CN202099075U - Tubulation and staying tank dissolving-out system of gibbsite bauxite - Google Patents

Tubulation and staying tank dissolving-out system of gibbsite bauxite Download PDF

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CN202099075U
CN202099075U CN2011201738912U CN201120173891U CN202099075U CN 202099075 U CN202099075 U CN 202099075U CN 2011201738912 U CN2011201738912 U CN 2011201738912U CN 201120173891 U CN201120173891 U CN 201120173891U CN 202099075 U CN202099075 U CN 202099075U
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water
communicated
tubulation
condensation
flash
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许文强
李宝林
邢国春
杨再明
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Northeastern University Engineering and Research Institute Co Ltd
Northeast University Design and Research Institute Co Ltd
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Northeast University Design and Research Institute Co Ltd
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Abstract

The utility model relates to a tubulation and staying tank dissolving-out system of gibbsite bauxite, which belongs to the technical field of aluminum oxide production, and comprises a circulating mother liquor groove, a heat preservation staying tank, a flash distillation device and a diluting device, wherein the circulating mother liquor groove is communicated with a tubulation heating device through a mother liquor feed pump, and the tubulation heating device consists of a first-stage tubulation pre-heater, a second-stage tubulation pre-heater, a third-stage tubulation pre-heater, a condensed water tubulation heater and a new steam tubulation heater which are connected in series. By the dissolving-out system disclosed by the utility model, the ore pulp processing capacity is improved, energy is saved, the production cost is reduced, and the equipment corrosion is reduced.

Description

A kind of tubulation dwell tank digestion series of gibbsitic bauxite
Technical field
The utility model belongs to technical field of alumina production, particularly a kind of tubulation dwell tank digestion series of gibbsitic bauxite.
Background technology
At present domestic alumina producer more than 95% adopts the bayer's process production technique.The core of bayer's process production technique is the stripping operation of bauxite ore pulp, and the purpose of stripping is that bauxite and circulating mother liquor are reacted at a certain temperature, generates sodium aluminate solution, and reaction formula is:
Al 2O 3(1/3)H 2O+2NaOH+aq→2NaAl(OH) 4+aq
Because various places bauxite ore chemistry composition is different, needed stripping temperature difference is very big; Domestic ore is mainly diaspore type, and what generally adopt is high temperature, highly basic stripping mode; External gipsite, the stripping side that generally adopts low temperature, low alkali of being mainly; Gipsite for mixed type adds boehmite (and boehmite-diaspore type), and what generally adopt is high temperature, highly basic stripping mode; The ore pulp that comes from the alumina producer desiliconization process is generally about 90 ~ 95 ℃, therefore if reach the temperature of reaction of stripping, will heat temperature raising, to guarantee to reach the stripping temperature.
The key technical indexes to the diaspore type bauxite stripping is: the stripping temperature is 255 ~ 270 ℃, and digesting liquid Rp=1.18 (are m (Al 2O 3)/m (Na 2O)), red mud alkali is than (N/S)=0.38, red mud igloss 8%, AI 2O 3Relative solubility rate 93%.
The key technical indexes that adds the stripping of boehmite type bauxite to gipsite is: the stripping temperature is 240 ℃ ~ 270 ℃, and digesting liquid Rp (is m (Al 2O 3)/m (Na 2O))=1.21, red mud alkali is than (N/S)=0.5, red mud igloss 8%, AI 2O 3Relative solubility rate 99%.
The key technical indexes to the gibbsitic bauxite stripping is: the stripping temperature is 140 ℃ ~ 160 ℃, and digesting liquid Rp=1.18 (are m (Al 2O 3)/m (Na 2O)), red mud alkali is than (N/S)=0.32, red mud igloss 9%, AI 2O 3Relative solubility rate 99%.
Present stage, the dissolving-out process of alumina producer bauxite ore pulp of domestic larger processing gibbsitic bauxite adopted sleeve pipe dwell tank dissolving-out process more, and maximum processing ore pulp amount is merely 1000m in theory 3/ h, the main production unit of sleeve pipe dwell tank dissolving-out process is cannula primary heater+double pipe heater+insulation remaining tank+flasher; Some disadvantages below sleeve pipe dwell tank dissolving-out process exists:
1, theory and production practice prove, mother liquor mixes the form that adopts many interior pipe-in-pipe preheatings and heating more earlier with the desiliconization slip, owing to receive the restriction that seamless pipeline is made; Maximum outer tube can only be DN=600, thereby the specification and the quantity that have limited pipe in it can't continue to increase, and are the interior pipe of 3 DN200 to the maximum; If increase flow system flow with this understanding, cause the interior flow velocity of sleeve pipe to reach more than the 3m/s, thereby the SR loss is excessive; Equipment attrition is big; The device fabrication cost is high, and running cost is high, does not possess economic rationality.
2, sleeve pipe dwell tank dissolving-out process slip is prone to produce scab (being mainly scabbing of kaolinite reaction generation) under the situation of sleeve pipe internal heating, and double-tube heat exchanger heat transfer coefficient under the situation that nothing scabs is at least 1000Kcal/m 2.h. ℃; Heat transfer efficiency descends rapidly under the situation about scabbing, and heat transfer coefficient drops to 550 Kcal/m 2.h. ℃ about, influence heat-transfer effect.
Summary of the invention
The purpose of the utility model is the problem that on dissolving-out technology, exists to existing gibbsitic bauxite, and a kind of tubulation dwell tank digestion series of gibbsitic bauxite is provided.
The tubulation dwell tank digestion series of the gibbsitic bauxite of the utility model comprises circulating mother liquor groove, tubulation heating unit, insulation remaining tank, flash distillation plant and air mix facilities; The tubulation heating unit is followed in series to form by one-level tubulation preheater, secondary tubulation preheater, three grades of tubulation preheaters, water of condensation tube still heater and live steam tube still heaters, is equipped with medium import, media outlet, opening for feed and discharge port on each tubulation preheater and the tube still heater; Flash distillation plant is followed in series to form by one-level flasher, two-stage flash device and three grades of flashers, is equipped with opening for feed, discharge port and air outlet on each flasher; The circulating mother liquor groove is communicated with the import of mother liquor feeding pump; The outlet of mother liquor feeding pump is communicated with the opening for feed of one-level tubulation preheater; The discharge port of one-level tubulation preheater is communicated with the opening for feed of secondary tubulation preheater; The discharge port of secondary tubulation preheater is communicated with the opening for feed of three grades of tubulation preheaters; The discharge port of three grades of tubulation preheaters is communicated with the opening for feed of water of condensation tube still heater, and the discharge port of water of condensation tube still heater is communicated with the opening for feed of live steam tube still heater, and the discharge port of live steam tube still heater is communicated with the mother liquor opening for feed of insulation remaining tank; The ore pulp opening for feed of insulation remaining tank is communicated with stripping feeding pump outlet, and the import of stripping feeding pump is communicated with the outlet of desiliconization slot; The discharge port of insulation remaining tank is communicated with flash distillation plant, and flash distillation plant is communicated with air mix facilities.
In the above-mentioned digestion series; The opening for feed of one-level flasher is communicated with the discharge port of insulation remaining tank; The discharge port of one-level flasher is communicated with the opening for feed of two-stage flash device; The discharge port of two-stage flash device is communicated with the opening for feed of three grades of flashers, and the discharge port of three grades of flashers is communicated with air mix facilities; The air outlet of three grades of flashers is communicated with the inlet mouth of one-level tubulation preheater, and the air outlet of two-stage flash device is communicated with the inlet mouth of secondary tubulation preheater, and the air outlet of one-level flasher is communicated with the inlet mouth of three grades of tubulation preheaters.
Above-mentioned digestion series also is provided with three grades of water of condensation flash-pots, B-grade condensation water flash-pot and one-level water of condensation flash-pot; Be equipped with water-in, air outlet and water outlet on each water of condensation flash-pot, wherein also be provided with water inlet on three grades of water of condensation flash-pots and the B-grade condensation water flash-pot; The media outlet of one-level tubulation preheater is communicated with the water-in of three grades of water of condensation flash-pots; The media outlet of secondary tubulation preheater is communicated with the water-in of B-grade condensation water flash-pot, and the media outlet of three grades of tubulation preheaters is communicated with one-level water of condensation flash-pot water-in; The air outlet of three grades of water of condensation flash-pots is communicated with the medium import of one-level tubulation preheater; The air outlet of B-grade condensation water flash-pot is communicated with the medium import of secondary tubulation preheater, and the air outlet of one-level water of condensation flash-pot is communicated with the medium import of three grades of tubulation preheaters; The water outlet of one-level water of condensation flash-pot is communicated with the water inlet of B-grade condensation water flash-pot; The water outlet of B-grade condensation water flash-pot is communicated with the water inlet of three grades of water of condensation flash-pots, and the water outlet of three grades of water of condensation flash-pots is communicated with condensate pump.
In the above-mentioned digestion series; The medium import of live steam tube still heater is communicated with steam system; The media outlet of live steam tube still heater is communicated with the import of the first vapor condensation water pot; The outlet of the first vapor condensation water pot is communicated with the medium import of water of condensation tube still heater, and the media outlet of water of condensation tube still heater is communicated with the import of the second vapor condensation water pot, and the outlet of the second vapor condensation water pot is communicated with the import of live steam condensed water flash-pot.
In the above-mentioned digestion series; Air mix facilities comprises dilution trap, exhaust steam recoverer and hot water tank; The opening for feed of dilution trap is communicated with the discharge port of three grades of flashers, and the discharge port of dilution trap connects dilution pumps, and the air outlet of dilution trap is communicated with the inlet mouth of exhaust steam recoverer; The air outlet of exhaust steam recoverer and water outlet all are communicated with the import of hot water tank, and the outlet of hot water tank connects a hot water pump.
The tubulation dwell tank dissolving-out method of the gibbsitic bauxite of the utility model is to adopt above-mentioned digestion series, carries out according to the following steps:
1, the circulating mother liquor in the circulating mother liquor groove is transported in the one-level tubulation preheater through the mother liquor feeding pump; In the medium import of one-level tubulation preheater, feed the steam heating circulating mother liquor; Circulating mother liquor gets into secondary tubulation preheater after heating; In the medium import of secondary tubulation preheater, feed the steam heating circulating mother liquor, circulating mother liquor gets into three grades of tubulation preheaters after second-heating, feeds the steam heating circulating mother liquor in the medium import in three grades of tubulation preheaters; Circulating mother liquor gets into the water of condensation tube still heater after three heating; The feeding temperature is 200 ~ 220 ℃ a water of condensation heating cycle mother liquor in the medium import of water of condensation tube still heater, and circulating mother liquor gets into the live steam tube still heater after four heating, in the medium import of live steam tube still heater, feeds the steam heating circulating mother liquor; Circulating mother liquor is 180 ~ 190 ℃ through temperature after heating, gets into the insulation remaining tank then;
2, the desiliconization ore pulp in the desiliconization slot is transported in the insulation remaining tank through the stripping feeding pump; The temperature of desiliconization ore pulp is 100 ~ 105 ℃; The desiliconization ore pulp mixes with circulating mother liquor and carries out stripping, and combined amount is 145 ~ 160 ℃ by mixed temperature, and dissolution time is 30 ~ 60min;
3, the stripping slurry that obtains after stripping is accomplished gets into flash distillation plant, after flash distillation, gets into air mix facilities.
In the aforesaid method, circulating mother liquor is heated to 115 ~ 120 ℃ after getting into three grades of tubulation preheaters; Be heated to 120 ~ 130 ℃ after getting into the water of condensation tube still heater.
In the aforesaid method; The vapor temperature that in the live steam tube still heater, feeds is 200 ~ 220 ℃; Pressure is 1.6 ~ 2.0MPa, and formation temperature is 200 ~ 220 ℃ a water of condensation behind the process live steam tube still heater, is used for the circulating mother liquor heating to the water of condensation tube still heater.
In the aforesaid method, stripping slurry is reduced to 105 ~ 120 ℃ through temperature behind the flash distillation plant, in air mix facilities, mixes the formation diluent then with red mud wash liquor.
In the aforesaid method; After stripping slurry gets into flash distillation plant from remaining tank; Get into one-level flasher, two-stage flash device and three grades of flashers successively; Decrease temperature and pressure step by step in flashers at different levels, temperature reduces by 7 ~ 12 ℃ behind flasher of every entering, and the reduction of pressure following temperature drops to and the corresponding saturation vapour pressure of temperature.
In the aforesaid method, stripping slurry is introduced into dilution trap after flash distillation plant leaves, and in dilution trap, mixes the formation diluent with red mud wash liquor, and the temperature that requires diluent is 95 ~ 105 ℃, and the NaOH mass concentration is 10 ~ 15%, Al 2O 3And Na 2The mass ratio R of O P=m (Al 2O 3)/m (Na 2O)=1.15 ~ 1.25; Diluent transmits the red-mud settlement system that enters into through dilution pumps; Mix the steam entering exhaust steam recoverer that the back produces; Recirculated water is passed in the exhaust steam recoverer and keeps flowing; The water of condensation that forms after recirculated water and the steam gets into hot water tank; The steam that exhaust steam recoverer produces gets into the water of condensation that forms in the hot water tank and gets into hot water tank, and the steam that produces in the hot water tank turns back in the exhaust steam recoverer.
In the aforesaid method, when stripping slurry got into one-level flasher, two-stage flash device and three grades of flashers, the steam of generation entered into the medium import of three grades of tubulation preheaters, secondary tubulation preheater and one-level tubulation preheater respectively as heating steam; The exhaust steam that steam forms after through three grades of tubulation preheaters, secondary tubulation preheater and one-level tubulation preheater gets into one-level water of condensation flash-pot, B-grade condensation water flash-pot and three grades of water of condensation flash-pots respectively by media outlet separately; The steam that in one-level water of condensation flash-pot, B-grade condensation water flash-pot and three grades of water of condensation flash-pots, produces gets into respectively in three grades of tubulation preheaters, secondary tubulation preheater and the one-level tubulation preheater as heating steam; The water of condensation that in one-level water of condensation flash-pot, produces gets in the B-grade condensation water flash-pot; The water of condensation that produces in the B-grade condensation water flash-pot gets in three grades of water of condensation flash-pots, and the water of condensation that produces in three grades of water of condensation flash-pots is sent to the hot water station through condensate pump.
In the aforesaid method; The steam that feeds in the medium import of live steam tube still heater is from thermoelectric power station; The water of condensation that forms behind the steam process live steam tube still heater gets into the first vapor condensation water pot; The water of condensation that comes out from the first vapor condensation water pot gets into the water of condensation tube still heater, through getting into the second vapor condensation water pot behind the water of condensation tube still heater, gets into the live steam condensed water flash-pot after coming out through the second vapor condensation water pot; The steam that in the live steam condensed water flash-pot, forms is sent to preparatory desiliconization system or evaporation, and the water of condensation that in the live steam condensed water flash-pot, forms is sent to hot water station or heat power plant through condensate pump.
In the aforesaid method, when the steam that produces in the flashers at different levels surpassed the steam of tubulation preheaters needs at different levels, unnecessary steam was sent to preparatory desiliconization system or evaporation.
The utlity model has following advantage:
1, the system of the utility model has broken through the restriction of sleeve pipe dwell tank art breading ore pulp ability, can improve the ore pulp processing power, for example is about 1250 ~ 1500 kg/cm in the gibbsitic bauxite pulp density 3Situation, can increase 2 ~ 3 times ore pulp processing power at least;
2, adopt tubulation preheater and tube still heater to carry out the preheating and the heating of mother liquor, in the operating temperature range of this operation, heat transfer coefficient can be steady in a long-term at 1000 ~ 1500Kcal/m 2H ℃, and do not have the influence that scabs basically; Compare traditional dissolving-out process synthesis energy saving more than 30%;
3, adopt tubulation preheater and tube still heater littler, do not have basically and scab, be easy to cleaning than cannula primary heater and well heater floor space.This process synthesis reduces cost more than 35%, and operation cost reduces by 15% at least;
4, the cleaning of tubulation preheater and tube still heater is easy, does not have basically and scabs, and the cycle of operation is long; Scab cleaning difficulty of the heating tube of cannula primary heater and double pipe heater, scavenging period is long, need supporting high-pressure hydraulic cleaning, alkali cleaning facility from and increased construction investment and operation cost; And the general simple middle setting-out power of regular carrying out that only needs of the utility model employing tubulation preheater is cleaned, and is simple and convenient, and do not have the acid base pair corrosion on Equipment, and the influence of acid base pair environment;
5, system's pipe arrangement of the utility model is simple, and production operation and cleaning maintenance are convenient; Production operation difficulty and maintenance difficulty have been reduced;
6, slip gets into dilution trap, through dilution slurry temperature and concentration is reduced; Thereby reduce the stability of sodium aluminate solution, sedimentation is carried out with separating to become easily;
7, the method for the utility model adopts the water-cooled exhaust steam recoverer to reclaim the secondary steam that traditional technology need efflux, and has reduced power loss; The slip exhaust steam of dilution trap gets into the exhaust steam recoverer at top, can reclaim the dilution trap exhaust steam in a large number through feeding recirculated water to exhaust steam recoverer, reduces the exhausted air quantity to airborne release greatly; 35 ~ 37 ℃ the recirculated water that the exhaust steam heat is got into exhaust steam recoverer absorbs back entering hot water tank, and temperature is that 48 ~ 52 ℃ steam is passed into hot water tank;
8, the system of the utility model compares with scale conventional pipelines dwell tank dissolving-out process and can save floor space 20% at least.
Description of drawings
Fig. 1 is the tubulation dwell tank digestion series structural representation of the gibbsitic bauxite of the utility model;
Among the figure: 1, circulating mother liquor groove, 2, the mother liquor feeding pump, 3, one-level tubulation preheater, 3-1, one-level opening for feed, 3-2, one-level discharge port; 3-3, the import of one-level medium, 3-4, one-level media outlet, 4, secondary vapour tubulation preheater, 4-1, secondary opening for feed, 4-2, secondary discharge port; 4-3, secondary medium import, 4-4, secondary medium outlet, 5, three grades of tubulation preheaters, 5-1, three grades of opening for feeds, 5-2, three grades of discharge ports; 5-3, three grades of medium imports, 5-4, three grades of media outlets, 6, the water of condensation tube still heater, 6-1, water of condensation tube still heater opening for feed, 6-2, water of condensation tube still heater discharge port; 6-3, the import of water of condensation tube still heater medium, 6-4, water of condensation tube still heater media outlet, 7, the live steam tube still heater, 7-1, live steam tube still heater opening for feed, 7-2, live steam tube still heater discharge port; 7-3, the import of live steam tube still heater medium, 7-4, live steam tube still heater media outlet, 8, the insulation remaining tank, 9, the one-level flasher; 10, two-stage flash device, 11, three grades of flashers, 12, dilution trap, 13, dilution pumps; 14, exhaust steam recoverer, 15, hot water tank, 16, the hot water tank hot water pump, 17, three grades of water of condensation flash-pots; 18, B-grade condensation water flash-pot, 19, one-level water of condensation flash-pot, 20, the first vapor condensation water pot, 21, the second vapor condensation water pot; 22, live steam condensed water flash-pot, 23, live steam condensed water flash-pot hot water pump, 24, desiliconization slot, 25, the stripping feeding pump; 26, desiliconization slot stirring rake, 27, condensate pump, 28, vapo(u)rization system, 29, live steam system of heat power plant; 30, hot water station, 31, first valve, 32, second valve, the 33, the 3rd valve.
Embodiment
The weight ratio of aluminum oxide and silicon oxide is 4 ~ 20 in the gibbsitic bauxite among the utility model embodiment, Al 2O 3Weight content be 30 ~ 75%, the weight ratio of aluminum oxide and red stone is 2.5 ~ 6; The composition of each thing phase is mainly gipsite in the gibbsitic bauxite, and all the other are rhombohedral iron ore, kaolinite, quartz and chlorite etc.
Embodiment 1
The tubulation dwell tank digestion series structure of gibbsitic bauxite is as shown in Figure 1, comprises circulating mother liquor groove 1, tubulation heating unit, insulation remaining tank 8, flash distillation plant and air mix facilities;
The tubulation heating unit is followed in series to form by one-level tubulation preheater 3, secondary tubulation preheater 4, three grades of tubulation preheaters 5, water of condensation tube still heater 6 and live steam tube still heaters 7, is equipped with medium import, media outlet, opening for feed and discharge port on each tubulation preheater and the tube still heater;
Flash distillation plant is followed in series to form by one-level flasher 9, two-stage flash device 10 and three grades of flashers 11; Be equipped with opening for feed, discharge port and air outlet on each flasher;
Insulation remaining tank 8 is provided with mother liquor opening for feed, ore pulp opening for feed and discharge port;
Circulating mother liquor groove 1 is communicated with 2 imports of mother liquor feeding pump; 2 outlets of mother liquor feeding pump are communicated with one-level opening for feed 3-1; One-level discharge port 3-2 is communicated with secondary opening for feed 4-1, and secondary discharge port 4-2 is communicated with three grades of opening for feed 5-1, and three grades of discharge port 5-2 are communicated with water of condensation tube still heater opening for feed 6-1; Water of condensation tube still heater discharge port 6-2 is communicated with live steam tube still heater opening for feed 7-1, and live steam tube still heater discharge port 7-2 is communicated with the mother liquor opening for feed of insulation remaining tank 8; The ore pulp opening for feed of insulation remaining tank 8 is communicated with the outlet of stripping feeding pump 25, and the import of stripping feeding pump 25 is communicated with the outlet of desiliconization slot 24; The discharge port of insulation remaining tank 8 is communicated with flash distillation plant, and flash distillation plant is communicated with air mix facilities; Be provided with desiliconization slot stirring rake 26 in the desiliconization slot 24;
The opening for feed of one-level flasher 9 is communicated with the discharge port of insulation remaining tank 8; The discharge port of one-level flasher 9 is communicated with the opening for feed of two-stage flash device 10; The discharge port of two-stage flash device 10 is communicated with the opening for feed of three grades of flashers 11, and the discharge port of three grades of flashers 11 is communicated with air mix facilities; The air outlet of three grades of flashers 11 is communicated with one-level medium import 3-3, and the air outlet of two-stage flash device 10 is communicated with secondary medium import 4-3, and the air outlet of one-level flasher 11 is communicated with three grades of medium import 5-3;
Digestion series also is provided with three grades of water of condensation flash-pots 17, B-grade condensation water flash-pot 18 and one-level water of condensation flash-pot 19; Be equipped with water-in, air outlet and water outlet on each water of condensation flash-pot, wherein also be provided with water inlet on three grades of water of condensation flash-pots 17 and the B-grade condensation water flash-pot 18; The air outlet of each water of condensation flash-pot is positioned at the top of water of condensation flash-pot, and water outlet is positioned at the below of water of condensation flash-pot;
One-level media outlet 3-4 is communicated with the water-in of three grades of water of condensation flash-pots 17, and secondary medium outlet 4-4 is communicated with the water-in of B-grade condensation water flash-pot 18, and three grades of media outlet 5-4 are communicated with one-level water of condensation flash-pot 19 water-ins; The air outlet of three grades of water of condensation flash-pots 17 is communicated with one-level medium import 3-3, and the air outlet of B-grade condensation water flash-pot 18 is communicated with secondary medium import 4-3, and the air outlet of one-level water of condensation flash-pot 19 is communicated with three grades of medium import 5-3; The water outlet of one-level water of condensation flash-pot 19 is communicated with the water inlet of B-grade condensation water flash-pot 18; The water outlet of B-grade condensation water flash-pot 18 is communicated with the water inlet of three grades of water of condensation flash-pots 17, and the water outlet of three grades of water of condensation flash-pots 17 is communicated with condensate pump 27;
Live steam tube still heater medium import 7-3 is communicated with live steam system of heat power plant 29; Live steam tube still heater media outlet 7-4 is communicated with the import of the first vapor condensation water pot 20; The outlet of the first vapor condensation water pot 20 is communicated with water of condensation tube still heater medium import 6-3; Water of condensation tube still heater media outlet 6-4 is communicated with the import of the second vapor condensation water pot 21, and the outlet of the second vapor condensation water pot 21 is communicated with the import of live steam condensed water flash-pot 22; Live steam condensed water flash-pot 22 is provided with air outlet and water outlet, and wherein water outlet is communicated with live steam condensed water flash-pot hot water pump 23;
Air mix facilities comprises dilution trap 12, exhaust steam recoverer 14 and hot water tank 15; The opening for feed of dilution trap 12 is communicated with the discharge port of three grades of flashers 11; The discharge port of dilution trap 12 connects dilution pumps 13; The air outlet of dilution trap 12 is communicated with the inlet mouth that 14 devices are reclaimed in exhaust steam, and the air outlet at exhaust steam recoverer 13 tops and the water outlet of bottom are communicated with two imports of hot water tank 15 respectively, and the outlet of hot water tank 15 connects hot water tank hot water pump 16;
The tubulation dwell tank dissolving-out method of gibbsitic bauxite is to adopt above-mentioned digestion series, carries out according to the following steps:
Circulating mother liquor in the circulating mother liquor groove is transported in the one-level tubulation preheater through the mother liquor feeding pump; In the medium import of one-level tubulation preheater, feed the steam heating circulating mother liquor; Circulating mother liquor gets into secondary tubulation preheater after heating; In the medium import of secondary tubulation preheater, feed the steam heating circulating mother liquor, circulating mother liquor gets into three grades of tubulation preheaters after second-heating, feeds the steam heating circulating mother liquor in the medium import in three grades of tubulation preheaters; Circulating mother liquor gets into the water of condensation tube still heater after three heating; The feeding temperature is 200 ~ 220 ℃ a water of condensation heating cycle mother liquor in the medium import of water of condensation tube still heater, and circulating mother liquor gets into the live steam tube still heater after four heating, in the medium import of live steam tube still heater, feeds the steam heating circulating mother liquor; Circulating mother liquor is 180 ℃ through temperature after heating, gets into the insulation remaining tank then;
Desiliconization ore pulp in the desiliconization slot is transported in the insulation remaining tank through the stripping feeding pump, and the temperature of desiliconization ore pulp is 100 ℃, and the desiliconization ore pulp mixes with circulating mother liquor and carries out stripping, and combined amount is as the criterion at 145 ℃ with the temperature of mixture, and dissolution time is 60min;
The stripping slurry that obtains after stripping is accomplished gets into flash distillation plant, after flash distillation, gets into air mix facilities;
Circulating mother liquor is heated to 120 ℃ after getting into three grades of tubulation preheaters; Be heated to 130 ℃ after getting into the water of condensation tube still heater;
The vapor temperature that in the live steam tube still heater, feeds is 200 ~ 220 ℃, and pressure is 1.6 ~ 2.0MPa; Formation temperature is 200 ~ 220 ℃ a water of condensation behind the process live steam tube still heater, is used for the circulating mother liquor heating to the water of condensation tube still heater;
Stripping slurry is reduced to 105 ℃ through temperature behind the flash distillation plant, in air mix facilities, mixes the formation diluent then with red mud wash liquor;
After stripping slurry gets into flash distillation plant from remaining tank; Get into one-level flasher, two-stage flash device and three grades of flashers successively; Decrease temperature and pressure step by step in flashers at different levels, temperature reduces by 7 ℃ behind flasher of every entering, and the reduction of pressure following temperature drops to corresponding saturation vapour pressure;
Stripping slurry is introduced into dilution trap after flash distillation plant leaves, in dilution trap, mix the formation diluent with red mud wash liquor, and the temperature that requires diluent is 95 ℃, and the NaOH mass concentration is 10%, Al 2O 3And Na 2The mass ratio R of O P=m (Al 2O 3)/m (Na 2O)=1.15; Diluent transmits the red-mud settlement system that enters into through dilution pumps; Mix the steam entering exhaust steam recoverer that the back produces; 35 ~ 37 ℃ low-temperature circulating water are passed in the exhaust steam recoverer and keep flowing; The water of condensation that forms after low-temperature circulating water and the steam gets into hot water tank from the water outlet of exhaust steam recoverer bottom, and the steam that exhaust steam recoverer produces gets into the hot water tank from the air outlet at top;
When stripping slurry got into one-level flasher, two-stage flash device and three grades of flashers, the steam of generation entered into the medium import of three grades of tubulation preheaters, secondary tubulation preheater and one-level tubulation preheater respectively as heating steam; The exhaust steam that steam forms after through three grades of tubulation preheaters, secondary tubulation preheater and one-level tubulation preheater gets into one-level water of condensation flash-pot, B-grade condensation water flash-pot and three grades of water of condensation flash-pots respectively by media outlet separately; The steam that in one-level water of condensation flash-pot, B-grade condensation water flash-pot and three grades of water of condensation flash-pots, produces gets into respectively in the medium import of three grades of tubulation preheaters, secondary tubulation preheater and one-level tubulation preheater as heating steam; The water of condensation that in one-level water of condensation flash-pot, produces gets in the B-grade condensation water flash-pot; The water of condensation that produces in the B-grade condensation water flash-pot gets in three grades of water of condensation flash-pots, and the water of condensation that produces in three grades of water of condensation flash-pots is sent to the hot water station through condensate pump;
The steam that feeds in the medium import of live steam tube still heater is from thermoelectric power station; The water of condensation that forms behind the steam process live steam tube still heater gets into the first vapor condensation water pot; The medium import that the water of condensation that comes out from the first vapor condensation water pot gets into the water of condensation tube still heater; Cooling water of condensation through forming behind the water of condensation tube still heater gets into the second vapor condensation water pot; The water of condensation that comes out from the second vapor condensation water pot gets into the live steam condensed water flash-pot; The steam that in the live steam condensed water flash-pot, forms is sent to preparatory desiliconization system or evaporation, and the water of condensation that in the live steam condensed water flash-pot, forms is sent to hot water station or heat power plant through condensate pump;
When the steam that produces in the flashers at different levels surpassed the steam of tubulation preheaters needs at different levels, unnecessary steam was sent to vapo(u)rization system;
The gibbsitic bauxite pulp density is about 1250 ~ 1500 kg/cm 3Condition under, adopt said system and method to increase 2 ~ 3 times ore pulp processing power; Heat transfer coefficient can be steady in a long-term at 1000 ~ 1500Kcal/m 2H ℃, and do not have the influence that scabs; Compare traditional dissolving-out process synthesis energy saving more than 30%; The comprehensive cost that reduces is more than 35%, and operation cost reduces by 15% at least; 35 ~ 37 ℃ the low-temperature circulating water that heat is got into exhaust steam recoverer absorbs back entering hot water tank, and temperature is to arrange to atmosphere after 48 ~ 52 ℃ waste vapour gets into hot water tank from the top; Compare with scale conventional pipelines dwell tank dissolving-out process and save floor space 20%.
Embodiment 2
The tubulation dwell tank digestion series structure of gibbsitic bauxite is with embodiment 1;
The tubulation dwell tank dissolving-out method of gibbsitic bauxite is with embodiment 1, and difference is:
(1) circulating mother liquor is 185 ℃ through live steam tube still heater temperature after heating, gets into the insulation remaining tank then;
(2) the desiliconization ore pulp in the desiliconization slot is transported in the insulation remaining tank through the stripping feeding pump; The temperature of desiliconization ore pulp is 103 ℃; The desiliconization ore pulp mixes with circulating mother liquor and carries out stripping, and combined amount is as the criterion at 155 ℃ with the temperature of mixture, and dissolution time is 40min;
(3) after circulating mother liquor gets into three grades of tubulation preheaters, be heated to 120 ℃; Be heated to 125 ℃ after getting into the water of condensation tube still heater;
(4) stripping slurry is reduced to 110 ℃ through temperature behind the flash distillation plant, in dilution trap, mixes the formation diluent with red mud wash liquor then, and the temperature that requires diluent is 100 ℃, and the NaOH mass concentration is 12%, Al 2O 3And Na 2The mass ratio R of O P=m (Al 2O 3)/m (Na 2O)=1.2;
(5) after stripping slurry gets into flash distillation plant from remaining tank; Get into one-level flasher, two-stage flash device and three grades of flashers successively; Decrease temperature and pressure step by step in flashers at different levels, temperature reduces by 10 ℃ behind flasher of every entering, and the reduction of pressure following temperature drops to corresponding saturation vapour pressure.
Embodiment 3
The tubulation dwell tank digestion series structure of gibbsitic bauxite is with embodiment 1;
The tubulation dwell tank dissolving-out method of gibbsitic bauxite is with embodiment 1, and difference is:
(1) circulating mother liquor is 190 ℃ through live steam tube still heater temperature after heating, gets into the insulation remaining tank then;
(2) the desiliconization ore pulp in the desiliconization slot is transported in the insulation remaining tank through the stripping feeding pump; The temperature of desiliconization ore pulp is 105 ℃; The desiliconization ore pulp mixes with circulating mother liquor and carries out stripping, and combined amount is as the criterion at 160 ℃ with the temperature of mixture, and dissolution time is 30min;
(3) after circulating mother liquor gets into three grades of tubulation preheaters, be heated to 115 ℃; Be heated to 120 ℃ after getting into the water of condensation tube still heater;
(4) stripping slurry is reduced to 120 ℃ through temperature behind the flash distillation plant, gets into dilution trap then, in dilution trap, mixes the formation diluent with red mud wash liquor, and the temperature that requires diluent is 105 ℃, and the NaOH mass concentration is 15%, Al 2O 3And Na 2The mass ratio R of O P=m (Al 2O 3)/m (Na 2O)=1.25;
(5) after stripping slurry gets into flash distillation plant from remaining tank; Get into one-level flasher, two-stage flash device and three grades of flashers successively; Decrease temperature and pressure step by step in flashers at different levels, temperature reduces by 12 ℃ behind flasher of every entering, and the reduction of pressure following temperature drops to corresponding saturation vapour pressure.

Claims (5)

1. the tubulation dwell tank digestion series of a gibbsitic bauxite comprises circulating mother liquor groove, insulation remaining tank, flash distillation plant and air mix facilities; It is characterized in that the circulating mother liquor groove is communicated with the tubulation heating unit through the mother liquor feeding pump; The tubulation heating unit is followed in series to form by one-level tubulation preheater, secondary tubulation preheater, three grades of tubulation preheaters, water of condensation tube still heater and live steam tube still heaters, is equipped with medium import, media outlet, opening for feed and discharge port on each tubulation preheater and the tube still heater; Flash distillation plant is followed in series to form by one-level flasher, two-stage flash device and three grades of flashers, is equipped with opening for feed, discharge port and air outlet on each flasher; The circulating mother liquor groove is communicated with the import of mother liquor feeding pump; The outlet of mother liquor feeding pump is communicated with the opening for feed of one-level tubulation preheater; The discharge port of one-level tubulation preheater is communicated with the opening for feed of secondary tubulation preheater; The discharge port of secondary tubulation preheater is communicated with the opening for feed of three grades of tubulation preheaters; The discharge port of three grades of tubulation preheaters is communicated with the opening for feed of water of condensation tube still heater, and the discharge port of water of condensation tube still heater is communicated with the opening for feed of live steam tube still heater, and the discharge port of live steam tube still heater is communicated with the mother liquor opening for feed of insulation remaining tank; The ore pulp opening for feed of insulation remaining tank is communicated with stripping feeding pump outlet, and the import of stripping feeding pump is communicated with the outlet of desiliconization slot; The discharge port of insulation remaining tank is communicated with flash distillation plant, and flash distillation plant is communicated with air mix facilities.
2. the tubulation dwell tank digestion series of a kind of gibbsitic bauxite according to claim 1; The opening for feed that it is characterized in that the one-level flasher is communicated with the discharge port of insulation remaining tank; The discharge port of one-level flasher is communicated with the opening for feed of two-stage flash device; The discharge port of two-stage flash device is communicated with the opening for feed of three grades of flashers, and the discharge port of three grades of flashers is communicated with air mix facilities; The air outlet of three grades of flashers is communicated with the inlet mouth of one-level tubulation preheater, and the air outlet of two-stage flash device is communicated with the inlet mouth of secondary tubulation preheater, and the air outlet of one-level flasher is communicated with the inlet mouth of three grades of tubulation preheaters.
3. the tubulation dwell tank digestion series of a kind of gibbsitic bauxite according to claim 1; The media outlet that it is characterized in that one-level tubulation preheater is communicated with the water-in of three grades of water of condensation flash-pots; The media outlet of secondary tubulation preheater is communicated with the water-in of B-grade condensation water flash-pot, and the media outlet of three grades of tubulation preheaters is communicated with one-level water of condensation flash-pot water-in; The air outlet of three grades of water of condensation flash-pots is communicated with the medium import of one-level tubulation preheater; The air outlet of B-grade condensation water flash-pot is communicated with the medium import of secondary tubulation preheater, and the air outlet of one-level water of condensation flash-pot is communicated with the medium import of three grades of tubulation preheaters; The water outlet of one-level water of condensation flash-pot is communicated with the water inlet of B-grade condensation water flash-pot; The water outlet of B-grade condensation water flash-pot is communicated with the water inlet of three grades of water of condensation flash-pots, and the water outlet of three grades of water of condensation flash-pots is communicated with condensate pump.
4. the tubulation dwell tank digestion series of a kind of gibbsitic bauxite according to claim 1; The medium import that it is characterized in that the live steam tube still heater is communicated with steam system; The media outlet of live steam tube still heater is communicated with the import of the first vapor condensation water pot; The outlet of the first vapor condensation water pot is communicated with the medium import of water of condensation tube still heater; The media outlet of water of condensation tube still heater is communicated with the import of the second vapor condensation water pot, and the outlet of the second vapor condensation water pot is communicated with the import of live steam condensed water flash-pot.
5. the tubulation dwell tank digestion series of a kind of gibbsitic bauxite according to claim 1; It is characterized in that air mix facilities comprises dilution trap, exhaust steam recoverer and hot water tank; The opening for feed of dilution trap is communicated with the discharge port of three grades of flashers, and the discharge port of dilution trap connects dilution pumps, and the air outlet of dilution trap is communicated with the inlet mouth of exhaust steam recoverer; The air outlet of exhaust steam recoverer and water outlet all are communicated with the import of hot water tank, and the outlet of hot water tank connects a hot water pump.
CN2011201738912U 2011-05-27 2011-05-27 Tubulation and staying tank dissolving-out system of gibbsite bauxite Expired - Lifetime CN202099075U (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102249271A (en) * 2011-05-27 2011-11-23 东北大学设计研究院(有限公司) Tube array and remaining tank dissolving-out system and method for gibbsite bauxite
CN107754363A (en) * 2016-08-23 2018-03-06 沈阳铝镁设计研究院有限公司 A kind of method that raising system evaporation volume reduces the steam consumption
CN112125324A (en) * 2020-08-13 2020-12-25 山东南山铝业股份有限公司 New steam condensate water waste heat recovery device

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102249271A (en) * 2011-05-27 2011-11-23 东北大学设计研究院(有限公司) Tube array and remaining tank dissolving-out system and method for gibbsite bauxite
CN107754363A (en) * 2016-08-23 2018-03-06 沈阳铝镁设计研究院有限公司 A kind of method that raising system evaporation volume reduces the steam consumption
CN112125324A (en) * 2020-08-13 2020-12-25 山东南山铝业股份有限公司 New steam condensate water waste heat recovery device

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