DE1209716B - Customer connection with heat exchanger for a steam remote heating network with fluctuating network pressures and with condensate accumulation devices - Google Patents

Description

Customer connection with heat exchanger for a steam remote heating network with fluctuating Network pressures and with condensate accumulation devices The invention relates to a consumer connection with heat exchanger for a steam remote heating network with fluctuating network pressures and with Condensate build-up devices, where the condensate coming from a control valve is pressed into the condensate network of the district heating system by pumps.

Heat exchangers with accumulation of condensate are used by consumers of steam district heating networks the advantage that with them the condensate accumulates with steam pressure and thus in the Can usually be fed back to the heating system without pumps. In addition the condensate does not come into contact with air at any point and thus also none Can absorb atmospheric oxygen.

Difficulties arise when z. B. the steam and condensate networks are overloaded and thus consumers in places with low vapor pressures as well encounter high condensate pressures in the power lines. In such cases this will be done the condensate is fed into a container, which is often also connected to the steam network with a Low pressure steam buffer is provided and from which via water level switch the condensate is pumped into the power line.

The invention is based on the object that with a customer connection of the type mentioned above, the structural effort is lower than before and a continuous work with the condensate pump is possible.

The invention consists in that behind the condensate control valve a Pump is arranged with a bypass control valve and the delivery rate of the pump is regulated in the condensate line of the district heating network that when falling Differential pressure, based on the pressures in the heat exchanger and after the condensate control valve, and when the pressure downstream of the condensate control valve drops, the delivery rate of the pump increases, with the bypass control valve closing accordingly.

In a further embodiment of the invention, the pump motor can by switched on by a pressure switch or by a limit switch on the bypass control valve will.

An exemplary embodiment of the invention is shown in the drawing. It shows A b b. 1 a diagram of the consumer connection with a differential pressure switch, A b b. 1 a a diagram of the customer connection according to Fig. B. 1 with a limit switch, A b b. 2 a diagram of the consumer connection with a pressure switch, A b b. 2 a a diagram of the customer connection according to Fig. B. 2 with a limit switch.

1 with the steam remote heating network is referred to, from which the steam is fed to the heat exchanger 2. The heat exchanger supplies the heating system 3 with heat. The performance of the heat exchanger 2 is controlled by valve 4 with condensate build-up. A pump 5 , which is driven by the motor 6 and is connected to the bypass control valve 7, is arranged behind the valve 4. The bypass control valve 7 is a differential pressure control valve whose plus pulse from the steam line to the heat exchanger at 8 and whose minus pulse from the line on the pump suction side, z. B. at point 9 is removed. This bypass control valve closes when the differential pressure falls below a minimum. A differential pressure switch is identified by 10 , which switches on the pump motor when the differential pressure falls below a certain level. The bypass control valve 7 and the pump 5 are connected to the condensate line 11 of the steam remote heating network.

At a certain steam pressure in the steam line 1 of the district heating: network and a certain power of the heat exchanger 2, the control valve 4 lets a certain amount of condensate through, so that a certain pressure builds up in front of the pump 5 and the bypass control valve 7. If the pressure is higher than in the condensate line 11, the condensate will flow into the condensate line. If the pressure in the condensate line rises or if the pressure in the steam line falls, the differential pressure decreases and the pressure switch starts the pump. If the differential pressure continues to fall, the bypass control valve 7 closes proportionally to the falling differential pressure, and the delivery rate of the pump into the condensate line of the network increases.

In place of the differential pressure switch 10 may also be a limit switch 10 is used in which a Umführungsregelventil 7 (A b b. 1 a), which then turns on the pump motor when the Umführungsregelventil 7 closes with decreasing differential pressure.

The execution according to Ab b. 2 is opposite to that according to Ab b. 1 , since only the pressure downstream of the control valve 4 provides the impulse for the pump to start up and the change in the pump delivery rate and the adjustment of the bypass control valve 7 . In the case of the system according to Ab b. 2, a simple pressure switch 10 is arranged, the bypass control valve 7 closing when the pressure drops at point 9 and the pump delivery rate increases. In A b b. 2 a is the system according to A b b. 2 with limit switch 10 is shown in place of the pressure switch a 10th

Claims (2)

1. A pickup terminal with heat exchanger for a Dampffernheiznetz with fluctuating mains pressures and with condensate-Aufstauapparaten, wherein the condensate is coming from a control valve, compressed by pump to the condensate network of the district heating, d a d u rch g e -kennz eichnet that behind the Condensate control valve (4) a pump (5) with a bypass control valve (7) is arranged and the flow rate of the pump into the condensate line of the district heating network is regulated in such a way that when the differential pressure falls, based on the pressures in the heat exchanger and after the condensate control valve, and when the pressure drops Pressure downstream of the condensate control valve the delivery rate of the pump increases, whereby the bypass control valve closes accordingly. 2. Customer connection with heat exchanger according to claim 1, characterized in that the pump motor is switched on by a pressure switch (10) or by a limit switch (10a) on the bypass control valve.