DE437372C - Device to prevent scale build-up - Google Patents

Description

Device to prevent scale build-up. With the known Procedure to prevent scale build-up on heating and cooling surfaces for all Kind based on the fact that the structural parts to be protected from currents lower Voltage flowed through «- earth, that is, without any electrolytic effect between the construction parts and the liquid, you often see the difficulty, due to the metallic nature Conclusion between the individual construction parts with the usual power connections a compulsory control of the power distribution to the individual construction parts is not made possible. 1; it can also only be used if several connections are selected for the power supply to the individual structural parts as a result of the aforementioned usually not achieve electrical connection within the overall construction, that the most effective voltage and strength of the current can be seen in the individual construction parts adjusts correctly.

The current is distributed within the overall construction according to the internal electrical resistances of the individual construction parts, so that usually one part of the construction receives too high current, another too low.

The procedure described below avoids this inconvenience and enables a mandatory setting of the current intensity within the various Construction parts.

The method is based on the fact that, in contrast to the usual arrangement a single power supply to which the structural parts are connected in parallel different separately controllable power supplies are used. Each of these power leads is a separate part of the overall construction as a Assigned to the circuit. Setting the direction, voltage and strength of the current is carried out for each circuit in such a way that the structural parts that are used in the usual common power supply due to their higher internal resistance to current not sufficient-1 flow through, now by counter-switching or gradation of voltage and current intensity in the metallic connecting Construction parts inevitably be forced to draw current within the most practical limits. the The direction of current is usually opposite in adjacent construction parts chosen.

In the, # ibb. i a Wassärrolirkessel is shown schematically. A power source s leads to the connection points a and b to the upper boiler 0. A second power source t leads to the connection points c and cd to the water pipe chambers W. If only one power source is selected for the entire boiler, the current is distributed according to the electrical resistances, see above that the most effective current and voltage is only ever available either on your upper boiler or on the tube bundle. On the other hand, it is not possible to achieve the distribution of the current required for full effect in the upper boiler and in the tube bundle at the same time. However, this can be made possible with the arrangement of the connections c and d and the second current source t as shown in FIG.

If the current intensity is J for the full effect in the upper boiler, the current intensity J in the water pipes; required (the current intensity in the water chambers J. = and J., is irrelevant for the effect), the required current intensity from the current source s and t can be calculated by means of Kirchoff's law and can be adjusted in practice. The following equations apply: J1'R1-J3.R3 + J3.R3-J4.R4 = 0 J, - = A + J4 Jh = J3 + J? J2 = J4. From this follows J1-Rl + J3`R3-J2 (R? + R4) It is therefore possible through the specified circuit to give the most important boiler parts independently of one another the ones that are most useful for boiler scale prevention. Fig.3 and q. illustrate those for a double-tube boiler and a steep-tube boiler. In Fig. 3, h is the boiler shell, and the flame tube (s) l are traversed by the current as separate structural parts and in the opposite direction. In the case of flames, the inconvenience mentioned at the beginning of the tube boiler of the flame tubes, which mainly protect the protective current, occurs in a particularly damaging manner after the boiler shell. The counter-circuit by means of separately controllable connections with a correspondingly increased to the ratio of the jacket to a harmful effect is eliminated. Fig. Q: illustrates the current distribution on a steep tube boiler with two upper boilers and one lower boiler. The front tube bundle r receives its current from the current source t, the rear tube bundle s from the current source 2c in a direction opposite to the first current. Depending on whether the equalization streams flowing into the connection stub v of the two upper vessels are to be strengthened or weakened, the v is connected to a current source w which is connected either in the same or the opposite direction to the outer t and ac.

Claims (1)

PATENT CLAIM: Prevention of ge-construction marks, parts, controllable by boiler equipment, for stone attachment, in which the construction parts to be protected are flowed through by a low electrical current without electrolytic effect, in that those which are not sufficiently flowed through due to their higher electrical resistance, under. the inflow of additional current special supply in the appropriate direction and with appropriately matched current strength and voltage are inserted into the power supply in such a way that they are forced to draw current within the appropriate limits under the influence of the additionally imposed voltage.