DD229608B1 - METHOD FOR REGULATING SWIVEL LAYER GRANULATING PROCESSES - Google Patents

Description

For this 2 pages drawings

Field of application of the invention

The invention relates to a process for the control of fluidized bed granulation processes, which are operated continuously, in fluidized bed granulators with classifying deduction using the regular size fluidized bed temppur and pressure loss on grate floor and fluidized bed

Characteristic of the known technical solutions

For a stable operation of continuously operated fluidized bed granulation plants, it is also important to obtain the fluidized bed as such that the fluidized bed height remains constant or fluctuates only within narrow limits. If this condition is met, it is easily possible to adjust the parameters of the product such as ζ B Grain belt, granule moisture, granule temperature, etc. to comply with targeted

It is already known to regulate the Flussigkeitszufuhrung and / or the temperature of the gas stream as a function of the fluidized bed temperature. In order to obtain the fluidized bed and thus to ensure the stable Betneb of continuously operated Wirbelschichtgranulieranlagen, is a prerequisite that the fluidized bed height remains constant or only in narrow Limits fluctuates

In the description of the invention CH 558674 it is explained how the liquid supply is used to keep the fluidized bed temperature constant. The fluidized bed height is kept constant by removing material from the fluidized bed or by specific recycling of fine material. Both processes or devices are used in combination (see also CH 584567).

The method and the device shown are complicated and energetically unacceptable in this form, since both grain is already taken, which does not yet have the necessary grain size, as well as the return takes place with material that already has product quality

The DD 137005 introduces a control device that holds the exhaust air temperature constant depending on the Schlickerzufuhr From the DD 137006 is a control device is known, which regulates the differential pressure by placing the Klassierluftzufuhr, the supply of the fluidized medium with the germination rate addition These methods are with regard to The achievement of constant granule parameters not optimal The DD 137005 loosens the problem of the temperature control favorably, but has no solution for the constant maintenance or maintenance of the fluidized bed In the case of the DD 137006 the setting of the classifying air to keep the fluidized bed height constant automatically causes a shift of the granule parameter grain belt

Object of the invention

The object of the invention is to achieve a coordinated adjustment of the product parameters while at the same time improving the operation of the system without adding or removing material or adjusting the classifying air by means of better control technology use of known measuring variables

Explanation of the essence of the invention

The object is to provide a method for controlling Wirbelschichtgranulierprozessen in plants with classifying deduction taking advantage of the control variables fluidized bed temperature and pressure loss on the grate floor and fluidized bed, maintaining the fluidized bed height while maintaining the fluidized bed temperature as a prerequisite for the maintenance and existence of the fluidized bed without Zu - or removal of material with product quality or adjusting the classifying air, which leads to change the grain size of the discharged granules, to be secured

According to the invention, the slip supply is regulated as a function of the pressure loss via grate bottom and fluidized bed and at the same time the heat energy supply to the fluid medium linearly changed to Schlickerzufuhrung It is advantageous to carry out the change in the heat energy supply by setting the target value of the lower temperature

With the erfmdungsgemaßen method, it is possible to keep the fluidized bed high by maintaining a target value or upper or lower limit of the pressure loss - measured via grate bottom and fluidized bed - by increasing or decreasing the Schlickerzufuhr constant At the same time, the temperature in the fluidized bed by linear adjustment of the heat energy Maintaining to the vortex medium In the limits to be controlled, the amount of soot used = K1 Λ heat energy supply

The heat energy supply can also be changed by changing the setpoint value of the controller Under-frost temperature with otherwise constant air quantities. Here too a linear dependency was detected in the control range. A Heat energy supply = K2 Δ lower frost temperature

It follows that also the relationship between changing the slurry feed to keep the fluidized bed height constant and the necessary change in the bottom temperature is linear. This makes it possible to easily control the compliance of the fluidized bed height with the maintenance of the vortex space temperature control technology.

The features according to the invention make it possible to keep the temperatures of the fluidized bed constant at a constant fluidized bed height.

embodiment

In the following the invention will be explained with reference to the illustrations Fig. 1 and Fig. 2 to two embodiments. Fig. 1 shows the control of the slip supply and the heat energy supply by the differential pressure over grate floor and fluidized bed.

In Fig. 2 the linkage of the slip supply is shown schematically via a setpoint position for the lower temperature with the actuator of the heat energy supply.

1st example

In a fluidized bed apparatus 1 in FIG. 1, slip 2 is introduced via a nozzle system 2, which slurry is sprayed onto the fluidized bed 4 via a diaphragm metering pump acting as an actuator 3. In the inflow 5 below the grate floor 6 fluidizing medium 7 is supplied. The fluidizing medium 7 receives its heat energy through the heat energy supply 8 (town gas) from a combustion chamber or heat exchanger 9. The heat energy supply 8 can be changed by an actuator 10. At the bottom of the grate 6 closes down a classified exhaust pipe 11, which ends in a cellular wheel 12 for the product. The height of the fluidized bed H is kept constant via a differential pressure regulator ApC by regulating amount of slip through the actuator 3. Simultaneously with the control signal from ApC is processed in a converter 13 so that the heat energy supply 8 is controlled by the actuator 10 accordingly. In operation, the device exhibits the following behavior:

When increasing / decreasing the layer height H, the differential pressure at the differential pressure controller ApC rises / falls. The controller causes the deviation of the setpoint or when reaching limits the adjustment of the actuator 3, that is, the Schlickerförderung is reduced / increased. At the same time, the heat supply is reduced / increased by actuating the actuator 10 via the transducer 13. Thus, the temperature of the fluidized bed T2 is indirectly kept constant.

2nd example

The schematic diagram in Fig. 2 largely corresponds with the in FIG. 1. The temperature measuring point T1 is extended by a controller to TC1. The controller of TC1 actuates the actuator 10 of the heat energy supply 8, after the control unit 13 has given a control pulse for setpoint adjustment at TC1 by the differential pressure controller ApC.

Claims (2)

1. A method for controlling the fluidized bed granulation of a liquid substance in the form of a solution or suspension in plants with classifying deduction taking advantage of the regular size fluidized bed temperature and pressure loss via grate bottom and fluidized bed, characterized in that the supply of the liquid substance in dependence on the pressure loss via grate floor and Fluidized bed and at the same time the heat energy supply to the fluidizing medium is linearly changed to supply the liquid substance. 2. The method according to claim 1, characterized in that the change in the heat energy supply is performed by setting the target value of the lower temperature.