NO127439B - - Google Patents

Description

Heat exchanger with condensate cooler.

In oil storage facilities, where the oil is heated with steam, the entire amount of condensate or the largest part of it is usually returned to the steam generator's feed water cistern. It sometimes happens that the condensate is of such a high temperature that a certain part of it is lost in the form of expansion steam. It can also happen that the temperature in the feed water cistern rises so high that steam formation occurs in existing feed water pumps.

This invention primarily aims to remedy the aforementioned disadvantage and can be used wherever it is necessary to heat a liquid medium with steam, the condensate of which must be cooled.

In a known manner, the medium intended for heating enters the cooler first.

The invention is distinguished mainly by the fact that the condensate cooler consists of an outer shell and an inner shell concentric with this, between which a narrow passage is formed from an inlet for the condensate coming from the condenser part and an outlet for this, the outer shell being thus arranged in the heat exchanger's outer house, that the medium, e.g. oil, which is to be heated, flows in a space formed between the outer casing and the outer housing.

Further features of the invention and the associated advantages appear from the following description of an embodiment shown schematically in the drawing. The drawing shows an axial section through the heat exchanger.

In a suitable cylindrical housing 1 with end plates 2, 3, a condenser with a condenser jacket 4 and a condensate cooler with a cooling jacket 5 are arranged. The two jackets are attached to and supported by end plates 2 and 2 respectively. 3. For supplying the heating medium, steam, to the condenser, a pipe 6 is used, which extends through the end plate 2 and opens into the inner part of the condenser space 7. From the lower part of the condenser space, a condensate line 8 exits through the end plate 2, which extends to and through the end plate 3, where it opens into a central pipe 9 in the condensate cooler. This pipe again opens with its inner end into the condensate cooling room 10 near its inner end wall 11. In the line 8 between the condenser and the condensate cooler there is a condensate diverter 12. On the central pipe 9 is fixed a mantle 14, which forms a room which communicates with the condensate cooling room 10 through an opening 15. The jacket 14 is arranged coaxially with the cooler jacket 5 and has its outside at some distance from its inside, whereby a narrow annular passage 16 for the coming from the pipe 9 condensate forms between the mantles 5 and 14. By means of a helically wound wire 17 in the space 16, the flow path can be extended. An outlet pipe 18 for the condensate exits from the upper part of the room 10 through the end plate 3. This pipe opens into a free space, so that the outflow of the condensate does not have to take place against any significant resistance.

The medium to be heated, e.g. thick oil, is introduced into the housing 1 through an inlet nozzle 19 at one end of the housing and passes outside the mantles 5 and 4 to a diametrically opposite outlet pipe 20 at the other end. The jackets 4 and 5 can be provided on the outside with cam flanges 21, so that the heat transfer is improved.

The described heat exchanger can, if necessary, be increased by one or more additional condenser parts, which with regard to the heated medium can be connected in parallel or in series with the condenser 4 and thus belong to the same group as this. The drawing shows such an additional condenser 22 with an outer capsule 23 connected to the outlet pipe 20 from the capsule 1 and with an outlet nozzle 24 for the heated medium. The condenser 22 is of the same design as the condenser 4 and is thus provided with a condenser jacket 25, end plates 26, 27, an inlet pipe 28 for steam passed through the end plate 26 and a drain line 29 exiting from this end plate for the drainage of condensate. The latter drain line is connected to the pipeline 8. On the outside of the mantle 25 there are cam flanges 30.

The mode of operation of the described heat exchanger is largely as follows, as it is assumed that the heat exchanger is intended for heating oil with steam. Cold oil is introduced through the spigot 19 and flows from one end of the capsule outside the jackets 5 and 4 to the outlet pipe 20 at the opposite end. It then passes the cam flanges 21 and is heated first by the condensate cooler and then by the condenser.

Steam under pressure, which enters the condenser space 7 through the tube 6, condenses on the inside of the mantle 4, whereby the released heat is transferred through the mantle and the cam flanges to the oil. The condensate leaves through the pipeline 8 and the condensate diverter 12 to the pipe 9 in the condensate cooler. The flow rate of the condensate is increased substantially on the inside of the mantle 5 by forcing it to pass through the narrow space 16 between the mantles 14 and 5. This improves the heat transfer. As the condensate outlet 18 originates from somewhere above the condensate cooler, this space in the inner casing 14 is also filled with water.

If the heat exchanger is provided with an extra condenser part, as in the example shown, the oil is further heated in this while it flows around the mantle 25 from the pipe 20 to the outlet nozzle 24.

Claims (2)

1. Heat exchanger serving to heat oil or other medium with steam and provided with a condenser part whose condensate is cooled by a cooler, into which the medium intended for heating first enters, characterized in that the condensate cooler consists of an outer casing (5) and one with this concentric inner jacket (14), between which a narrow passage (16) is formed from an inlet (9) for the condensate coming from the condenser part and an outlet (18) for this, the outer jacket (5) being thus arranged in the heat exchanger's outer house (1), that the medium, e.g. oil, which is to be heated, flows in a space formed between the outer jacket (5) and the outer housing (1). 2. Heat exchanger according to patent claim 1, characterized in that the space in the inner jacket (14) communicates with the passage (16) between the jackets through a bottom opening (15) which is at a lower level than a condenser outlet (18) from the outer jacket (5) ) in its upper part, so that the space in the inner mantle is filled with condensate.