CN201534780U - Temperature reducing device of aluminum oxide decomposition tank - Google Patents

Temperature reducing device of aluminum oxide decomposition tank Download PDF

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Publication number
CN201534780U
CN201534780U CN2009200457844U CN200920045784U CN201534780U CN 201534780 U CN201534780 U CN 201534780U CN 2009200457844 U CN2009200457844 U CN 2009200457844U CN 200920045784 U CN200920045784 U CN 200920045784U CN 201534780 U CN201534780 U CN 201534780U
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CN
China
Prior art keywords
heat pipe
decomposition tank
decomposing pool
heat
section
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
CN2009200457844U
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Chinese (zh)
Inventor
王道河
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Nanjing Kechen Energy-saving Equipment Co Ltd
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Nanjing Kechen Energy-saving Equipment Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Priority to CN2009200457844U priority Critical patent/CN201534780U/en
Application granted granted Critical
Publication of CN201534780U publication Critical patent/CN201534780U/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Abstract

The utility model relates to a temperature reducing device of an aluminum oxide decomposition tank, which comprises a decomposition tank and a stirring device arranged in the decomposition tank. The utility model is characterized in that a heat pipe is arranged on the top part of the decomposition tank, and the heat pipe extends into the decomposition tank through a preserved hole of a top plate of the decomposition tank, wherein a heated section L of the heat pipe is inserted into fluid of the decomposition tank for absorbing heat, the heat is continuously and ceaselessly transferred to a cooling section M through work media in the heat pipe, a spiral cooling water flow guide groove passage is welded between an outer sleeve pipe of the cooling section of the heat pipe and the heat pipe, circulation cooling water enters the temperature reducing device through the lower part of the cooling section, and flows out of the temperature reducing device through the flow guide groove passage from the top of the outer sleeve pipe of the heat pipe for carrying out heat exchange, and the goal of reducing the temperature of the fluid in the decomposition tank can be realized. The utility model has the advantages of convenient and fast installation, reliable operation, no motive power consumption during the heat pipe operation, no material blockage and long service life. Because the single heat pipe works independently, the maintenance and the replacement are convenient, and the production halt maintenance is not needed.

Description

The heat sink of alumina decomposing pool
Technical field
The utility model relates to the method for cooling step by step of metallurgical alumina decomposing pool, relates to a kind of heat sink of multi-level alumina decomposing pool specifically.
Background technology
One of critical process of producing aluminum oxide is the decomposition of crystal seed process, is about to aluminium hydroxide and separates out from oversaturated sodium aluminate solution, obtains the higher seed precipitation solution of the second best in quality aluminium hydroxide and caustic ratio.Under the certain situation of sodium aluminate solution composition, the key factor that influences separating effect is the degradation temperature in solution temperature and the decomposition course, temperature reduces, then the degree of supersaturation of sodium aluminate solution increases, help improving rate of decomposition, output capacity etc., so the intermediate temperature drop operation of decomposition course seems particularly important.
Multi-level alumina decomposing pool all needs to lower the temperature 2 ℃ for every grade, and the alumina decomposing pool volume is huge, and single decomposing pool volume is all at 3000~5000M 3, decomposing pools at different levels per hour spillway discharge at 1400~1600M 3, the heat of 3,000,000 kilocalories is per hour arranged approximately, need be by heat-exchange equipment cooling discharging.Traditional alumina producing enterprise adopts stainless steel plate type heat exchanger to lower the temperature, and enters plate-type heat exchanger by pressure pumping material, through realizing cooling with the recirculated cooling water heat exchange.
Stainless steel making sheet formula interchanger is that the stainless steel fin is installed on stainless steel flat plate, and stainless steel plateform is installed then thereon, and an elementary cell is formed with the sealing of edge strip of paper used for sealing in both sides, is made of the core body of plate-type heat exchanger many elementary cells.Need the thermal medium of being lowered the temperature and be used for the cold medium of refrigerative to intersect respectively by adjacent elementary cell, because the temperature difference that exists between cold medium and the thermal medium, heat passes to low temperature side by the stainless steel plate fin from high temperature side, realize heat transfer between cold medium and the thermal medium with this, plate-type heat exchanger involves great expense, every complete equipment price is all more than 2,000,000 yuan, the operation power consumption is big, per hour service rating is 90 kilowatts, estimation 90% working time per year, year consuming electric power 700,000 kilowatts/time, large and medium-sized alumina producing enterprise, same category of device is all at tens of more than.And plate-type heat exchanger equipment is in operation very easily and stops up, and dismounting is safeguarded frequent, and causing can not the ordinary production operation.
The utility model content
In order to overcome the deficiencies in the prior art, the purpose of this utility model is to provide a kind of device of temperature reduction of multi-level alumina decomposing pool that is.
The utility model is achieved through the following technical solutions:
The heat sink of alumina decomposing pool comprises: decomposing pool, be installed in the agitator in the decomposing pool, it is characterized in that installing heat pipe on decomposing pool, the cooling section of heat pipe is installed cooling water pipe.
The heat sink of aforementioned alumina decomposing pool is characterized in that described heat pipe stretches in the decomposing pool through the decomposing pool top board, and heat pipe heating section and cooling section are fixed by fixing part respectively.
The heat sink of aforementioned alumina decomposing pool, the fixing part that it is characterized in that described heating section are that an end is fixed on the stable cover that decomposes pool wall.
The heat sink of aforementioned alumina decomposing pool is characterized in that between described heat pipe heating section and the cooling section flange being set, and is fixed by bolts on the channel-section steel on the decomposing pool top board.
The beneficial effects of the utility model are: the utility model is applied to special heat pipe in the cooling of multi-level alumina decomposing pool, a difficult problem greatly, is easily stopped up in the power consumption that has solved plate-type heat exchanger existence in the alumina decomposing pool cooling, and the heat pipe cost is low, and is reliable, and heat pipe moves unpowered loss, no material stops up, long service life works alone because of heat pipe is single, and it is convenient to install, change, need not stop production to overhaul, have very high energy-saving benefit and using value.
Description of drawings
Fig. 1 is the structural representation of the heat sink of the utility model alumina decomposing pool;
Fig. 2 is the structural representation of heat pipe;
Fig. 3 is the distribution synoptic diagram of heat pipe at the alumina decomposing pool top board;
Fig. 4 is heat pipe and decomposing pool top cover, pool wall bonding state synoptic diagram;
The explanation of major parts in the accompanying drawing:
Decomposing pool 1, decomposing pool top board 2, channel-section steel 3, paddle 4, support 5, fin 6, heat pipe 7, heat pipe upper cover 8, lower cover 9, diversion trench 10, flange 11, heat pipe heating section L, heat pipe cooling section M, stable cover 12, pool wall 13, jacket pipe 21, jacket pipe water-in 14, jacket pipe water outlet 15, sealing-ring 16
Embodiment
Below in conjunction with accompanying drawing, describe embodiment of the present utility model in detail:
Fig. 1 is the structural representation of the heat sink of the utility model alumina decomposing pool.
With reference to shown in Figure 1, a kind of heat sink of alumina decomposing pool, specification is as follows: decomposing pool 1 diameter is 14000mm, topside area is 153.86M 2, decomposing pool top board 2, heat pipe 7 are installed for removably, are easy for installation and maintenance and change single heat pipe.Agitating vane 4 diameters are 9000mm in the decomposing pool, and the blade external diameter has 24000mm circumference spacing apart from the decomposing pool inwall.
Fig. 2 is the structural representation of heat pipe, with reference to shown in Figure 2, be provided with upper cover 8, the lower cover 9 that is used to seal, the flange 11 that is provided with ratio-frequency welding helical fin 6 diversion trench 10, that be used to increase area of dissipation, is used for fixing heat pipe on the heat pipe, wherein the lower end of heat pipe is heating section L, and band fin end is cooling section M.
Heat pipe specification: Φ 51mm * 3mm * 16100mm, heating section L length: 13500mm (top has 1100mm to hang section), cooling section M total length 2500mm, wherein cooling section fin segment length 2400mm.
Heating section area (is example with 100): single heat pipe 1.984M 2* 100=198.40M 2
Cooling section area (is example with 100): single heat pipe 2.10M 2* 100=210M 2(containing the two-sided surface-area of fin)
Every the about 37KW/h of heat pipe through-put power * 860=31820 kilocalorie * 100=3182000 kilocalories.
Fig. 3 is the distribution schematic diagram of heat pipe at the decomposing pool lamina tecti, and Fig. 4 is heat pipe and decomposing pool top cover, pool wall bonding state synoptic diagram.
Shown in Fig. 3,4, heat pipe is installed in the decomposing pool top cover, and to uniform distribution, wherein this distance is 6500mm with the position axis of distance top cover center certain distance, and the axial spacing between the heat pipe is 300mm.Among this figure, the quantity of the heat pipe that symmetry is installed is 50, and this quantity is example only, is not limited to the utility model, also can increase or reduce the quantity of heat pipe as required.
Wherein, the circular hole that heat pipe 7 is reserved through decomposing pool 1 top board stretches in the decomposing pool 1, and use bolting by flange 11 and the channel-section steel 3 on the top board, between flange and the outer tube sealing-ring 16 can be set, the lower end of heat pipe heating section is fixed by stable cover 12, welding supports 5 on the stable cover 12, and the other end of support 5 is installed in pool wall 13.Absorb heat in the fluid of heat pipe heating section L insertion decomposing pool 1, and heat conducted to cooling section M, at cooling section, heat and recirculated cooling water carry out heat exchange, carry out cooling, and wherein heat pipe cooling section suit jacket pipe 21, water coolant enters from sleeve pipe lower end water-in 14, along the spiral stream guidance groove, water outlet 15 outflows from sleeve pipe top realize that alumina decomposing pool meets the requirement of the cooling of production technique.
Below disclose the utility model with preferred embodiment, so it is not in order to restriction the utility model, and all employings are equal to replaces or technical scheme that the equivalent transformation mode is obtained, all drops within the protection domain of the present utility model.

Claims (4)

1. the heat sink of alumina decomposing pool comprises: decomposing pool, be installed in the agitator in the decomposing pool, it is characterized in that installing heat pipe on decomposing pool, described heat pipe structure comprises cooling section and heating section, and cooling section and heating section are installed shrouding respectively.
2. the heat sink of alumina decomposing pool according to claim 1 is characterized in that described heat pipe cooling section adds tubing, cooling jacket bottom welding admitting pipe joint, welded top titting water outlet.
3. the heat sink of alumina decomposing pool according to claim 1, the heating section that it is characterized in that described heat pipe is stabilized in the fluid in the decomposing pool by stabilizing deyice.
4. the heat sink of alumina decomposing pool according to claim 1 is characterized in that mounting flange between the heating section of described heat pipe and the cooling section, is fixed by bolts on the channel-section steel on the decomposing pool top board.
CN2009200457844U 2009-05-18 2009-05-18 Temperature reducing device of aluminum oxide decomposition tank Expired - Lifetime CN201534780U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2009200457844U CN201534780U (en) 2009-05-18 2009-05-18 Temperature reducing device of aluminum oxide decomposition tank

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2009200457844U CN201534780U (en) 2009-05-18 2009-05-18 Temperature reducing device of aluminum oxide decomposition tank

Publications (1)

Publication Number Publication Date
CN201534780U true CN201534780U (en) 2010-07-28

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN2009200457844U Expired - Lifetime CN201534780U (en) 2009-05-18 2009-05-18 Temperature reducing device of aluminum oxide decomposition tank

Country Status (1)

Country Link
CN (1) CN201534780U (en)

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C14 Grant of patent or utility model
GR01 Patent grant
AV01 Patent right actively abandoned

Granted publication date: 20100728

Effective date of abandoning: 20090518