DE1963876C3 - Device for the selective adsorption of components of a gas or liquid mixture - Google Patents

Description

types of drying devices with dormant or ter / 1 regenerated. ^{The v} ^ ° ^ "moving chambers to be carried out here apply, as shown in the following at positions in the table on sketch 1. Above some examples, the changeover valves can be easily shown schematically in a timer the positions specified in this table are shown in a schematic representation s.

Fig. 1 shows a four-chamber dryer with valve- This example clearly shows how with only four

switchover, containers filled with adsorbent and only

F i g. 2 a four-chamber dryer in circular, one regeneration fan and only one regeneration

rnetric arrangement with a flat slide control heater three separate adsorption

tion for series connection in the view from above io circuits can be operated. Compared to the

on the slotted plate in the direction of the arrows H-II in previously known solutions, where you have three completely different

F i g. 3, separate complete air dryer required,

F i g. 3 shows a longitudinal section through the design, saving two regeneration fans and two

according to FIG. 2, regeneration heaters and the associated

F i g. 4 to 6 a four-chamber dryer with hanging electrical control devices. separate circuits for two chambers each, namely in Fig. 2 and 3 is a four-chamber dryer m

F i g. 4 shows a plan view of the slotted plate of the flat circular symmetrical arrangement with a flat slide control in the direction of arrows IV-IV in slide control for series connection. 5: FIG. 5 shows a radial longitudinal section through the two control disks 7 fixed in space, upper flat slide control; F i g. 6 is a plan view 20 la are designed so that there are three control slots on the perforated plate of the flat slide control in FIG. 5; circuit and on the other hand each with a dry F i g. 7 to 9 a three-chamber dryer can be connected in the graining cycle. In the in F i g. 2 pact construction, namely FIG. 7 a longitudinal section drawn plan view of the control disk 7 along the line VII-VII in FIG. 8; 8 shows a cross section 25 with a direction of rotation of the chambers A, B, C, D along the line VIII-VIII in FIG. 7 and FIG. 9 shows a counterclockwise in the direction of arrow F the detail of the chamber seal in enlarged chamber B just the regeneration circuit R _t , representation in section along the line IX-IX in while the chamber A enters it. Chamber C is F i g. 8. switched into the drying circuit Q ₁ and F i g. 1 shows how four separate, with: 30 Chamber D into the drying circuit G ₂ . Kam adsorbent-filled containers A, S, C and D in mer B will shortly also be switched on in parallel to chamber C at intervals through the changeover valves F ₁ in the drying circuit G ₁ , until F _{0 in} each case either to the regeneration circuit and a short time later leaves the chamber C Trocklauf R _F.-R.4, or to the dry circuits G _1, G, G ₁ voltage circuit to enter the Trocknungskreislau. G ₁ or G _{3 can be} connected. "35. Here it is completely filled with moisture in the positions shown in FIG. 1, and then finally the container D is regenerated again in the Regenera shuttle valve, and the currency cycle is switched on A, B and C due to the type of construction to be dried, the additional effort for a second air is charged. The regeneration air is separated from the drying circuit extremely low by the fan R _F through the heater H over the 40 rig, because in addition to the previous device, wel- Valves V ₁ , F., and "F _{3 had} only one drying circuit through the container D ge ches, only presses em, in which the adsorbent is heated, additional drying air blower and, if necessary, the moisture is expelled. The humid one requires an additional filter, but no additional air leaves the device via the valves F ₀ , F, and F ₄ on the borrowed control elements or changeover valves as in point J?. The attached table shows the 45 embodiment according to FIG. 1.

Assignment of the valve positions. F i g. 4 to 6 show a slight modification of one

The fan G ₁ sucks air to be dried over the air dryer according to FIG. 2 and 3. The one shown here is an optionally upstream filter F ₁ consisting of a design and arrangement of the slots 5 and O ₁ , b. ₂ consumers, e.g. B. a granulate funnel, on and in the control disk 7 "causes this air to dry over the Vent.l F ₁ through the with 50 voltage circuit G ₁ only the chambers A and C adsorbent filled container A and are turned on and in the drying circuit valve F ₄ back to the consumer, where G. takes only chambers B and D. This can be beneficial to the drying air and moisture from the granulate, e.g. when gases are dried and flows via a return line Again to the target, the finest and widely _{differing filter F 1.} There is thus a completely self-contained dust particle, some of which can settle in the separate adsorption circuit.

Correspondingly, a second and third impurity of the two drying circuits are produced here - the adsorption circuit via the fan G. “the vent is excluded.

til F. "The container" and the valve V \ and via Fig. 7 to 9 show an embodiment fm

the blower G ₁ , the valve F. ,, the container C and 60 an air dryer with a single one of the valve F _0. ' _{Optionally, the valve F 4} can then be rotated on the motor M via the indicated gear and analogously to the valves V. and cylinder container Z, the one with the two stationary F ₁ . Heaters are provided which heat the dried air, which is divided into three segments by partition walls W, on connection hoods H ₁ and 2, which are set with a thermostat, for the different temperatures. 65 air ducts or circuits practically three

As soon as after a certain time the container D forms chambers 1, 2 and 3, which, however, are in the lower is sufficiently regenerated, the valves are different from the designs described above geschähet and z. B. as the next container of the Behäl- play are not hermetically separated from each other

F i g. 9 illustrates the sealing of the partition walls W against the filling. Here, the rotating, adsorbent-filled container Z in segment 3 is acted upon by the fan R _E and the outlet R _A with regeneration air, in which

Segment 1 via the blower G ₁ with dry air and in segment 2 via the blower G ₁ also with dry air. So there are again two different drying cycles connected in series with a regeneration cycle.

For this purpose 2 sheets of drawings

Claims (3)

in which the adsorbent is in a rotating patent claims: the cylinder container is housed and this segment-wise from regeneration air or to 1. Device for selective adsorption of drying air flowing through it (British patent components a gas or liquid mixture 532 481), so that these segments in the Besches with at least three adsorption chambers, holders also form “chambers”. which alternately via valves or slides A disadvantage of the previously known Overriding in an adsorption cycle and directions is that they are only one at a time Can be switched into a regeneration cycle, connected to a source of demand or a consumer characterized in that the je- io are köanen. Has z. B. an extrusion company mehweils If there are no extruder in the regeneration cycle, it is required for the granulate drying switch An air dryer in at least two chambers on each extruder. Would on other separate adsorption circuits, it distributes several granulate funnels that can be switched on to an air source. connect the dryer, the dry air 2. Apparatus according to claim 1, characterized in that each chamber cyclically afterwards in the individual granulate hoppers unevenly distribute one another in at least two absorption circuits and thus no uniform drying occurs and is switched on in the regeneration circuit affect all extruders. In addition, werbarist <j _{en o} f _t j _{e after} d _em to be processed 3. Apparatus according to claim 1 or 2, with 20 different drying temperatures of material who wanted the chambers to be circularly symmetrical and rotatable, which of course combined with division an axis are arranged and the end face zig air flow to several granulate hoppers via slide controls from two control panels is also not possible ben with the pipelines of the individual circles Runs are tightly connected, and in the as device for the selective adsorption of the external control disk slide slots for the parts of a gas or liquid mixture with a min-regeneration circuit and the adsorption circuit dcstens three adsorption chimneys, which run off each other as circular sections are provided, alternating Via valves or slide controls in characterized in that the slide slots are an adsorption circuit and a regeneration (6j, 6 ₂ ) for the various Adsorptionskreis- 3 ° tion circuit can be switched on, according to the invention, the run (G ₁ , G ₂ ) concentrically on different ones in the regeneration circuit are arranged radii and the slide slot switched chambers in at least two of one- (5) for the regeneration circuit (R _A ) as a circle other separate adsorption circuits distributed between the innermost and switchable ring section. The individual, separate adsorption extremities of these radii and the 35 circuits can be connected in series with one another and with respect to the inlet and outlet openings of the chambers (A ... D) regeneration circuit, which are distributed over the various radii. type that a freshly regenerated chamber after leaving the regeneration circuit first enters a first adsorption circuit, remains in this for a while and then in at least one two- th adsorption cycle, in which it is continue to saturate before it is switched back into the regeneration cycle, or they can each other be connected in parallel, so that each 45 chamber during its adsorption phase only in The invention relates to devices for a specific circuit, selective adsorption of constituents of a gas The parallel feed of the consumers brings ins- or a liquid mixture with at least three special features in a simple and compact design sorpüonskammern, which alternately discuss sealing problems when the circuits fail Valves or slide controls in an Adisorp 5 ° are allowed to influence. The series feed seems to be a circulatory system and to offer no alternative to a regeneration cycle because of the can be switched on. Such adsorption devices in the cycle sequence from consumers lying later serve, for example, to dry air. a chamber that is already adsorbed Such adsorption devices can be found in. The downstream consumer is but three Divide groups, namely devices, in 55 neutrally not disadvantaged because they are dimensioned two or more separate, with a chamber and / or its filling with Be adsorbent Filled fixed chambers train the quantities of dry air that are available one after the other, which can be reached through valves alternately or consumers switched on, cyclically one after the other on a regeneration circuit - that when changing from the first to the second Verbraulauf and an adsorption circuit is switched on rather first in the flow direction; Devices in which two or more precipitated part of the adsorbent medium in the camouflaged one another separate, adsorbent-filled mer has become moist, while the chambers behind it are present, which, combined with the rest of the area, is still completely dry. The Ademer Axis, turning slowly and over co-rotating sorbents is therefore consecutive in time Flat slide controls to the spatially fixed 65 first with one of the flows to be treated in connected to the piping systems of the circuits and then brought into contact with a (German patent 378 608 or German or several others before it is regenerated. Offenlegungsschrift 1 544 036) and devices, the invention can be applied to all known construction