WO2000040909A1 - Drying tower for spray-drying ingredients of washing agents or the like - Google Patents

Abstract

The invention relates to a drying tower (1), especially for spry-drying/spray-agglomerating ingredients of washing agents or the like. According to the invention, the suspensions are injected into the tower (1) via spray nozzles which lie in different nozzle planes (2, 3). Said suspensions are injected in the direction of gravity against the hot and swirled air (5, 6) which is guided in a counter-flow. Several spray nozzles are arranged in different nozzle planes (2, 3) at the periphery of the tower. The aim of the invention is to optimize the energy required while preventing the formation of such hot spots. To this end, nozzles which produce spray cones at the periphery of the tower are arranged in at least one nozzle plane (2, 3) and are mounted on differently long, substantially horizontally arranged spray arms (11a, 11b, 11c).

Description

 "Spray tower for spray drying detergent ingredients or the like."

The invention is directed to a spray tower, in particular for spray drying / spray agglomeration of detergent ingredients or the like, the spray suspension being sprayed against the hot and swirling air in countercurrent in the tower in the direction of gravity via spray nozzles in different nozzle levels, with several nozzles in each nozzle level are arranged on the circumference.

It is known to carry out spray drying in such a spray tower, with conventional spray towers in the detergent industry having outputs of 5 to 10 t of water evaporation per hour, which results in an energy requirement of between 3,350 and 5,000 kJ / kg of water. On the one hand, this energy requirement is product-related, i.e. depending on the type of ingredient that is to be obtained by spray drying and, of course, on the residual moisture, on the other hand on the system used and the type of energy recovery.

It has been shown that so-called "hot spots" can form in the tower during operation. Such hot spots mean a not inconsiderable loss of energy, and they often occur in the center of the spray tower. The object of the invention is to optimize the energy used, in particular to avoid such "hot spots".

With a spray tower of the type described at the outset, this object is achieved according to the invention in that in at least one nozzle plane on the circumference, spray cones producing nozzles are arranged on spray arms of different lengths, essentially horizontally arranged.

It has been shown that only the variation in the arrangement and / or the difference in the lengths of the horizontal spray arms, at the ends of which the spray cone-producing nozzles are located, leads to an improvement in the energy requirement. These results are made possible by the fact that the heat distribution and / or formation of areas of different warmth in the spray tower are recorded by permanent video infrared camera monitoring and the nozzle arrangement is optimized by the corresponding monitoring. With an online observation of the video recordings obtained, the arrangement of the nozzles can be optimally adjusted so that the "hot spots" mentioned above disappear in large areas of the tower, while at the same time optimizing the swirl air volume.

Further refinements of the invention result from the Subclaims. Thus, it can be provided that the spray nozzles arranged on the spray arms form asymmetrical spray cones with respect to the vertical, ie deviate from the known spray cones which point symmetrically vertically downward.

The ratio between the nozzle arm length (1) and the inside diameter (d) of the spray tower can be varied according to the invention. The length of a portion of the spray arms in relation to the inside diameter of the spray tower (INd) can be 0.1 to 0.2, the second ratio used in the same plane (l ₂ / d) can be, for example, 0.01 to 0.1 be.

If, for example, three differently long nozzle arms are used in pairs or in a different number on one level, the corresponding ratios l ₃ / d can be 0.2 to 0.4.

Some specific numbers are mentioned here as examples, for example the inner diameter of the spray tower (d) can be 6.5 m, the spray arm lengths then 0.15 m, 0.9 m and 1.4 m with three different spray arm lengths or but with two spray arm lengths 0.15 m and 0.9 m.

If you go from circular to opaque spray cones lying in one plane, the invention provides a spray cone distribution which differs therefrom because of the spray arms of different lengths. The corresponding distribution in one level of the spray tower results from the representations of the spray cone distribution shown below.

Further advantages, features and details of the invention result from the following description and from the drawing. This shows in

1 shows a simplified longitudinal section through a spray tower according to the invention,

2 shows a schematic diagram as a top view of the nozzle distribution roughly along line II or Ha in FIG. 1,

3a and 3b two examples of arrangements of the spray cone projected into the plane of the drawing,

Fig. 4 corresponding to Fig. 2, a distribution of

Spray arms on the circumference in the levels according to line II or Ha with three differently long types of spray arms, Fig. 5 is a projection of the spray cone of FIG. 4 in the plane of the drawing and in the

Fig. 6 to 8 distributions of the spray cones in supervision according to arrow II or Ha in Fig. 1 with differently distributed nozzles on differently long nozzle arms.

1, generally designated 1, has a first upper spray level 2 and a second lower nozzle plane 3, in which spray nozzles are arranged on nozzle arms, with which the product to be treated is blown into the tower 1. The product then falls down in the direction of gravity according to arrows 4, where it encounters hot air and swirl air, the entry of the tangentially supplied swirl air is shown with arrows 5, it can be air of 50 ° C., for example in one embodiment 24,000 m ³ / h can be entered. The entry of the hot air is indicated by an arrow 6, for example 110,000 m ³ / h at 280 ° C. The exhaust air discharged at the top of the tower is indicated by an arrow 7, the product discharge below by an arrow

It is essential for the invention to attach a video Infrared camera, indicated by 9, which is connected to a data processing system 10 to which the video recordings are fed for evaluation.

At this point it should be noted that to regulate and optimize the energy in tower 1, the lower nozzle plane is preferably influenced, but it can also be influenced the upper nozzle plane 3 or intermediate nozzle planes, which are not considered here in the drawing.

To illustrate the different arrangements of the spray nozzles on spray arms of different lengths, the representation according to FIGS. 2 ff. Has been chosen in a simplified manner, with FIGS. 2 and 3 showing the variation that 2 4 spray arms of different lengths are arranged on the circumference of the spray tower 1 with changing sequence, as an example there are given a diameter of the spray tower of 6.5 m and a total height of 43 m spray arm length of 0.9 and 1.65 m.

4 and 5 a further optimization of this arrangement is shown, here three spray arms of different lengths are provided with, as also in FIG. 3, asymmetrically arranged spray cones, these are four spray arms of 0.15 m length, two Spray arms 0.9 m long and two spray arms with a length of 1.4 m, here too, as already shown in simplified form in FIGS. 2 and 3, the spray arms with 11a or 11b or 11c, the correspondingly generated spray cones with 12.

6 to 8 show different spray cone images in the plane of the drawing, FIG. 6 shows a spray cone arrangement which corresponds approximately to the arrangement according to FIGS. 2 and 3, while FIG. 7 shows images which roughly correspond to the Figures 4 and 5 correspond, while Figure 8 shows another possible arrangement

Of course, the described exemplary embodiments of the invention can be modified in many ways without departing from the basic idea. For example, in order to optimize the setting via the computing system 10, the spray arm length can be changed during operation, if necessary, for example by mechanical or hydraulic delivery, in different spray levels different spray arm arrangements can be provided with images of the spray cones which then result differently u. Like. more.