DE737330C - Method of operating sprinkler evaporators - Google Patents

Description

Method of Operating Sprinkler Evaporators The invention relates to a method for operating sprinkler evaporators with vertical heating surfaces for indirect heat transfer to the liquid to be evaporated, which is thin-layered flows down over the heating surfaces on the side facing an evaporation chamber, the vapors generated in the evaporation chamber in the same direction as the liquid flow away.

The method is characterized in that for acceleration of the liquid flow either a part of the flowing out of the evaporation chamber Vapors again in the evaporation space approximately at the level of the inflow point of the liquid is introduced on the heating surfaces or another suitable vapor or gaseous Means, e.g. B.

Fresh air or warm smoke gases, possibly in addition to reflux vapors is fed to the evaporation chamber in the same way.

It was recognized earlier that the liquid and the resulting Vapors are best passed in cocurrent through the evaporation space should to avoid foaming. But so far it has been under such Conditions worked that the speed of the liquid flow in the main thing was only determined by the action of gravity and therefore practically never brought to the order of magnitude desired for thermal reasons could be. while the velocity of the steam flow from zero at the beginning of the Flow path to the extent that the formation of new vapors progresses along it, gradually up to a still relatively low maximum value at the exit point increased became. without ever reaching the required intensity over a long enough distance to achieve in order to noticeably affect the speed of the liquid flow to be able to.

In contrast, the invention makes 1 nml more favorable ratios created, because the addition of steam or gas initially causes an increase in speed of the flow of steam and enables such a lively one on the whole flow path Steam flow can be maintained. that at the same time a considerable Acceleration of the flow of liquid can be brought about, @ as in turn ; means an improvement in heat transfer capability.

It is clear that the means chosen are under the illl evaporation space ordering conditions must be essentially non-condensable.

It can be the case with vaporizers that work with fluctuating loads it may be desirable to regulate the amount of feed of those agents or of reflux vapors to be able to adapt them well to the changing circumstances.

The facilities for carrying out the process are generally very simple and can be carried out without difficulty. It is therefore sufficient the explanation of an embodiment shown in the drawing in axial section is visualized.

The tube evaporator shown has an outer jacket 1 with the upper one Pipe socket 2 for introducing the liquid to be evaporated via the distributor base 3, which is provided with the distribution tube 3a, which ill the underlying Evaporation chamber protrude vertically, each in one of the there with closed upper ends of the inserted heating tubes 4, to the liquid over their Spreading outsides in the form of a downward flowing trickle cliicllt.

The trickling liquid is then on the for the holder the open lower ends of the heating tubes serving intermediate floor delimits the evaporation space at the bottom, from there through the pipe socket 6 to flow off. The vapors produced in the evaporation space are in the same stream passed with the liquid and withdrawn through the drain line 7, which over a fan C and a reflux line S with one in the upper part of the evaporation chamber opening supply line g is connected, while at the reflux line on the On the pressure side of the fan, a branch 8a is connected to the discharge of vapors is. By means of this device, the desired amount of steam can be added to the The evaporation space can be returned to about the same height as the liquid, while the remains are taken elsewhere for any use, whereby the correct distribution of the vapors by Xein in the reflux line behind the Branch located valve V can be determined. The steam circulation can optionally can also be partially or wholly replaced by the addition of another agent, which is connected to the supply line 9 via the valve 0 by a Pipe 9a can be fed. The heat supply to the evaporator can through any heat medium carried out, the bottom through the pipe socket 10 below of the intermediate floor II occurs to then flow upwards through the guide tubes 12 to exit within the heating tubes 4 at their upper ends and continue their Brush interior walls in reverse direction, continuing eventually Outflow through the pipe socket 13 is provided.

The method according to the invention can also be used with the other types can be used on sprinkler evaporators.

Claims (1)

PATENT CLAIM: Method for operating sprinkler evaporators with vertical heating surfaces for indirect heat transfer to the to be evaporated Liquid, which is thinly layered over the heating surfaces on their one evaporation space facing side flows down, whereby the vapors arising in the evaporation chamber flow in the same direction as the liquid, characterized in that to accelerate the flow of liquid either a part of the from the evaporation chamber flowing vapors again in the evaporation chamber approximately at the level of the inflow point of the Liquid is introduced into all the stimulating surfaces or another suitable steam or gaseous medium], e.g. B. fresh air or warm flue gases, if necessary additionally to reflux vapors is fed to the evaporation space in the same way.