DE556585C - Device for the protection of radiation superheaters with downstream contact superheater in the steam path - Google Patents

Description

Device for protecting radiation superheaters with a contact superheater connected downstream in the vapor path. The present invention relates to a device for protecting radiation superheaters with a contact superheater connected downstream in the vapor path against the risk of burning in the event of small loads. As is known, take load decrease t on, a steam boiler with superheater radiation the quantity of steam from .fast than the heat radiation of the radiant superheater. The steam is therefore superheated in the radiation superheater by a higher amount at low loads than at full load. Since at the same time, as a result of the reduction in the steam speed, the heat transfer between the inner wall surface of the superheater tubes and the steam decreases sharply, the temperature of the radiation superheater tubes can rise so considerably that the tubes are destroyed in a short time. The known measure alone of sending the steam through the more strongly heated superheater part first cannot avoid the destruction of the radiation superheater.

The invention is intended to remedy this drawback. There are according to the invention Means are provided which have the effect that at full load not the entire amount of steam and with decreasing load, an increasing part of the amount of steam through the radiant superheater .flows. This can result in an impermissible increase in temperature with all loads the radiation superheater tubes can be avoided.

In the drawing, the invention is shown in one embodiment.

a is the saturated steam line coming from the boiler's steam collector. The steam flows from there through the radiation superheater b with inlet and outlet boxes e and d, the connecting line e, the contact superheater f with inlet and outlet boxes g and h and finally through the H.eiJ3daxnpfleitung ! to the machines. According to the invention, a device Z for generating an approximately constant pressure drop, e.g. B. a weight or spring-loaded check valve arranged. This alone would ensure that the entire amount of steam flows through the radiation superheater b until the pressure drop remains approximately the same, but above that limit the amount of steam flowing through the radiation superheater remains approximately the same, even if the boiler load increases. In order to avoid the latter, a device m for generating a flow pressure drop, e.g. B. a throttle point or throttle section arranged. Then, until a certain pressure drop is reached, at which the device L enables the passage of steam, the entire amount of steam flows through the radiant superheater. If the load increases further, the amount of steam flowing through the radiant superheater increases more slowly than corresponds to the load increase during. an increasing part of the amount of steam bypasses the radiant superheater. The invention therefore also has the further advantage that, at high loads, the pressure drop in the Strahlungs.überhitzer does not increase as much as without application of the invention.

The device l for generating the pressure drop is for reasons of Operational safety designed ziveckrnäßig like a ball check valve, in which a heavy bullet or a similar bloody body only when a certain one is reached Minimum pressure difference is lifted from its seat. The invention can apart from steam superheaters also other radiant heaters with downstream Use the contact heater accordingly.

Claims (1)

PATENT CLAIMS i. Device for the protection of radiation superheaters with a contact superheater downstream in the steam path, characterized in that means are provided which ensure that at full load not the entire amount of steam and, with decreasing load, an increasing part of the amount of steam is passed through the radiant superheater by adding one to the radiant superheater ( b) parallel bypass line (k) its device (L) for generating an approximately constant pressure drop, e.g. B. a loaded check valve "is switched. For example, a device according to claim 1, characterized in that a flow resistance (in) is arranged in series with this device (L).