WO2022189081A1 - Network of lines for a medium, and method for operating same - Google Patents

Abstract

The invention relates to a network (100) of lines (120) and to a method for operating same. Networks of this kind, as they are known in particular from converter steelworks, comprise a container (110) for storing medium, in particular converter exhaust gas, and a line (120) for connecting the outlet (114) of the container (110) to a consumer (150) for the medium. Typically, a pressure-increasing fan (140) is installed in the line (120) between the container (110) and the consumer (150), in order to increase the pressure of the medium in the line (120). In order to protect the container (110) from freezing, in particular in the event of low ambient temperatures and especially when the converter steel plant is not in operation, the network (100) according to the invention has a return line (160) for conveying at least part of the medium in the line (120) downstream of the pressure-increasing fan (140) back into the container (110).

Description

Network of lines for a medium and method for its operation The invention relates to a network of lines for a medium, in particular for gas in a converter steelworks, and a method for its operation. In addition, the invention relates to a converter steelworks with the network according to the invention. Networks of lines are known in principle, in particular in converter steel works. During the operation of the converter steelworks, warm converter waste gas is produced, which is typically stored temporarily in a container for further use. The converter exhaust gas is routed via the network of (gas) lines via the container to a consumer. As the name suggests, the converter exhaust gas is exhaust gas that is produced during the operation of the converter. This converter waste gas is typically up to 100% saturated with water vapor. When the converter steelworks and/or the gas production is stopped - especially during longer downtimes of the converter steelworks in winter - no "fresh" and therefore no warm converter exhaust gas is routed from the converter steelworks into the container. Thus, the temperature of the gas still in the container decreases. Due to the decrease in temperature, water is precipitated from the stored medium. This is undesirable because when the temperature falls below zero, the water can freeze and in this way can lead to functional disruptions in the operation of the container in the network of (gas) lines.

Based on this prior art, the invention is based on the object of developing a known network of lines for a medium, a method for operating such a network and a converter steelworks with such a network in such a way that icing within the Storage container for the medium and resulting disturbances of the storage container operation can be avoided.

This object is achieved for the claimed network of lines by the subject matter of claim 1. Accordingly, the claimed network is characterized by a return line for conducting at least part of the medium in the line downstream of the booster fan back into the storage tank. The term “medium” here means a liquid or a gas, in particular converter exhaust gas.

The term "valve" means in particular a flap or a throttle. For the term “storage container” only the term “container” or “reservoir” is used below for simplification.

Due to the operation of the pressure booster fan, in particular for the return of the medium back into the container, the converter exhaust gas heats up due to the mechanical work that is performed on the medium flowing through. With the claimed return of the medium heated in this way, the container is also heated again and ultimately protected against freezing. The operational safety of the container is increased in this way.

The risk of the described freezing of the container and its fittings exists in particular in the case of cold ambient temperatures or when the network of lines is not operating normally, ie the medium is not being transported normally to a consumer. At warm ambient temperatures and during normal operation of the claimed network of lines, ie when z. B. warm converter exhaust gas in the container stored and transported from there to the consumer, there is basically no risk of freezing.

If the claimed network of lines for the two described modes of operation, cold operation, i. H. Return of heated medium in the

container, or hot operation, d. H. when warm converter exhaust gas through the

Container is routed to a consumer, different lines must be enabled or blocked in the network; to this end, according to a first exemplary embodiment, the pressure-boosting blower in the line has valves upstream and/or downstream for throttling or shutting off the

medium flow in the line.

The above object is also achieved by a converter steelworks and a method for operating the claimed network. The advantages of these solutions correspond to the advantages mentioned above with reference to the claimed network.

The claimed converter steelworks with a converter in a converter operation as the source for the gas to be transported here as the medium is, of course, merely an example. In principle, the subject matter of the invention is independent of the type of medium routed through the network of lines.

The invention is accompanied by a figure showing the network of lines for media according to the invention. The network includes a supply line 105 for supplying medium, for example converter waste gas, from a gas source 210, for example a converter 210 in a converter steelworks, into a container 110. The medium is supplied via the inlet 112 of the container 110. The medium stored in the container 110 can be routed to a consumer 150 via the network 100 of lines according to the invention. The network 100 includes, in addition to the supply line 105, the container 140 and a line 120 to the consumer 150. Typically, the pressure booster fan is connected in the line between the outlet 114 of the container 110 and the consumer 150, which also acts as a driving device for the medium from the Container 110 to the consumer 150 acts. In this context, the term booster fan means that the pressure of the medium in the line 120 downstream of the booster fan is higher than on the inlet side 112 of the booster fan. The valves 124, 126 allow the network 100 to operate in the cold-only mode; then valves 124 and 126-1 and 126-2 are open while valve 126-3 is closed. The medium heated by the pressure booster fan is then fed back to the container 110 via the medium return line 160 in order to protect it from unwanted freezing. Basically, there is no need for a heating device in addition to the pressure booster fan 140 to heat the medium, although such an additional heating device is of course not harmful either, ie it can be present.

In the pure warm operation, ie at ambient temperatures at which there is no danger of freezing of the container, the valves 124 and 126-1, 126-2 and 126-3 are typically opened to the medium from the container via the booster fan 140 to to carry 150 to the consumer. The recirculation line 160 is then typically closed off by means of a valve 126-4. Mixed forms between pure cold operation and pure warm operation are of course also possible; in this case, part of the medium is then fed back into the container 110 via the return lines 160, while another part of the medium is conveyed to the consumer 150. The consumer can be z. B. be a power plant or a furnace, which use the supplied medium as an energy source for their own combustion processes. The described network 100 of lines can, for example, be part of a converter steelworks, the converter steelworks then having not only the network 100 but also a converter 210 which generates the medium to be transported to the consumer 150 in the form of converter exhaust gas.

Reference List

100 network of lines 105 feed line

110 containers

112 inlet of the container

114 outlet of the container

120 line 124 valve

126 valve

140 Booster Blower

150 consumers

160 return line 162 coupling point of the return line to the line

210 converters

Claims

Patent Claims:

1 . Network (100) of lines for a medium, in particular for gas as a medium in a converter steelworks, comprising: a container (110) for storing the medium, in particular converter waste gas, the container having an inlet (112) and an outlet (114). ; a line (120) for connecting the outlet (114) of the container (110) to a consumer (150) for the medium; and at least one pressure booster fan (140) installed in the line (120) between the container (110) and the consumer (150) for increasing the pressure of the medium in the line (120); characterized by a return line (160) for directing at least a portion of the medium in the line (120) downstream of the booster fan (140) back into the vessel (110).

2. Network (100) according to Claim 1, characterized in that valves (124, 126) are connected upstream and/or downstream of the pressure booster fan (140) in the line for throttling or shutting off the flow of the medium in the line (120).

3. Network (100) according to claim 2, characterized by at least one valve (126-3) in the line (120) between the coupling point (162) of the return line (160) and the consumer (150), in particular for at least partially shutting off the line to the consumer.

4. Converter steelworks with a converter (210) which produces converter off-gas; characterized by a network (100) of ducts according to any one of claims 1 to 3, wherein a feed duct (105) is provided for conducting the converter off-gas from the converter via the inlet (112) into the vessel (110).

5. Converter steelworks according to claim 4, characterized in that the consumer (150) is a power plant or a furnace which uses the medium as an energy source for combustion processes.

6. Method for operating a network (100) of lines for a medium, comprising the following steps:

Storing the medium, in particular converter waste gas, in a container (110); and

Conducting the medium from the container (110) through a line (120) with a built-in and operating pressure booster fan (140) to a consumer (150); characterized in that at least part of the medium in the line (120) is returned to the reservoir (110) downstream of the booster fan (140).

7. The method according to claim 6, characterized in that the transport of the medium through the portion of the line (120) between the coupling point (162) for the return line (160) and the Consumer (150) is partially or completely shut off during the return of the medium into the container (110).

8. The method according to claim 6 or 7, characterized in that the medium is converter exhaust gas from a converter steelworks; and that the converter off-gas is fed to the container (110) via a feed line (105) and its inlet (112).