DE1277281B - Heat exchanger system with tube heat exchangers - Google Patents

Description

Heat exchanger system with tubular heat exchangers The invention relates to a heat exchanger system with tubular heat exchangers, in which, for cleaning, friction bodies can be pushed through the heat exchanger tubes under the pressure of the heat exchange medium and can be returned to the heat exchanger inlet together with part of the flow rate of the heat exchange medium in the circuit Series with a booster pump, a separation device for collecting the friction bodies and a control valve is connected to the heat exchange medium source and a return line connecting the separation device to the inlet of the heat exchanger is provided. Such a heat exchanger system is known from French patent specification 1207 875. In this known embodiment, however, it is only a question of cleaning a single heat exchanger, which is also operated in terms of flow rate and pressure of the heat exchange medium in such a way that the friction bodies are constantly carried along by the heat exchanger tubes. The disadvantage here is that the constant entrainment of the friction bodies through the heat exchanger tubes requires a certain flow rate and a certain pressure of the heat exchange medium, so that regulation of the heat exchanger system is not possible within wide limits. In addition, the known heat exchanger system gives no indication of how such a system is to be designed when a large number of individually controllable heat exchangers with friction bodies, connected in parallel to the heat exchange medium source, are to be cleaned. It is known (cf. "Mitteilungen der Dürrwerke AG", September 1956, pp. 3 to 8) to supply heat exchangers with essentially the same flow rate of heat exchange media, which is necessary to maintain operational reliability, regardless of the control status Depending on the control status, a more or less large proportion of this flow rate in the circuit can be returned to the inlet of the heat exchanger. The heat exchanger system is not regulated via the flow rate, but rather via the temperature of the heat exchange medium, since the return of a more or less large part of the flow rate in the circuit to the inlet of the heat exchanger influences the temperature of the heat exchange medium in the heat exchanger. From this known embodiment, however, there is no indication of how a heat exchanger system is to be designed in which, in addition to the flow of the heat exchange medium, there is also a flow of the friction bodies used for cleaning.

The invention is based on the object, based on the initially listed known type of heat exchanger systems, specify how a variety of connected in parallel to the heat exchange medium source, each individually controllable Heat exchangers with as little equipment as possible and avoiding Malfunctions can be cleaned with friction bodies.

This object is achieved according to the invention in that with several connected in a manner known per se directly in parallel to the heat exchange medium source Heat exchangers, the suction line of the booster pump and the return line between the separation device and the heat exchanger inlet expanded to form a cleaning network to which the heat exchangers can be connected individually for cleaning, that the respective heat exchanger on the output side only to the suction line of the booster pump is connected that the booster pump to generate the full, for Pushing the friction body through the heat exchanger tubes required pressure difference is designed, and the regulation of each connected to the cleaning network Heat exchanger by means of the control valve in a connection of the cleaning network is provided with the drain line of the main network.

The advantage achieved by the invention is primarily to be seen in that the expenditure on equipment for cleaning several heat exchangers connected in parallel is very low, namely that for cleaning a heat exchanger, apart from additional pipelines for the cleaning network, does not exceed, and that the Cleaning of the individual heat exchangers at any time without interrupting operations of connected to the cleaning network and while maintaining his Control state can take place.

In the following the invention is illustrated by means of only one exemplary embodiment Illustrative drawing explained in more detail.

In the illustrated embodiment, the two outer heat exchangers 1 are connected in parallel to the fully extended main network via reversing valves 8 and 9, the heat exchange for each heat exchanger 1 taking place individually by regulating the flow rate by means of regulating valves controlled by regulating pulses. The middle heat exchanger 1 is switched to the cleaning network provided in the position shown of the reversing valves 8 and 9. The friction bodies flow with essentially the same amount of circulation from the separator 3 through the return line 5 of the cleaning network via the reversing valve 8 into the heat exchanger 1 and after cleaning the pipes from here via the suction line of the cleaning network to the pressure increase pump 2 and separator 3 Heat transfer required, depending on the position of the control valve 4, a more or less large amount of heat exchange medium flows from the line 6 of the heat exchange medium source via the reversing valve 8 to the heat exchanger 1 and from here on via the suction line of the cleaning network, the pressure booster pump 2, the separating device 3 and the control valve 4 into the drain line 7 of the main network. The control valve 4 of the cleaning network receives the control pulse via changeover switch 10 in parallel or sequential connection to the control valve assigned to the heat exchanger to be cleaned.

Claims (1)

Claim: heat exchanger system with tubular heat exchangers, at which for cleaning friction body under the pressure of the heat exchange medium through the Heat exchanger tubes can be pushed through and together with part of the flow rate of the heat exchange medium can be returned to the heat exchanger inlet in the circuit, including the heat exchanger in series with the flow direction of the heat exchange medium a booster pump, a separation device to collect the friction bodies and a control valve is connected to the heat exchange medium source and one is the Separation device with the inlet of the heat exchanger connecting return line it is provided that d a d u r c h g e - indicates that in the case of several in per se known Way directly connected in parallel to the heat exchange medium source heat exchangers (1) the suction line of the booster pump (2) and the return line (5) between the separation device (3) and the heat exchanger inlet to a cleaning network are expanded, to which the heat exchangers (1) can be switched on individually for cleaning are that the respective heat exchanger (1) on the output side only to the suction line the booster pump (2) is connected that the booster pump (2) is on the generation of the full, for pushing the friction body through the heat exchanger tubes required pressure difference is designed, and the control of the respective to the Cleaning network connected heat exchanger (1) by means of the control valve (4) in a connection of the cleaning network to the drain line (7) of the main network is provided. Documents considered: French patent specification No. 1207 875; U.S. Patent No. 3,067,817; Announcements from Dürrwerke -Aktiengesellschaft - Ratingen, from September 1, 1956, p. 3 to B.