Embodiment
The utility model provides a kind of refining plant that contains the alcoholic acid aqueous solution; As shown in Figure 1; Wherein, This device comprises thermal barrier source, steam stripping unit, rectification cell, gas-liquid separation unit, heat exchange unit and dewatering unit, and said steam stripping unit comprises first stripping tower 3 and second stripping tower 4, and said rectification cell comprises first rectifying tower 6 and second rectifying tower 5; Said gas-liquid separation unit comprises light wine jar 7, the first rectifying tower return tank 9 and the second rectifying tower return tank 8, and said heat exchange unit comprises the first raw material interchanger 1, the second raw material interchanger 2, first stripper reboiler 10, second stripper reboiler 11 and the first rectifying tower reboiler 12; The feed(raw material)inlet of said first stripping tower 3 and said second stripping tower 4 is communicated with the shell side of the first raw material interchanger 1, the second raw material interchanger 2 successively; The cat head light constituent outlet of said first stripping tower 3 is communicated with the heat transferring medium tube side of the feed(raw material)inlet of said light wine jar 7 through the first raw material interchanger 1; At the bottom of the tower of said first stripping tower 3 at the bottom of the tower of the heavy constituent outlets shell side through said first stripper reboiler 10 and said first stripping tower 3 reflux inlet be communicated with and with out-of-bounds be communicated with; The liquid ingredient outlet of said light wine jar 7 is communicated with the middle feed inlet of said first rectifying tower 6; The cat head light constituent outlet of said second rectifying tower 5 is communicated with said dewatering unit; And the heat transferring medium tube side that passes through said first stripper reboiler 10 is communicated with the opening for feed of the second rectifying tower return tank 8; The discharge port of the said second rectifying tower return tank 8 is communicated with said second rectifying tower, 5 top reflux inlets; The heavy constituent outlet is communicated with the middle part opening for feed of said first rectifying tower 6 at the bottom of the tower of said second rectifying tower 5; The cat head light constituent discharge port of said first rectifying tower 6 is communicated with the opening for feed of the first rectifying tower return tank 9 through the heat transferring medium tube side of said second stripper reboiler 11; At the bottom of the tower heavy constituent outlets be communicated with the shell side of the first rectifying tower reboiler 12 and with out-of-bounds be communicated with; The discharge port of the said first rectifying tower return tank 9 is communicated with the top opening for feed of said second rectifying tower 5 and selectively is communicated with the top reflux inlet of first rectifying tower 6; The cat head light constituent outlet of said second stripping tower 4 is communicated with opening for feed at the bottom of the tower of second rectifying tower 5; At the bottom of the tower of said second stripping tower 4 at the bottom of the tower of the heavy constituent outlets shell side through said second stripper reboiler 11 and second stripping tower 4 reflux inlet be communicated with and with out-of-bounds be communicated with, said thermal barrier source is communicated with the heat transferring medium tube side of the said first rectifying tower reboiler 12 and the heat transferring medium tube side of raw material interchanger 2 successively.
According to the refining plant that contains the alcoholic acid aqueous solution that the utility model provided; Said steam stripping unit comprises first stripping tower 3 and second stripping tower 4; Said first stripping tower 3 and second stripping tower 4 can be various distillation towers known in the field, and the structure of this distillation tower is well known in the art.
According to the refining plant that contains the alcoholic acid aqueous solution that the utility model provided; Said rectification cell comprises first rectifying tower 6 and second rectifying tower 5; Said rectification cell comprises that first rectifying tower 6 and second rectifying tower 5 can be various rectifying tower known in the field, and the structure of this rectifying tower is well known in the art.The stage number of first rectifying tower 6 and second rectifying tower 5 or theoretical plate number can be 58-65 and 35-40 separately.
According to the refining plant that contains the alcoholic acid aqueous solution that the utility model provided, said heat exchange unit comprises the first raw material interchanger 1, the second raw material interchanger 2, first stripper reboiler 10, second stripper reboiler 11 and the first rectifying tower reboiler 12.The said first raw material interchanger 1 and the second raw material interchanger 2 can generally comprise tube side and shell side for various interchanger known in the field, and tube side is used to provide the circulation place of heat transferring medium, and shell side is used to provide the circulation of treating heat exchange material place.Said first stripper reboiler 10 and second stripper reboiler 11 and the said first rectifying tower reboiler 12 can be reboiler known in the field, as long as can realize returning in the tower behind the component ebuillition of heated at the bottom of the tower.
According to the refining plant that contains the alcoholic acid aqueous solution that the utility model provided; In order more sufficiently and reasonably to utilize heat; The said first raw material interchanger 1 can be placed in-line 2-3; Said first stripper reboiler 10 can be 2-3 of parallel connection, and said second stripper reboiler 11 is 2-3 of parallel connection, and the said first rectifying tower reboiler 12 is 2-3 of parallel connection.Under the preferred situation, said first stripper reboiler 10 is 2 of parallel connection, and said second stripper reboiler 11 is 2 of parallel connection, and the said first rectifying tower reboiler 12 is 2 of parallel connection.
According to the refining plant that contains the alcoholic acid aqueous solution that the utility model provided, this refining plant also comprises heavy constituent deliverying unit at the bottom of the first stripping Tata, heavy constituent deliverying unit at the bottom of the heavy constituent deliverying unit and the first rectifying Tata at the bottom of the second stripping Tata.
The heavy constituent outlet also with out-of-bounds is communicated with at the bottom of the tower of said first stripping tower 3, thereby a heavy constituent part is returned first stripping tower 3 after boiling through first stripper reboiler 10 again at the bottom of the tower of first stripping tower 3, and another part is then discharged out-of-bounds.In order further to utilize thermal source; Under the preferred situation; The heat transferring medium tube side of heavy constituent outlet connection the 3rd raw material interchanger 13 is communicated with out-of-bounds again at the bottom of the tower of said first stripping tower 3; The shell side of the 3rd raw material interchanger 13 is communicated with the shell side of the first raw material interchanger 1 and the second raw material interchanger 2, and the 3rd raw material interchanger 13 can be arranged between the first raw material interchanger 1 and the second raw material interchanger 2.
The heavy constituent outlet also with out-of-bounds is communicated with at the bottom of the tower of said second stripping tower 4.In order further to utilize thermal source; Under the preferred situation; The heavy constituent outlet is communicated with out-of-bounds after being communicated with the second stripping tower feed preheater 14 again at the bottom of the tower of said second stripping tower 4; The said second stripping tower feed preheater 14 can be arranged between the feed(raw material)inlet of the second raw material interchanger 2 and second stripping tower 4, thus make heavy constituent at the bottom of the tower of second stripping tower 4 before discharging out-of-bounds with the raw material heat exchange of entering second stripping tower 4.This feed preheater can be various preheaters known in the field, as long as can realize above-mentioned preheat function.
The heavy constituent outlet also with out-of-bounds is communicated with at the bottom of the tower of said first rectifying tower 6, thereby a heavy constituent part is returned first rectifying tower 6 after boiling through the first rectifying tower reboiler 12 again at the bottom of the tower of first rectifying tower 6, and another part is then discharged out-of-bounds.In order further to utilize thermal source; Under the preferred situation; The heat transferring medium tube side that heavy constituent outlets is communicated with the first rectifying tower feed preheater 15 at the bottom of the tower of said first rectifying tower 6 is communicated with out-of-bounds again, thereby makes heavy constituent at the bottom of the tower of first rectifying tower 6 before discharging out-of-bounds and from the raw material of light wine jar 7, before this raw material gets into first rectifying tower 6, carry out heat exchange.
In the refining plant that contains the alcoholic acid aqueous solution that the utility model provided, said out-of-bounds being meant outside the refining alcoholic acid device.
As shown in Figure 1; The method that the refining plant that contains the alcoholic acid aqueous solution of the utility model is used for making with extra care when containing the alcoholic acid aqueous solution comprises containing the preheating of the alcoholic acid aqueous solution; And the part that contains the alcoholic acid aqueous solution after the preheating is sent into first stripping tower 3 distill; Send into light wine jar 7 after the cat head light constituent condensation with first stripping tower 3 and carry out gas-liquid separation, the liquid ingredient that obtains is sent into first rectifying tower 6 carry out rectifying, send into the first rectifying tower return tank 9 after the cat head light constituent condensation with first rectifying tower 6 and carry out gas-liquid separation; The liquid ingredient that obtains is partly or entirely sent into second rectifying tower 5; Another part liquid ingredient returns first rectifying tower 6, and the part of heavy constituent at the bottom of the tower of first stripping tower 3 is returned first stripping tower 3 after through 10 heating of first stripper reboiler, and another part effluxes; The part of heavy constituent at the bottom of first rectifying tower, 6 towers is returned first rectifying tower 6 after through 12 heating of the first rectifying tower reboiler, and another part effluxes;
Other part that contains the alcoholic acid aqueous solution after the preheating is sent into second stripping tower 4 distills; The cat head light constituent of second stripping tower 4 gets into second rectifying tower 5 and carries out rectifying; Second rectifying tower, 5 a cat head light constituents part gets into dewatering unit; Send into the second rectifying tower return tank 8 after another part condensation and carry out gas-liquid separation, liquid ingredient returns at the bottom of second rectifying tower, 5, the second rectifying tower, 5 towers heavy constituent and gets into first rectifying tower 6 and carry out rectifying again; The part of heavy constituent at the bottom of second stripping tower, 4 towers is returned second stripping tower 4 after through 11 heating of second stripper reboiler, and another part effluxes;
Wherein, Pressure in said second stripping tower 4 is higher than the pressure in said first stripping tower 3; Pressure in said first rectifying tower 6 is higher than the pressure in said second rectifying tower 5; The first rectifying tower reboiler 12 is by extraneous heat supply; Said will contain the preheating of the alcoholic acid aqueous solution through with said contain the alcoholic acid aqueous solution successively with the cat head light constituent heat exchange of first stripping tower 3 and with the extraneous thermal source heat exchange after 12 heat supplies of the first rectifying tower reboiler is realized first stripper reboiler 10 is by the cat head light constituent heat supply from second rectifying tower 5, second stripper reboiler 11 is by the cat head light constituent heat supply from first rectifying tower 6.
According to the utility model, this method also comprises the thermal source that heavy constituent at the bottom of the tower of the outlet of heavy constituent at the bottom of said first stripping tower, 3 towers discharge is contained the alcoholic acid aqueous solution as preheating; Will from heavy constituent outlet at the bottom of said second stripping tower, 4 towers discharge heavy constituent get into the thermal source that contains the alcoholic acid aqueous solution of second stripping tower 4 as preheating; The heavy constituent that to discharge from heavy constituent outlet at the bottom of said first rectifying tower, 6 towers are as the thermal source of heating from light wine jar 7 liquid ingredients.
According to the utility model, this method comprises to be sent into the alcoholic acid aqueous solution that contains after the preheating respectively in first stripping tower 3 and second stripping tower 4.Generally speaking, the alcoholic acid aqueous solution that contains after the preheating is sent into the ratio of weight and the weight of sending into second stripping tower 4 in first stripping tower 3 and can be 1: 1.4-2; Under the preferred situation, to send into the ratio of weight and the weight of sending into second stripping tower 4 in first stripping tower 3 be 1: 1.45-1.55 with the alcoholic acid aqueous solution that contains after the preheating.
According to the utility model, in order more sufficiently and reasonably to utilize thermal source, said second stripper reboiler 11 carries out heat supply by the part cat head light constituent from first rectifying tower 6, and another part gets into dewatering unit and dewaters.Be used for the refining method that contains the alcoholic acid aqueous solution at the utility model, said dewatering unit can be the molecular sieve dehydration unit.
According to the utility model; This method comprises that sending into the first rectifying tower return tank 9 after the cat head light constituent condensation with first rectifying tower 6 carries out gas-liquid separation; The liquid ingredient that obtains is partly or entirely sent into second rectifying tower 5, and another part liquid ingredient returns first rectifying tower 6.Under the preferred situation, send into the first rectifying tower return tank 9 after the cat head light constituent condensation with first rectifying tower 6 and carry out gas-liquid separation, the liquid ingredient that obtains is partly sent into second rectifying tower 5, another part liquid ingredient returns first rectifying tower 6.
According to the utility model, the pressure in second stripping tower 4 is higher than the pressure in said first stripping tower 3.Generally speaking, the high 0.4-0.7atm of pressure in said first stripping tower 3 of the pressure ratio in second stripping tower 4; Under the preferred situation, the high 0.5-0.6atm of pressure in said first stripping tower 3 of the pressure ratio in second stripping tower 4.
According to the utility model, the pressure in first rectifying tower 6 is higher than the pressure in said second rectifying tower 5.Generally speaking, the high 2.5-3atm of pressure in said second rectifying tower 5 of the pressure ratio in first rectifying tower 6; Under the preferred situation, the high 2.6-2.8atm of pressure in said second rectifying tower 5 of the pressure ratio in first rectifying tower 6.
In aforesaid method, be higher than the pressure in said first stripping tower 3 through the pressure in second stripping tower 4, carry out the one-level differential distillation; Be higher than the pressure in said second rectifying tower 5 through the pressure in first rectifying tower 6, carry out the secondary differential distillation.Can further practice thrift power consumption through above-mentioned secondary differential distillation.
According to the utility model, generally speaking, the pressure of first stripping tower 3 can be 0.2-0.8atm, and tower top temperature can be 60-70 ℃, and column bottom temperature can be 80-86 ℃, and reflux ratio can be 15-25 at the bottom of the tower: 1; The pressure of second stripping tower 4 can be 1.6-2.1atm, and tower top temperature can be 98-108 ℃, and column bottom temperature can be 110-120 ℃, and reflux ratio can be 20-35 at the bottom of the tower: 1.Under the preferred situation, the pressure of first stripping tower 3 is 0.4-0.5atm, and tower top temperature is 64-67 ℃, and column bottom temperature is 82-85 ℃, and reflux ratio is 18-22 at the bottom of the tower: 1; The pressure of second stripping tower 4 is 1.7-1.9atm, and tower top temperature is 100-105 ℃, and column bottom temperature is 112-116 ℃, and reflux ratio is 25-30 at the bottom of the tower: 1.At this, reflux ratio is meant by returning the ratio that phegma flow and heavy constituent at the bottom of the tower in the tower efflux flow at the bottom of the tower at the bottom of the above-mentioned tower.
According to the utility model, generally speaking, the pressure of first rectifying tower 6 can be 4.5-6.0atm, and tower top temperature can be 125-135 ℃, and column bottom temperature can be 150-165 ℃, and stage number can be 58-65, and reflux ratio is 1: 2-3; The pressure of second rectifying tower 5 can be 1.6-2.1atm, and tower top temperature can be 88-98 ℃, and column bottom temperature can be 98-108 ℃, and stage number can be 35-40, and reflux ratio can be 1: 1.6-2; Under the preferred situation, the pressure of first rectifying tower 6 is 5.3-5.8atm, and tower top temperature is 128-130 ℃, and column bottom temperature is 155-160 ℃, and stage number is 60-63, and reflux ratio is 1: 2.3-2.6; The pressure of second rectifying tower 5 is 1.7-1.9atm, and tower top temperature is 90-95 ℃, and column bottom temperature is 100-105 ℃, and stage number is 36-38, and reflux ratio is 1: 1.7-1.9.
In the utility model; The reflux ratio of above-mentioned first rectifying tower 6 is meant that the rectifying tower cat head returns the ratio of phegma flow and overhead product flow in the tower; Be to send into the first rectifying tower return tank 9 after the cat head light constituent condensation of first rectifying tower 6 to carry out gas-liquid separation among Fig. 1, the liquid ingredient that obtains returned the ratio of weight with the weight of sending into second rectifying tower 5 of first rectifying tower 6.
In the utility model, the reflux ratio of above-mentioned second rectifying tower 5 is meant that the rectifying tower cat head returns the ratio of phegma flow and overhead product flow in the tower.Among Fig. 1 for for carry out the weight ratio of second rectifying tower, the 5 cat head light constituents of gas-liquid separation after second rectifying tower, the 5 cat head light constituents that get into dewatering unit and the condensation through the second rectifying tower return tank 8.
According to the utility model, said extraneous thermal source can be various thermals source known in the field, for example steam condensation water, secondary flash steam and steam.Be used for the refining method that contains the alcoholic acid aqueous solution at the utility model; It is 140-180 ℃ steam that said extraneous thermal source is preferably temperature, and the consumption of extraneous thermal source makes the temperature that contains the alcoholic acid aqueous solution (temperature that contains the alcoholic acid aqueous solution when promptly getting into first stripping tower 3) after the preheating be 60-80 ℃; More preferably said extraneous thermal source is that temperature is 150-160 ℃ a steam, and the consumption of extraneous thermal source makes that the temperature that contains the alcoholic acid aqueous solution after the preheating is 65-78 ℃.
According to the utility model, the said alcoholic acid aqueous solution that contains can be preferably fermentation liquid for the various systems that contain the second alcohol and water.Said fermentation liquid can adopt the fermentation liquid that obtains after the fermentations such as corn, cassava, wheat molasses for this area.Generally speaking, the ethanol content in the said fermentation liquid can be 8-16 weight %.
Below through embodiment the utility model is explained further, but therefore do not limit the utility model.
The first rectifying tower reboiler, 12 employing temperature are 156 ℃ steam in following examples.
Embodiment 1
Adopt technical process shown in Figure 1 to implement.Be after 150 ℃ the water vapour heat exchange with fermentation liquid (ethanol content is 12 weight %) and temperature, obtain temperature and be 75 ℃ fermentation liquid.The above-mentioned fermentation liquid of 35 weight % is sent in first stripping tower 3 distillation, the fermentation liquid of 65 weight % is being sent into distillation in second stripping tower 4 after the heavy constituent heat exchange at the bottom of the tower of discharging with second stripping tower 4, heavy constituent efflux at the bottom of the tower after the heat exchange.
(2 on the cat head light constituent of first stripping tower 3 and the first raw material interchanger 1; Heat transferring medium is for being the fermentation liquid of 12 weight % without the ethanol content of preheating) after the heat exchange; The liquid ingredient of condensation gets into light wine jar 7; Uncooled gas emptying gets into 6 rectifying of first rectifying tower after the heavy constituent heat exchange at the bottom of the tower that the liquid ingredient in the light wine jar 7 and first rectifying tower 6 are discharged, and heavy constituent efflux at the bottom of the tower after the heat exchange; At the bottom of the tower that the cat head light constituent of first rectifying tower 6 and second stripping tower 4 reflux after heavy constituent (through the second stripper reboiler 11) heat exchange; The refrigerative liquid ingredient gets into the first rectifying tower return tank 9; Uncooled gas emptying; Heavy constituent efflux at the bottom of the tower after the heat exchange, and the part of the liquid ingredient in the first rectifying tower return tank 9 turns back to rectifying again in first rectifying tower 6, and another part is sent into second rectifying tower 5 rectifying again.
The cat head light constituent of second stripping tower 4 directly gets into rectifying second rectifying tower 5 at the bottom of the tower of second rectifying tower 5; After 10 heat exchange of first stripper reboiler are passed through in the cat head light constituent part and the heavy constituent at the bottom of the first stripping Tata of second rectifying tower 5; The liquid ingredient of condensation gets into the second rectifying tower return tank 8; Uncooled gas system is unified condensing and recycling, and the liquid ingredient in the second rectifying tower return tank 8 turns back to rectifying again in second rectifying tower 5; Another part of the cat head light constituent of second rectifying tower 5 gets into and obtains absolute ethyl alcohol (purity is 99.2 weight %) after the molecular sieve dehydration unit dewaters.
Wherein, after the stable circulation, the steam of heavy constituent and 156 ℃ carries out cycle heat exchange at the bottom of the tower that first rectifying tower 6 refluxes, and the pressure of first rectifying tower 6 is 5.6atm, and tower top temperature is 130 ℃, and column bottom temperature is 150 ℃, and stage number is 61, and reflux ratio is 1: 2.4; The pressure of first stripping tower 3 is 0.5atm, and tower top temperature is 66 ℃, and column bottom temperature is 85 ℃, and reflux ratio is 20: 1 at the bottom of the tower; The pressure of second stripping tower 4 is 1.6atm, and tower top temperature is 103 ℃, and column bottom temperature is 113 ℃, and reflux ratio is 27: 1 at the bottom of the tower; The pressure of second rectifying tower 5 is 1.6atm, and tower top temperature is 93 ℃, and column bottom temperature is 103 ℃, and stage number is 37, and reflux ratio is 1: 1.7.The absolute ethyl alcohol amount of extraction is 1: 1.7 with the weight ratio of using steam.
Embodiment 2
Carry out according to the method among the embodiment 1.Different is:
1) weight of sending into the fermentation liquid in first stripping tower 3 is 40 weight %, and the weight of sending into the fermentation liquid in second stripping tower 4 is 60 weight %;
2) after the stable circulation, the steam of heavy constituent and 150 ℃ carries out cycle heat exchange at the bottom of the tower that first rectifying tower 6 refluxes, and the pressure of first rectifying tower 6 is 5.4atm, and tower top temperature is 128 ℃, and column bottom temperature is 148 ℃, and stage number is 61, and reflux ratio is 1: 2.3; The pressure of first stripping tower 3 is 0.3atm, and tower top temperature is 67 ℃, and column bottom temperature is 83 ℃, and reflux ratio is 18: 1 at the bottom of the tower; The pressure of second stripping tower 4 is 1.9atm, and tower top temperature is 102 ℃, and column bottom temperature is 112 ℃, and reflux ratio is 25: 1 at the bottom of the tower; The pressure of second rectifying tower 5 is 1.8atm, and tower top temperature is 92 ℃, and column bottom temperature is 102 ℃, and stage number is 37, and reflux ratio is 1: 1.9.The absolute ethyl alcohol amount of extraction is 1: 1.8 with the weight ratio of using steam.
The refining plant that contains the alcoholic acid aqueous solution according to the utility model; Be used for the refining alcoholic acid aqueous solution that contains; Can sufficiently and reasonably utilize the thermal source of generation,, only need to use a spot of external heat source heat supply can satisfy the demand of whole device heat through the thermal source properly distributed of each tower is used; Significantly reduce the consumption of heat, reduced cost.