CN208704503U - Slurries condense hollow hyperboloid fluid plate heat exchanger - Google Patents
Slurries condense hollow hyperboloid fluid plate heat exchanger Download PDFInfo
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- CN208704503U CN208704503U CN201821091677.0U CN201821091677U CN208704503U CN 208704503 U CN208704503 U CN 208704503U CN 201821091677 U CN201821091677 U CN 201821091677U CN 208704503 U CN208704503 U CN 208704503U
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- heat exchanger
- exchanger fin
- shell
- fin component
- condense
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Abstract
Slurries condense hollow hyperboloid fluid plate heat exchanger, are related to thermal power plant's chimney demisting and disappear white technical field.Including horizontally disposed shell, the bottom of shell is provided with support, one end of shell is provided with slurry inlet, the other end is provided with serum outlet, being provided in shell is in upper and lower spaced apart multiple groups heat exchanger fin component, forms the slurry flow channel being connected to respectively with slurry inlet, serum outlet between heat exchanger fin component;Heat exchanger fin component includes the two panels heat exchanger fin of mounted on top, and cavity is provided between the heat exchanger fin of heat exchanger fin component and forms cooling-water duct.The remarkable advantage of the utility model: such slurries condense hollow hyperboloid fluid plate heat exchanger, have small in size, and light-weight, heat transfer efficiency is high, and easy to clean, maintenance cost is low, durable, resist stifled ability strong.
Description
Technical field
Disappear white technical field the utility model relates to thermal power plant's chimney demisting, especially a kind of slurries condense hollow hyperboloid
Fluid plate heat exchanger.
Background technique
Currently, the steam in the operation of flue gas desulphurization system in flue gas is substantially saturated in discharge flue gas containing a large amount of water
Steam, in discharge process, after flue gas is mixed with atmosphere, the elutriation in flue gas goes out, and forms white cigarette.
Utility model content
The purpose of the utility model is to provide a kind of slurries to condense hollow hyperboloid fluid plate heat exchanger, passes through the heat exchange
The temperature of slurries in desulfurizing tower can be effectively reduced in device, reduce the water capacity in flue gas.
Realizing the technical solution of above-mentioned purpose is: slurries condense hollow hyperboloid fluid plate heat exchanger, it is characterised in that:
Including horizontally disposed shell, the bottom of shell is provided with support, and one end of shell is provided with slurry inlet, the other end is provided with
Serum outlet is provided in shell in upper and lower spaced apart multiple groups heat exchanger fin component, formed between heat exchanger fin component respectively with
The slurry flow channel that slurry inlet, serum outlet are connected to;
Closed cooling water cavity is divided by the symmetrically arranged partition in front and back respectively in the shell of heat exchanger fin component two sides,
One end of cooling water cavity is respectively arranged with water inlet, the other end is respectively arranged with water outlet, and heat exchanger fin component includes mounted on top
Two panels heat exchanger fin, cavity is provided between the heat exchanger fin of heat exchanger fin component and forms cooling-water duct, the left and right of heat exchanger fin component
It is closed by sealing plate, the front and back side of heat exchanger fin component is connect respectively with bulkhead seal and the cooling-water duct of heat exchanger fin component
It is connected to respectively with cooling water cavity.
When utility model works, slurries enter shell from slurry inlet, all by the slurry stream of heat exchanger fin inter-module
Road circulates, and is discharged from serum outlet.In the cooling water cavity that cooling water enters from the inlet, and the cooling through heat exchanger fin component
It is discharged after aquaporin circulation by water outlet, temperature can be effectively reduced after the heat exchange that slurries pass through cooling water, avoid the cigarette of discharge
Gas forms white cigarette.
The remarkable advantage of the utility model: such slurries condense hollow hyperboloid fluid plate heat exchanger, have it is small in size,
Light-weight, heat transfer efficiency is high, and easy to clean, maintenance cost is low, durable, resists stifled ability strong.
Further, slot corresponding with heat exchanger fin component count, the heat exchange are respectively arranged on the partition of two sides
Before the two panels heat exchanger fin of piece component rear lateral edge be respectively arranged with mutually close to flanging, be arranged between the flanging of two panels heat exchanger fin
Have water inlet of the gap as cooling-water duct, heat exchanger fin component be inserted in corresponding slot by the flanging of front and back side and with every
The flanging of plate sealing welding, heat exchanger fin component front and back side extends in cooling water cavity and is made by the gap between flanging
The cooling-water duct of heat exchanger fin component is connected to cooling water cavity respectively.
The utility model heat exchanger fin component is inserted into the slot between cooling water cavity by flanging, have it is easy for installation,
Secured advantage.
Further, the groove of upper and lower corresponding multiple indents is respectively arranged on the two panels heat exchanger fin of heat exchanger fin component,
The setting of groove can effectively improve heat exchange area and heat-exchange time between medium, to improve heat transfer effect.
Further, it is bonded to each other between the groove on heat exchanger fin, improves the quantity of groove.
Further, the both ends of the shell are respectively arranged with manhole, convenient to overhaul
Further, the slurry inlet end of the shell is provided with entrance pressure tap, serum outlet end is provided with outlet and surveys
Mouth is pressed, convenient for the pressure detecting of housing inlet port side and outlet side.
Further, be provided with rinse mouth at the top of the shell, bottom is provided with sewage draining exit, convenient in maintenance down
Enclosure interior is rinsed.
Detailed description of the invention
Fig. 1 is the main view of the utility model;
Fig. 2 is the portion the A enlarged drawing in Fig. 1;
Fig. 3 is the top view of the utility model;
Fig. 4 is the portion the B enlarged drawing in Fig. 3;
Fig. 5 is the side view of the utility model;
Fig. 6 is the portion the C enlarged drawing in Fig. 5.
Specific embodiment
As shown in figures 1 to 6, the utility model includes horizontally disposed shell 1, and the bottom of shell 1 is provided with support 2, shell
1 one end is provided with slurry inlet 3, the other end is provided with serum outlet 4, and the both ends of shell are respectively arranged with manhole 16, shell 1
Slurry inlet end be provided with entrance pressure tap 17, serum outlet end be provided with outlet pressure tap 18, the top of shell 1 is provided with
Rinse mouth 19, bottom are provided with sewage draining exit 20.
Being provided in shell 1 is in upper and lower spaced apart multiple groups heat exchanger fin component 5, forms difference between heat exchanger fin component 5
The slurry flow channel 13 being connected to slurry inlet 3, serum outlet 4;Before passing through respectively in the shell 1 of 5 two sides of heat exchanger fin component
Symmetrically arranged partition 8 is divided into closed cooling water cavity 6 afterwards, and one end of cooling water cavity 6 is respectively arranged with water inlet 7, another
End is respectively arranged with water outlet 9.
Heat exchanger fin component 5 includes the two panels heat exchanger fin 11 of mounted on top, is respectively arranged on heat exchanger fin 11 corresponding up and down
The groove 12 of multiple indents, groove 12 is in bowl-type, and is bonded to each other between the groove 12 on heat exchanger fin 11, the setting of groove 12
So that forming cavity between heat exchanger fin component 5 as cooling-water duct 14, the left and right ends of cooling-water duct 14 are sealed by sealing plate
It closes.
Slot 10 corresponding with 5 quantity of heat exchanger fin component is respectively arranged on the partition 8 of two sides, heat exchanger fin component 5
Before two panels heat exchanger fin 11 rear lateral edge be respectively arranged with mutually close to flanging 15, be provided between the flanging of two panels heat exchanger fin 11
Water inlet of the gap as cooling-water duct 14, heat exchanger fin component 5 are inserted in corresponding on partition 8 by the flanging 15 of front and back side
In slot 10 and with 8 sealing welding of partition, the flanging 15 of 5 front and back side of heat exchanger fin component extends in cooling water cavity 6 and passes through folding
Gap between side 15 is connected to the cooling-water duct 14 of heat exchanger fin component 5 with cooling water cavity 6 respectively.
When utility model works, slurries enter shell 1 from slurry inlet 4, pass through the slurry flow between heat exchanger fin component 5
Channel 13 is circulated, and is discharged from serum outlet 4.Cooling water is out of, water inlet 7 enters cooling water cavity 6, and through heat exchanger fin group
The cooling-water duct 14 of part 5 is discharged after circulating by water outlet 9, and temperature can be effectively reduced after the heat exchange that slurries pass through cooling water,
The flue gas of discharge is avoided to form white cigarette.
Claims (7)
1. slurries condense hollow hyperboloid fluid plate heat exchanger, it is characterised in that: including horizontally disposed shell, the bottom of shell
Portion is provided with support, and one end of shell is provided with slurry inlet, the other end is provided with serum outlet, is provided in shell in up and down
Spaced apart multiple groups heat exchanger fin component forms the slurries being connected to respectively with slurry inlet, serum outlet between heat exchanger fin component
Circulation passage;
Closed cooling water cavity is divided by the symmetrically arranged partition in front and back respectively in the shell of heat exchanger fin component two sides, it is cooling
One end of water cavity is respectively arranged with water inlet, the other end is respectively arranged with water outlet;Heat exchanger fin component includes the two of mounted on top
Piece heat exchanger fin is provided with cavity between the heat exchanger fin of heat exchanger fin component and forms cooling-water duct, and the left and right of heat exchanger fin component passes through
Sealing plate closing, the front and back side of heat exchanger fin component is connect with bulkhead seal respectively and the cooling-water duct of heat exchanger fin component is distinguished
It is connected to cooling water cavity.
2. slurries according to claim 1 condense hollow hyperboloid fluid plate heat exchanger, it is characterised in that: two sides every
Slot corresponding with heat exchanger fin component count, side before and after the two panels heat exchanger fin of the heat exchanger fin component are respectively arranged on plate
Along be respectively arranged with mutually close to flanging, be provided with water inlet of the gap as cooling-water duct between the flanging of two panels heat exchanger fin
Mouthful, heat exchanger fin component is inserted in corresponding slot by the flanging of front and back side and is welded with bulkhead seal, the heat exchanger fin component
The flanging of front and back side extends in cooling water cavity and distinguishes the cooling-water duct of heat exchanger fin component by the gap between flanging
It is connected to cooling water cavity.
3. slurries according to claim 1 or 2 condense hollow hyperboloid fluid plate heat exchanger, it is characterised in that: heat exchange
The groove of upper and lower corresponding multiple indents is respectively arranged on the two panels heat exchanger fin of piece component.
4. slurries according to claim 3 condense hollow hyperboloid fluid plate heat exchanger, it is characterised in that: on heat exchanger fin
Groove between be bonded to each other.
5. slurries according to claim 1 condense hollow hyperboloid fluid plate heat exchanger, it is characterised in that: the shell
Both ends be respectively arranged with manhole.
6. slurries according to claim 1 condense hollow hyperboloid fluid plate heat exchanger, it is characterised in that: the shell
Slurry inlet end be provided with entrance pressure tap, serum outlet end is provided with outlet pressure tap.
7. slurries according to claim 1 condense hollow hyperboloid fluid plate heat exchanger, it is characterised in that: the shell
Top be provided with rinse mouth, bottom is provided with sewage draining exit.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821091677.0U CN208704503U (en) | 2018-07-11 | 2018-07-11 | Slurries condense hollow hyperboloid fluid plate heat exchanger |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821091677.0U CN208704503U (en) | 2018-07-11 | 2018-07-11 | Slurries condense hollow hyperboloid fluid plate heat exchanger |
Publications (1)
Publication Number | Publication Date |
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CN208704503U true CN208704503U (en) | 2019-04-05 |
Family
ID=65938212
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201821091677.0U Active CN208704503U (en) | 2018-07-11 | 2018-07-11 | Slurries condense hollow hyperboloid fluid plate heat exchanger |
Country Status (1)
Country | Link |
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CN (1) | CN208704503U (en) |
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2018
- 2018-07-11 CN CN201821091677.0U patent/CN208704503U/en active Active
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