KR830007856A - Heat treatment method and apparatus of heat exchanger - Google Patents

Abstract

No content

Description

Heat treatment method and apparatus of heat exchanger

Since this is an open matter, no full text was included.

1 is a block diagram showing a heat treatment apparatus of the present invention showing the heat treatment from the outside of the shell and the inside of the tube bundle in the nuclear steam generator.

2 is another configuration of the present invention showing a state in which the surface of the shell in the nuclear steam generator is heated from the inside of the tube bundle in an insulated state.

3 is a block diagram of the present invention showing the ecology heated from the inside of the shell and the inside of the tube bundle in the nuclear steam generator.

Claims (20)

As the heat treatment method of the tubular heat exchanger, the heat exchanger is composed of a shell and a plurality of tubes, and the method is performed according to (1) install a fluid passage 27 through which the hot fluid flowing through the heat exchanger 10 can flow, (2) injecting fluid into the fluid passageway 27, (3) heat the fluid, (4) circulating the heated fluid in the fluid passage flowing through the heat exchanger (10), (5) measure the temperature by installing a plurality of temperature measuring devices 50 in each part of the heat exchanger 10 described above, (6) A method of adjusting the amount of heat applied to the fluid described above. In the fluid circulation according to claim 1, the heated fluid flowing through the heat exchanger 10 is introduced from one end of the tube inside the shell to flow along the tube and then to the other side of the tube. How to. In the method according to claim 1, the heated fluid flowing through the heat exchanger 10 flows through the inlet 44 in the shell 14 of the heat exchanger 10 and then the conduit ( Flows along the surface of 42 and circulates through the outlet 46 in the shell 14. In the method according to claim 1, the flow sequence of the heated fluid flowing through the heat exchanger 10 first enters one side portion of the tube and exits to the other side portion of the tube. The fluid entering through the inlet 44 in 14 flows along the surface of the conduit 42 and exits to the outlet 46 in the shell 14. A method of applying heat to the surface of said heat exchanger (10) in addition to the method according to claims 2, 3 or 4 and a method of controlling the applied heat. In addition to the method according to claim 2, the heat exchanger 10 is installed in the furnace 22, the fuel is combusted, and heat is applied to the surface of the heat exchanger 10 by applying heat to the furnace 22. How to control. In addition to the method according to claims 2, 3 or 4, a method of preventing heat loss leaking outside by attaching a heat insulator (66) to the surface of the heat exchanger (10). A method according to claim 1 which heats a fluid as it passes through an electric heater. The fluid to be heated in the method according to claim 1 uses nitrogen and uses a high temperature fan to flow nitrogen into the fluid passage (26). Inside the heat exchanger 10, the shell 14, a tube sheet 20 attached to one side of the shell, and a plurality of tubes 24 protected by the tube sheet 20 inside the shell. The heat treatment method of the tubular heat exchanger, which is capable of passing a fluid through a furnace to flow out of the heat exchanger 10, is as follows. (1) a conduit 42 is provided between the inlet 44 through which the fluid can be introduced into the heat exchanger 10 from outside the heat exchanger and the outlet 46 through which the heat exchanger 10 can exit. (2) putting the heated fluid from the external reservoir 28 into the conduit 42, (3) flowing the heated fluid into the conduit 42 described above, (4) heats the fluid as it flows through the conduit 42, (5) measure a plurality of designated temperatures inside the heat exchanger (10) (6) A method capable of controlling the temperature measured at a plurality of designations inside the heat exchanger (10) by controlling the temperature applied to the fluid as described above. It consists of a shell 14, a tube sheet 20 attached to the shell, and a plurality of tubes 24 protected by the tube sheet inside the shell, passing fluid inside the heat exchanger 10 to the outside of the heat exchanger. Post-weld heat treatment of tubular heat exchangers. (1) a device for circulating a heated fluid through the heat exchanger (10), (2) an apparatus for heating the fluid described above, (3) a device capable of measuring temperature from a plurality of designations within said heat exchanger, (4) A device capable of controlling the amount of heat applied to the fluid described above. In the device according to claim 11, the device for circulating the fluid is installed outside the heat exchanger and is installed between the inlet 44 entering the heat exchanger and the outlet 46 exiting the heat exchanger. A device for causing heated fluid to flow along a conduit (42) in a fluid reservoir (28). In the device according to claim 12, the device for supplying the heated fluid to the heat exchanger 10 is composed of a device for supplying fluid into the shell 14 and a device for supplying fluid between the tubes. In the heat exchanger 10, the fluid outflow device is composed of a device outflowing the fluid from the shell 14 and a device outflowing the fluid from the pipes, the fluid supplied from the conduit 42 between the pipes And a device for flowing fluid to the shell (14) side by side. The device according to claim 12, wherein an inlet 44 for supplying fluid into the heat exchanger 10 is formed in the first opening of the shell 14 of the heat exchanger 10, and the heat exchanger The outlet 46 from which fluid flows out is formed at the second opening of the shell of the heat exchanger and the inlet 44 and outlet 46 are provided at suitable intervals. The device according to claim 13, wherein the device for flowing fluid inside the heat exchanger 10 is at an inlet header connected to the inlet end portion of the tube and the fluid flows out of the heat exchanger. And a device in the outlet header connected to the outlet end portion of said tube. Apparatus for applying heat to the surface of said heat exchanger (10) in addition to claims 13, 14 or 15. In addition to the claims 13, 14 or 15, the apparatus provided with a heat insulating material (66) on the surface of said heat exchanger. Apparatus according to claim 12, wherein said fluid is heated using an electric furnace (22). Apparatus according to claim 17, wherein the apparatus employs a furnace (22) that heats the surface of the heat exchanger (10). An apparatus according to claim 19, wherein the apparatus uses gas as fuel for the furnace. ※ Note: It is to be disclosed based on the contents of the initial application.