 with low opening of the upper plate. The means 10 with low opening for the passage of the liquid from the upper plate P1 communicates with a means 12 for the passage of said liquid from the lower plate P2 by a supply duct 9. The gas distribution means 4 through the tray crosses both the top plates P1 and lower P2 of the plate.
[0023] As described, the present invention allows a good flexibility of the distributor plate, being adapted to different flow rates. Indeed, when the liquid flow rate is high, the liquid storage height in the upper level Ni on the plate 2 (height of the liquid relative to the base of the upper level Ni of the plate, and therefore with respect to the upper plate P1) is high and can be above the means 11 for the passage of liquid from the upper plate (said nominal mode, Figure 6a); a portion of the upper level liquid Ni is then distributed via this means 11 in the lower level N2, and the other part of the upper level liquid Ni is distributed directly under the distributor plate via the conduit 9 passing through the lower level N2. In case of low liquid flow, the level of liquid contained in the upper level Ni may be below the opening of the opening of the chimney 11 (so-called "turn-down" mode, or low operating speed in French Figure 6b); the liquid contained in the upper level Ni is then distributed directly under the distributor plate, via the conduit 9 passing through the lower level N2; thus, in turn-down mode, there is no liquid contained in the lower level N2 of the plateau. Thus, the present invention makes it possible to maintain a liquid guard sufficiently high so as not to degrade the quality of the distribution of the liquid under the effect of the oscillating movement linked to the swell. Thus, by its two levels of opening means 10, 11, for the passage of the liquid of the upper level Ni, and the existence of a lower level N2 of collection and distribution serving as liquid guard height controller in case of high liquid flow, the distributor plate according to the invention allows a greater flexibility of operation than the prior art (compared for example with the patent FR 2989595 A (US 2013/277868 A)), while providing a minimum footprint (In comparison for example applications FR 2771018 A and FR 2771019 A which require two separate trays, a primary tray and a secondary tray). Indeed, the height of the lower level of the distribution plate according to the invention may be very small, of the order of a few centimeters. Advantageously, the passage of the liquid from the upper level Ni through the entire plate (that is to say without being distributed in the lower level N2) is provided by a supply duct 9, one of whose ends is a hole 10 pierced on the upper plate Pi, and the other end is an orifice 12 drilled on the lower plate P2.
[0024] Preferably, the ducts 9 will have a cylindrical shape, but may be triangular or square section, the orifices 10 and 12 of each duct then having concordant shapes. In addition, the ducts 9 may be of the same size or of different sizes, the orifices 10 and 12 of each duct 9 having concordant dimensions. The ducts 9 may have a triangular or square pitch. Preferably, the means 5 for the passage of liquid contained in the lower level N2 through the lower plate P2, and therefore under the distributor plate, is constituted by orifices pierced on the lower plate P2. The orifices 5 may have a triangular or square pitch. In addition, the orifices 5 may be of the same size or of different sizes. According to one embodiment of the invention, the two plates P1 and P2 are horizontal, parallel to each other, and distant by a distance h. In this case, the length of the duct is equal to the distance h between the two plates P1 and P2. According to one embodiment of the present invention, the distance h between the plates P1, P2 of the plate is between 30 and 500 mm, preferably between 50 and 200 mm. According to one characteristic of the invention, the gas distribution means 4 may be cylindrical, cubic, parallelepipedic, or of any similar form. According to one embodiment of the invention, the means for the passage of the gas are chimneys 4. In addition, the step of the chimneys on the plate may be a triangular or square pitch.
[0025] According to one embodiment of the present invention, the high opening means 11 for the passage of liquid contained in the upper level Ni to the lower level N2 may be of different heights and / or may comprise lateral openings at different heights, in order to make the dispenser tray flexible. According to one embodiment of the present invention, the openings of the high opening means 11 for the passage of liquid contained in the upper level Ni to the lower level N2 may be slots or orifices. The height of the high opening means 11 for the passage of liquid contained in the upper level Ni to the lower level N2 is advantageously less than the height of the stacks for the passage of gas 4.
[0026] According to an embodiment of the present invention, the means 11 for the passage of liquid may have different cylindrical, cubic, parallelepipedal shapes, or any similar form. Preferably, the means 11 for the passage of liquid contained in the upper level Ni to the lower level N2 are chimneys. According to one embodiment of the present invention, the upper level Ni is compartmentalized by placing at least one partition 6 on the upper face of the upper plate Pi, and the lower level N2 is compartmentalized by placing at least one partition 8 on the upper face of the lower plate P2. The partitions 6 of the upper level Ni generate compartments 13, 14, of liquid, which serve as a "barrier" when the plate is inclined. The partitions 8 of the lower level N2 generate compartments 15, 16, of liquid, which allow to block the lateral movement of the liquid and thus ensure that the compartment remains in charge when the plate is inclined, in case of high fluid flow. In addition, the partitions of the upper level comprises at least one perforation 7 to allow the flow of fluid between the compartments 13, 14, the upper level Ni, which ensures a good radial distribution of the liquid in the entire upper level Ni of the dispenser tray. The perforations 7 may be circular, oblong, rectangular, etc. However, the surface of the perforations 7 may preferably remain small relative to the surface of the partitions of the upper level, and so that the partitions 6 of the upper level Ni continue to play their main role: to limit the amount of fluid s' flowing on the upper level of the tray, to ensure a good homogeneity of the height of the liquid on the upper level of the tray. Thus, it maintains a relatively homogeneous liquid guard even with a large inclination. A good quality of liquid distribution on the gas / liquid contactor is therefore guaranteed.
[0027] According to one embodiment of the present invention, the partitions 8 of the lower level N2 are placed in symmetry of the partitions 6 of the upper level Ni with respect to the upper plate Pi. The number of compartments in the two levels is then identical and the compartments the lower level 15, 16 have the same lateral limits as the compartments 13, 14, of the upper level Ni.
[0028] 5 illustrates a distributor plate in an inclined position with two levels Ni, N2, liquid collection and distribution each consisting of four compartments of the same dimensions, the compartments 13, 14, the upper level Ni can communicate via perforations 7 placed in the partitions 6 of the compartments. Compared with Figure 3, the height of the liquid guard varies less, so the output velocities of the UL, and UL2 liquid differ little. Consequently, the distribution is more homogeneous than with the distributor plate according to the prior art. According to one embodiment of the present invention, a chimney for the passage of gas through the entire tray is placed in certain compartments. According to another embodiment of the present invention, a chimney for the passage of gas through the entire plate is placed in each compartment of the upper level Ni, and extends in the lower level N2, and this up to the base of the lower plate P1 plateau.
[0029] According to a preferred embodiment of the invention, at least one high opening means 11 for the passage of liquid through the upper plate P1 is placed in each compartment of the upper level Ni. According to a preferred embodiment of the invention, each compartment 13, 14 of the upper level Ni comprises at least one, preferably several, passage means for the liquid contained in the upper level Ni, extending through a conduit 9 passing through the lower level N2, said duct leading to a means 12 for the passage of the liquid through the lower plate P2. According to the embodiment of the invention illustrated in Figure 4, the partitions 6, 8 of a collection and distribution level Ni, N2 are divided into two series (or sets) of partitions. In each series, the partitions are parallel to one another, spaced regularly by a length L1, and secant to the partitions of the other series, which are spaced regularly by a length 1_, 2. Thus, the upper level collection and distribution compartments 13, 14, the lower level collection and distribution compartments 15, 16 have substantially a parallelogram shape, and according to the illustrated rectangle example. Advantageously, according to this embodiment, the partitions 6 have a height greater, less or substantially equal to the height of the chimneys 4 in the upper level. This height is sufficient to ensure a good quality of distribution, while limiting congestion. Each distribution compartment 13, 14, of the upper level Ni and its symmetrical compartment 15, 16, in the lower level N2 comprise one and the same gas chimney 4. According to this embodiment, it is possible to choose a distance 1_, 1 and 1_, 2 substantially equal to the distance between two adjacent chimneys. According to one embodiment of the invention, the maximum distance Lc, x (in mm), with i equaling 1 or 2, is calculated between two consecutive partitions according to a formula of the type: Lei _ max 2 tan where 0 is a maximum angle of inclination, imposed by marine conditions. Very preferably, the dimensions 1_, 1 and 1_, 2 of a compartment are between 100 and 1000 mm. According to one embodiment of the invention, each partition 6 of the upper level Ni 30 contains a single perforation 7. In addition, according to this embodiment, to prevent a linear flow of the fluid and to ensure a good radial dispersion of the liquid in the upper level Ni, the perforations 7 of two parallel walls of a distribution compartment 13 of the upper level are preferably not aligned (or coaxial), that is to say a straight line that passes through the centers of perforations two parallel partitions 35 of the upper level Ni, is not parallel to one of the partitions of the compartment 13 of the upper level Ni. Advantageously, the perforations 7 are placed in the lower part 50 of the partitions 6 of the upper level Ni, so as to always be below the height of the liquid guard. The number of compartments per collection and distribution level (and therefore the number of partitions per distribution level) may be dependent on the diameter of the tray. Preferably, a large-sized tray is more compartmentalized than a smaller-sized tray. According to a variant of the implementation of the invention, it is possible to use at least one of the following characteristics: the compartments 13, 14, of the upper level Ni and their compartments 15, 16, in symmetry in the lower level N2 may comprise several chimneys for the passage of gas 4; the compartments of the upper level Ni, and therefore those of the lower level N2, have a triangular shape; for this embodiment, there can be three sets of partitions in each level, the partitions of the same series being parallel to each other, and secant to the partitions of other series; the compartments of the upper level Ni, and therefore those of the lower level N2, have a hexagonal shape (for example of the honeycomb type); the perforations 7 of two opposite sides of a compartment 13, 14, of the upper level Ni are aligned; each partition 6 of the upper level Ni has several perforations 7. In addition, according to an alternative embodiment of the invention, the distributor plate 2 may comprise a secondary distribution system of the liquid (Figure 8). The secondary distribution system is projecting from the underside of the tray and is used to distribute on the lining the liquid from the liquid passage means. The secondary distribution system improves the liquid distribution quality by orienting the distribution of the liquid on the packing. According to a particular mode of implementation of the invention, the secondary distribution system may comprise baffles 17 which direct the distribution of the liquid. Alternatively, the secondary distribution system may comprise a set of sprinklers (set of several pipes arranged in parallel and equipped with orifices), chimneys projecting on the lower part of the distributor plate, and / or a set of perforated pipes arranged in parallel under the distributor tray.
[0030] In addition, according to an alternative embodiment of the invention, the upper level Ni of the distributor plate 2 comprises at least one retention compartment 18 (Figure 9). A retention compartment is formed by partitions 6 placed in the upper level and has no means for the passage of the liquid. Preferably, the retention compartment 18 has no means for the passage of gas through the tray. The partitions 6 of the retention compartments 18 are also perforated. According to the invention, the retention compartments 18 are situated at the periphery of the upper level Ni of the plate 2. According to one aspect of the invention, all the compartments situated at the periphery of the upper level Ni of the plate 2 are retention compartments 18 and the other compartments are distribution compartments 13,14. A retention compartment makes it possible to attenuate the accumulation and the decrease of the liquid during the oscillations induced by movements of the plate imposed by the marine environment, and thus to ensure a good quality of distribution of the liquid. For all the embodiments of the invention, the dimensions of the plate and its components can verify the following intervals: the pitch P of the gas chimneys 4 is between 50 and 500 mm, preferably between 100 and 300 mm, the plateau 2 has a height of between 100 and 2000 mm, preferably between 600 and 1000 mm, the diameter of the plate 2 is between 300 and 10000 mm, if the shape of the elements 4 is cylindrical, the diameter d is between 50 and 500 mm, the height of the chimneys 4 is between 300 and 2000 mm, preferably between 400 and 700 mm, the distance to the minimum edge of the chimneys 4 is between 50 and 400 mm, and preferably between 100 and 200 mm , the height of the partitions 6 is between 100 and 2000 mm, preferably between 700 and 1000 mm, the gold diameter of the perforations 7 is between 5 and 100 mm, preferably between 30 and 50 mm.
[0031] The width of the retention compartment Z is between 40 and 300 mm. These different embodiments of the dispenser plate according to the invention can be combined with one another, in particular the variant embodiments of FIGS. 5 and 8; for example chimneys 11 can be connected to deflectors 12.
[0032] According to a particular mode of implementation of the present invention, the distributor plate comprises a third plate (FIG. 10), called intermediate plate PI, placed between the upper plates P1 and lower P2, and also comprising two distinct means for the passage of liquid. In this case, passage means for the high-opening liquid (11) can project not only the upper plate P1 but also the intermediate plate PI, and some supply ducts 9 can dispense the liquid from the upper plate. P1 to the lower plate P2, and other conduits 9 can dispense the liquid from the intermediate plate PI to the lower plate P2. The invention also relates to a column 1 for exchange of material and / or heat between two fluids, in which two fluids are brought into contact by means of a gas / liquid contactor 3, column 1 comprising at least a first input a liquid fluid, at least a second inlet of a gaseous fluid, at least a first outlet of a gaseous fluid and at least a second outlet of a liquid fluid. The column 1 further comprises a distributor plate 2 as described above, to allow the distribution of the fluids on the contactor 3.
[0033] Column 1 is advantageously an amine wash column but is suitable for any type of solvent. Advantageously, the gas / liquid contactor 3 is a structured packing bed or bulk. In addition, the invention relates to an offshore floating barge, in particular of the FPSO or FLNG type, in particular for the production and treatment of hydrocarbons. The barge comprises an exchange column of material and / or heat between a gas and a liquid as described above. The column can be part of a gas treatment unit and / or CO2 capture to clean gases produced (or smoked). The column according to the invention can be used in processes of gas treatment, 002 capture, distillation or air transformation. Comparative Example In order to illustrate the advantages of the present invention, it is proposed to compare the results obtained by the invention (embodiment of FIG. 4) with those obtained by a distributor plate according to the prior art as described in the application FR 2989595 A (US 2013/277868 A). The properties of the trays according to the invention and according to the prior art are described below: Properties of the tray according to the prior art - Number of distribution levels: 1 - Number of compartments: 120 - Dispenser plate diameter: 4000 mm - Diameter of gas stacks: 100 mm - Height of gas stacks: 600 mm - Number of gas stacks: 120 - Length of distribution compartments 1_, 1 x 1_, 2: 300 x 300 mm - Opening of the partition: approximately 1% - Nominal flow rate of liquid: 100 m3 / m2 / h - Turn-down liquid flow rate: 40 m3 / m2 / h 10 Properties of the tray according to the invention (FIG. 4): - Number of distribution levels: 2 - Number of compartments per level of distribution: 120 - Diameter of the distributor plate: 4000 mm 15 - Diameter of gas stacks: 100 mm - Height of gas stacks: 600 mm - Number of gas stacks: 120 - Length of distribution compartments 1_, 1 x 1_, 2: 300 x 300 mm - Opening of the partition: approximately 1% 20 - Nominal flow of liquid: 100 m3 / m2 / h - Turn-down flow rate: 40 m3 / m2 / h A numerical approach is used CFD (Computational Fluid Dynamics Can be Translated by Digital Fluid Mechanics) which consists in studying the motions of a fluid by the numerical resolution of mass conservation equations and momentum balance (Navier equations). -Stokes). The numerical approach used is an interface tracking type (VOF for Volume of Fluid) described in Hirt & Nichols, JCP 39, 201-225 (1981). This method, well known by those skilled in the art, is well adapted to simulate the change of interface topology encountered in the distributor subjected to the movement of the swell (detachment, interface recollement, surf formation ...) . The evolution of the two-phase flow is described by the mass conservation equation, momentum conservation equations, and the transport equation of the presence rate. Calculations were made with Fluent 14.5® commercial software (ANSYS, USA). For all of the evaluation CFD calculations presented below, the angle associated with the simulated roll motion is +/- 50 with a period of 15 s. The properties of the fluids are: pL = 1000 kg / m3, / IL = 1 cP, pG = 1.2 kg / m3, // G = 0.018 cP. A distance to the turning point of the offshore platform of 50 m is taken into account in the calculations. This distance corresponds to the distributors located at the head of the column, exposed to the strongest accelerations. Finally, capillary effects are assumed to be negligible.
[0034] It is recalled that the distribution efficiency of the proposed system is compared with that of a distributor plate according to the prior art in the case where the plate is subjected to the movements of the swell. To quantify the sensitivity to the marine environment of a plateau, one can calculate an index of imbalance IQ (expressed in percentage) defined by a formula of the type: 1Q (%) qL, max The mm X100 L, average with: -11_ , max the maximum liquid flow out of one of the compartments of the dispenser, qL, min and the minimum liquid flow out of one of the compartments of the dispenser and a -, L means is the average flow out of the dispenser. A low liquid imbalance index value indicates a low sensitivity of the distribution to the effects of waves. Conversely, a high value of this IQ index indicates a strong distribution imbalance. FIG. 7 compares, for the two distribution trays, the evolution of the unbalance index 10, averaged over a period of oscillation, as a function of the liquid flow rate (which is normalized by the liquid flow in nominal mode (qLN) Thus, a high el, U, LN ratio means that one is close to the nominal mode operation (liquid flow rates in optimal operating mode, approximately 80% of the unit operating time) and a ratio qL / qLN low indicates a predominant operation in turn-down mode (low liquid flow rates) For the distributor plate according to the prior art FR 2989595 A (US 2013/277868 A), the average unbalance index (solid line curve) increases significantly with the decrease of the liquid flow rate, which indicates a low flexibility, because the quality of distribution is substantially degraded (10 = 29%) in operation in turn-down mode .The distributor plate according to the present invention (curve in dashes) offers u good quality of distribution, which remains stable with the decrease of the solvent flow, which indicates a very good flexibility. Indeed, the average unbalance index remains below 10% in operating mode in turn-down mode. This example shows that the claimed device makes it possible to improve the distribution efficiency of floating medium operating flexibility. It may also be noted that at 100% of the nominal flow, the average unbalance index is better with a distributor according to the invention. This is due to a higher liquid guard height at the nominal flow rate in the new dispenser.

权利要求:
Claims (18)
[0001]
CLAIMS1) Dispenser tray (2) for exchange column (1) heat and / or material between a gas and a liquid comprising means for the passage of gas through said plate, characterized in that said plate (2) comprises an upper plate (P1) and a lower plate (P2), each of said plates (P1, P2) comprising at least two separate means (5, 10, 11, 12) for the passage of said liquid through said plate, the openings of said means (10,11) of said upper plate (P1) being located at distinct ribs, at least one means (10) of said upper plate (P1) having said lowest rib communicating with one of said means (12) for the passage of said liquid from said lower plate (P2) by a supply duct (9).
[0002]
2) Plate according to claim 1, wherein one of said means (11) for the passage of said liquid through said upper plate (P1) is formed by chimneys projecting from the upper face of said upper plate (P1).
[0003]
3) plate according to one of the preceding claims, wherein said means (10, 12) of said upper and lower plates (P1, P2), in communication through said conduit (9) for the passage of said liquid, are constituted by orifices said plates (P1, P2).
[0004]
4) Plate according to one of the preceding claims, wherein one of said means (5) for the passage of said liquid through said upper plate (P2) is constituted by orifices of said upper plate (P2).
[0005]
5) Tray according to one of the preceding claims, wherein said means (4) for the passage of the gas are gas distribution elements of cylindrical, cubic or parallelepiped shape.
[0006]
6) Plate according to one of the preceding claims, wherein said means (4) for the passage of the gas are gas distribution elements in the form of a chimney projecting from the upper face of said lower plate (P2) and passing through said top plate (P1).
[0007]
7) Plate according to one of the preceding claims, wherein the half-space formed above said first plate (P1), said first level (Ni), is divided into compartments (13, 14) by means of at least one partition (6) in line with the upper face of said first plate (P1), said partitions (6) of said first level (Ni) having at least one perforation (7) to allow the flow of a part of said liquid between said compartments (13,14) of said first level (Ni), and wherein the closed space between said first and second plates (Pi, P2), said second level (N2), is divided into compartments (15, 16) by means of at least one partition (8).
[0008]
8) Tray according to claim 7, wherein said first level (Ni) of said plate (2) comprises a plurality of partitions (6) intersecting.
[0009]
9) Plate according to claims 7 or 8, wherein said partitions (6) of said first level (Ni) are composed of two series of partitions (6), said partitions (6) of each series being parallel to each other and intersecting the partitions (6) of the other series.
[0010]
10) plate according to claim 7 to 9, wherein the partitions (8) of said second level (N2) are placed symmetrically to the partitions of said first level (Ni) relative to said upper plate (P1).
[0011]
11) Plate according to claim 9, wherein said perforations (7) of two parallel walls (6) of said first level (Ni) delimiting a same compartment (13, 14) are not aligned.
[0012]
12) plate according to one of claims 7 to 11, wherein said perforations (7) are disposed at the base of said partitions (6) of said first level (Ni).
[0013]
13) Plate according to one of claims 7 to 12 wherein said partitions (6) of said first level (Ni) have a height greater than or substantially equal to the height in said first level (Ni) of said gas distribution means (4). ).
[0014]
14) Tray according to one of claims 7 to 13, wherein the dimensions 1_, 1 and 1_, 2 of a compartment (13, 14) of said first level (Ni) are between 100 and 1000 mm.
[0015]
15) Tray according to one of claims 7 to 14, wherein said first level (Ni) comprises at least one retention compartment located at the periphery of the distributor.
[0016]
16) Column for the exchange of heat and / or material between a gas and a liquid, in which the two fluids are brought into contact by means of a lining (3), characterized in that said column (1) comprises at least one less a distributor plate (2) according to one of the preceding claims for distributing said fluids on said lining.
[0017]
17) floating barge, in particular for the recovery of hydrocarbons, characterized in that it comprises at least one column (1) according to claim 16.
[0018]
18) Use of a column according to claim 16 for a process of gas treatment, 002 capture, distillation or air transformation.

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同族专利:

公开号 | 公开日

FR3030295B1|2018-09-28|

US20160175733A1|2016-06-23|

JP2016120485A|2016-07-07|

RU2015153422A|2017-06-21|

EP3034142A1|2016-06-22|

EP3034142B1|2017-08-23|

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NO3034142T3|2018-01-20|

CA2915280A1|2016-06-17|

AU2015268686A1|2016-07-07|

US10201766B2|2019-02-12|

CN105709449A|2016-06-29|

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CN105709449B|2019-12-13|

RU2015153422A3|2019-04-15|

AU2015268686C1|2021-02-11|

AU2015268686B2|2020-08-06|

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法律状态:
2015-12-11| PLFP| Fee payment|Year of fee payment: 2 |

2016-06-24| PLSC| Publication of the preliminary search report|Effective date: 20160624 |

2016-12-12| PLFP| Fee payment|Year of fee payment: 3 |

2017-12-14| PLFP| Fee payment|Year of fee payment: 4 |

2019-12-23| PLFP| Fee payment|Year of fee payment: 6 |

2021-09-10| ST| Notification of lapse|Effective date: 20210806 |

优先权:

申请号 | 申请日 | 专利标题

FR1462559|2014-12-17|

FR1462559A|FR3030295B1|2014-12-17|2014-12-17|COMPACT DISPENSER TRAY FOR CONTACT COLUMNS GAS / LIQUID AT SEA|FR1462559A| FR3030295B1|2014-12-17|2014-12-17|COMPACT DISPENSER TRAY FOR CONTACT COLUMNS GAS / LIQUID AT SEA|

EP15306928.1A| EP3034142B1|2014-12-17|2015-12-04|Compact dispenser tray for offshore gas/liquid contact columns|

NO15306928A| NO3034142T3|2014-12-17|2015-12-04|

AU2015268686A| AU2015268686C1|2014-12-17|2015-12-14|Compact distributor tray for offshore gas/liquid contact columns|

RU2015153422A| RU2696693C2|2014-12-17|2015-12-14|Compact distributing plate for marine gas-liquid contact columns|

CA2915280A| CA2915280A1|2014-12-17|2015-12-14|Compact distribution plate for gas/liquid contact columns at sea|

CN201510952528.3A| CN105709449B|2014-12-17|2015-12-16|Compact distributor tray for an offshore gas/liquid contact column|

JP2015246196A| JP6804192B2|2014-12-17|2015-12-17|Small distribution tray for marine gas-liquid contact tower|

US14/973,237| US10201766B2|2014-12-17|2015-12-17|Compact distributor tray for offshore gas/liquid contact columns|

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