DE2218699B2 - Multi-stage standing countercurrent extractor - Google Patents

Description

2 18 699

^ _n -I)] in the pipeline [RLK (η-1)] of the light phase from the connection [LS (n-1)] to the suction side of the mixing pump [P (n-1)], while the level is raised of the phase separation mirror in the separation chamber [Γ (n)] the shut-off and control valve [VSK <n + l)] in the pipeline [RSK (n + 1)] of the heavy phase from the nozzle [SS (n + 1)] to the suction side the mixing pump [P (n + 1)] throttles.

According to the invention, adjusted in Kreislau the light phase to adjust the level ^f of the phase separation level in the deposition chamber [T (n)], the Control Valves [VS (n)] in the tubing [RS (n)] of the heavy phase to the suction side of the mixing pump (P (n-1)] and / or the control valve [VL (n-1)] in the pipeline [RL (n-1)] of the light phase to the suction side of the mixing pump [P (n)], whereby to lower the At the level of the phase separation mirror, the control fittings [VL (n)] and [VS (n-1)] are throttled and the Reeel fittings [VL (n)] and [VS (n-1)] are opened further to raise the level.

In the case of the heavy phase cycle, adjust the level of the phase separation mirror in the Separation chamber [T (n)] the control fittings [VL (n) l in the pipeline [RL (n)] of the light phase Suction side of the mixing pump [P (n + 1)] and / or the control valve (VS [n + 1)] in the pipeline [RS (n-M)] of the heavy phase to the suction side of the mixing pump [P (n)], whereby to lower the level of the phase separation mirror the control valve [VL (n)] and / or [VS (n + 1)] is throttled and opened further to raise the level.

If you want to operate a driving style with a straight passage of the two phases, you adjust the setting the level of the phase separation mirror U in the separation chamber [T (n)] the control valve [VL (n)] in the pipeline [RL (n)] / ur mixing pump [Ρ (ΐΐτ-Ι)] or the control alarm [VS (n)] in the pipeline [RS (n)] to the mixing pump [P (n-1)], whereby for lowering of the level, the control valve [VS (n)] is opened further and / or the control valve [VL (n)] is throttled and to raise the level, [VL (n)] is opened further and / or [VS (n)] is throttled.

The invention is illustrated schematically and by way of example in the drawings and is illustrated in the following Embodiments described in more detail

1 and 2 show a vertical section through three stages of the mixer-separator-extractor according to the invention with externally laid pipelines including the necessary fittings. The separation chamber [T (n)], the Mixing pump [P (n)] and the pipeline connections shown. The Lines [RLK (n)] and [RSK (n)]. The lines [RL (n)] and serve to continue the phases [RS (n)] with the valves [VL (n)] and [VS (n)] that are preferably used for control. The separation chamber [T (n)] can contain any internals to accelerate the separation of the phase mixture. In the Outside pipelines can easily and clearly see inspection glasses and at all important points Sampling points are installed.

example 1

This example describes the light phase cycle in stage [T (n)]. Optionally can this can also be set in several or in all stages of the extractor during operation.

At the stage [T (n)] and analogously in all synchronized ones Steps are proceeded as follows:

The valve [VSK (n)] in the line [RSK (n)] remains closed. The fittings are opened: [VLK (n)] in the line [RLK (n)], [VS (n)] in the line [RS (n)], [VL (n)] in the line [RL (n)].

If the level of the heavy phase in stage [T (n)] is too high, then the valves [VLK (n)] throttled in line [RLK (n)] and [VS (n) j

ίο and / or [VL (n — 1)] in the lines [RS (n) j and / or [RL (n-1)] still open.

If the level of the heavy phase in stage [T (n)] is too low, the valves [VLK (n)] in the line [RLK (n)] opened further and [VS (n)] and / or [VL (n-1)] in the lines [RS (n)] and / or [RL (n-1)] throttled.

The phase ratio and the total amount of dispersion are determined with the throttle valve [DK (n)] in of the pump pressure line [RD (π)].

ao When setting the separating level, the total throughput and the phase ratio in the extractor stage can be moved in such a way that the fittings [VLK (n)] are in the circuit line [RLK (n)] and [VL (n)] in the overflow line

»5 [RL (n)] remain fully open. Only that is regulated Continuous (here the heavy) phase with the fitting (VS (n)] in the line [RS (n)] to the separating mirror set in the stage [T (n)], as well as with the fitting [DK (M] in the pump pressure line [RD (η)] to set the phase ratio and the total throughput in stage [T (n)].

In the case of the heavy phase cycle in stage [T (n)], the valve is analogously used [VLK (n)] in the pipe [RLK (n)] closed.

The other manipulations are analogous to the example for the cycle of the light phase, but naturally transformed for the new case.

Example 2

This example describes the operation without loops, i.e. H. pure countercurrent in the stage [T (n)] or in several or in all stages of the extractor.

For all of these stages, proceed as shown for stage [T (n)]:

The fittings [VLK (n)] and [RSK (n)] in the lines [RLK (n)] and [RSK (n)] remain closed.

The fittings. [VL (n)] and [VS (n)] in lines [RL (n)] and [RS (n)] are open. That The phase ratio in the stage is given by the amounts of the light and heavy phases. the Throttle valve [DK (n)] in the pump pressure line [RD (η)] is on one of the sum of the two through Phases adjusted amount.

If the level of the difficult phase in the stage is too high

[T (n)] the valve [VS (n)] must be opened further and the valve [VL (n)] throttled. With reverse Relationships are regulated in the opposite direction than just described.

The advantages achieved by the invention are in particular that it is now possible with a new multi-stage standing mixer-separator-extractor by simply opening and closing of shut-off valves from a mode of operation with the light phase cycle to a mode of operation with Cycle of the heavy phase or a driving style without cycle with straight passage during the current

to switch to the current operation, with one of these three different modes of operation in each level, can be set independently of the other levels. At the same time it is with the invention Design possible, the height of the separating layer independently in each chamber by throttling only one of the to regulate the shut-off valves provided for the respective stage. Another advantage is the elimination of Fixtures inside the separation chamber for guiding the phases and regulating the phase separation layer, whereby unclear flow conditions and costly constructions can be avoided. The fittings coming in place of the previously customary internals can be used in the normal commercial execution for which the fluidic parameters known or easily determined.

The functioning of any internals to accelerate the separation of the phase mixture in the separation chambers will not be affected by the new design, on the contrary Gained space to enlarge these internals.

With the option of setting the control mode for each individual stage independently of the other stages, the optimal driving style can be selected for the given conditions in the individual stages be e.g. B. can always be selected the phase ratio in which the shortest separation time of the Mixed phase results. With the previously common designs, once the mode of operation was selected, it was possible to use a circuit either the light or the heavy phase does not depend on the cycle of the other phase during operation be converted, for this a conversion during standstill was necessary.

For this purpose 2 sheets of drawings

Claims (2)

commercial valves from a mode of operation with patent claims: cycle of the light phase to a mode of operation with cycle of the heavy phase and vice versa or on 1. Multi-stage standing countercurrent extractor, a mode of operation without a circuit with a straight passage according to the mixer-separator principle, to be switched to during operation. The chem in each stage a part of the light or the extractor should be constructed simply and no heavy phase in the circuit through the mixer, complicated internals for the management of the liquid and the separator, ge phases and need for regulation,
characterized by a nozzle This object is achieved according to the invention by a [DS (n)] for feeding the phase mixture 10 multi-stage standing countercurrent extractor into the separation chamber [T (n)], a mixer-separator principle that is marked - [LS (n)] to derive the light phase from which is characterized by a connection [DS (n)] for the additional separation chamber [T (n)] and a connection [SS (n)] leading the phase mixture into the Separation chamber for discharging the heavy phase, through a [T (n)], a nozzle [LS (n)] for discharging the line [RL (n)] from the nozzle [LS (n)] to the suction 15 light phase from the Separation chamber [T (n)] and side of the mixing pump [P (n + P] and a line a nozzle [SS (n)] for discharging the heavy [RLK (n)] with the shut-off and control valve [VLK phase, through a line [RL (n)] from the nozzle (n)] to the suction side of the mixing pump [P (n)], through [LS (n)] to the suction side of the mixing pump [P (n + 1)] and a line [RS (n) ] from the neck [SS (n)] to a line [RLK (n)] with shut-off and control arm suction side of the mixing pump [P (n-1)] and an ao door [VLK (n) j to the suction side of the mixing pump [P (n )], Line [RSK (n)] with shut-off and control valve through a line [RS (n)] from the nozzle [SS (n)] to the [VSK (n)] to the suction side of the mixing pump [P (n)] suction side of the mixing pump [P (n-1)] and a line and through a line [RD (n) | from the pressure [RSK (n)] with shut-off and control valve [VSK (n)] side of the mixing pump [P (n)] with the control valve to the suction side of the mixing pump [P (n)] and through a [DK (n )] into the separation chamber [T (n)] via the a ₅ line [RD (n)] in front of the pressure side of the mixing pump nozzle [DS (n)]. [P (n)] with the control valve [DK (n)] in the 2. Multi-stage upright countercurrent extractor separating chamber [T (n)] via the nozzle [DS (n)].
According to a further development of the extractor, a valve [VL (n)] is in the line [RL (n)] to the suction control valve [VL (n)] in the line [RL (n) ] to the side of the mixing pump [P (nH)] and the control 30 suction side of the mixing pump [P (n 4-1)] and a control valve [VS (n)] in the line [RS (n)] to the suction valve [VS (n)] in the line [RS (n)] to the suction side of the mixing pump [P (n — D]. Of the mixing pump [P (n — 1)]. With the extractor according to the invention is a Countercurrent extraction of liquid mixtures 35 possible, whereby during the operation of the Ex- ■ tractor optionally in a separation stage, consisting of Separation chamber [T (n)] and mixing pump [P (n)], regardless of how the other separation stages are operated one of the phases in the cycle or both phases The invention relates to a multi-level standing 40 that can lead in a straight pass. To guide the countercurrent extractor after the mixer-separator-light phase in the circuit, the shut-off principle is opened, in which a part of the light and control valve [VLK (n)] in the pipeline or the heavy phase in the circuit through the [ RLK (n)] of the light phase from the nozzle [LS (n)] mixer and the separator can be guided. to the suction side of the mixing pump [P (n)] and closes the multi-stage upright counterflow extrac · - 45 shut-off and control valve [VSK (n)] in the tubular gates, in which the individual stage washer line [RSK (n )] of the heavy phase of the nozzle are shaped and arranged one above the other. [SS (n)] to the suction side of the mixing pump [P (n)].
Each stage consists of a mixing chamber, a separating chamber that opens to guide the heavy phase in the circuit and a feed pump (German for the shut-off and control valve [VSK (n)] in patents 1 080 522 and 1 207 919). 50 pipeline [RSK in)] of the heavy phase from such extractors working according to the mixer-separator system nozzle [SS (n)] to the suction side of the mixing pump [P (n)] are preferably closed and shut off the shut-off and Control valve [VLK (n) j drove that one of the liquid phases passes through all stages in the pipeline [RLK (n)] of the light phase from the straight passage, while the other in connection [LS (n)] to the suction side of the mixing pump [ P (n)]. each stage with a partial flow kept in the circuit 55 To guide the phases in a single pass is. through a separation stage, consisting of the separator-The previously known mixer-separator-extraction chamber [T (n)] and the mixing pump [P (n)] closes doors have the disadvantage that they are connected to a constructive one, both the shut-off and control valve [VLK (n)] a previously defined cycle mode bound in the pipeline [RLK (n)] of the light phase. A transition z. B. from the circuit of the light 60 nozzles [LS (n)] of the separation chamber [T (n)] to the phase on the circuit of the heavy phase is only suction ropes of the mixing pump [P (n)] as well as the shutdown of the system and total Modification of the shut-off and control valve [VSK (n)] in the extractor pipeline is possible. A straight passage of both [RSK (n)] of the heavy phase from the nozzle [SS (n)] phases is completely excluded here. the separation chamber [T (n)] to the suction side of the The invention has set itself the task of this ⁶ 5 mixing pump [P (n)]. To avoid disadvantages and a multi-stage step according to the invention is throttled to lower the countercurrent extractor; cu develop, with the level of the phase separation mirror in the separation It is possible to open and close certain chambers [T (n)] to control the shut-off and control valve [VLK