CH83029A - Steam boiler heated with high voltage alternating current - Google Patents

Description

  

  Steam boiler heated with high voltage alternating current. The heating of steam boilers with high voltage alternating current is usually done using part of the boiler water itself as a heating resistor, by placing two electrodes in an underwater insulating tube on the right, more open on both sides, between which the current through the water passes, whereby the Current-carrying water column heated and caused a more or less rapid circulation of the liquid contents through the pipe.

   Now to the evaporation of the water outside the insulating tube in. To allow free boiler spaces to take place, it has been proposed to accelerate the flow of the water through the pipe by means of a special, an overpressure supplying circulation pump.



  It has also been proposed to let the mouth of the pipe protrude over the water surface and to spray the water * in a jet against an umbrella-shaped or bell-shaped surface; the. consists of conductive material and is connected to one of the network poles. Here, too, the evaporation itself takes place. Less by irrigating the water jet than rather in the open boiler room.

      Since both the free jet and the umbrella-shaped electrode have disadvantages that endanger operational safety, according to the invention the vertical insulating tube containing the current-carrying water column, which contains one electrode in its upper part and the other electrode in its lower part , led above the water level of the boiler and spread the water above the boiler water level along a surface in order to give your water as large a free surface as possible immediately after it has been heated up and thus promote the separation of steam and water. The water is pushed up in the insulating pipe by a pump.



  In the drawing, two execution examples are shown for the invention. According to Fig. 1, the water is taken from the upper, warmest parts of the boiler contents and pressed by the pump c into the inside of the boiler cc tube b made of electrically non-lei tend material. The electrodes d and e protrude into this insulating tube from below and above, the spacing of which can be adjusted from the outside by means of a screw spindle f for the purpose of changing the boiler output.

    The insulating tube b protrudes considerably beyond the boiler water, and opposite it is the bell-shaped surface g, along which the hot water driven up by b runs, so that it forms a relatively large surface.



  According to Fig. 2, the water spreads on a plate-like plate h. that connects to the upper end of the insulating tube b. This could also be provided with holes to enlarge the surface of the dripping water.



  To regulate the boiler output one can also. use the speed of the water circulation; It should be noted, however, that the greatest steam yield is not achieved at maximum circulation speed, but that there is a most favorable circulation speed for the water for every electrode spacing.



  The boiler according to the invention can be built for single-phase as well as for multi-phase alternating current. In the latter case, the surface along which the water spreads can belong to several phases in common, in that it connects to the opening of several insulating tubes containing electrodes of different phases.

 

Claims (1)

PATENT CLAIM: Steam boiler heated with high voltage alternating current, in which a column of water pumped through a vertical, electrically insulating pipe serves as a heating resistor, characterized in that this insulating pipe, which contains one electrode in its upper part and the other electrode in its lower part, It is led above the water level of the boiler and the heated water flowing out of the pipe is spread out along a surface in order to give the water as large a free surface as possible after it has been heated to the greatest possible extent and to promote the separation of steam and water. SUBCLAIMS: 1. Steam boiler according to claim, characterized in that the surface along which the heated water spreads is opposite the upper opening of the insulating tube. 2. Steam boiler according to dependent claim 1, characterized in that the surface is bell-shaped. 3. Steam boiler according to claim, characterized in that the surface along which the heated water spreads, un indirectly adjoins the upper opening of the insulating tube. 4. Steam boiler according to dependent claim 3, characterized in that the surface is plate-shaped. 5. Steam boiler according to claim, characterized in that the surface along which the heated water spreads connects to the openings of several insulating tubes containing electrodes of different phases.