CN204529880U - A kind of sugar juice evaporation device of improvement - Google Patents
A kind of sugar juice evaporation device of improvement Download PDFInfo
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- CN204529880U CN204529880U CN201520200503.3U CN201520200503U CN204529880U CN 204529880 U CN204529880 U CN 204529880U CN 201520200503 U CN201520200503 U CN 201520200503U CN 204529880 U CN204529880 U CN 204529880U
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Abstract
A kind of sugar juice evaporation device of improvement, include the evaporating pot connected successively, No. two evaporating pots, No. three evaporating pots, No. four evaporating pots, No. five evaporating pots, No. six evaporating pots and condensers, also include micro-filtration, micro-filtration is connected between No. three evaporating pots and No. four evaporating pots or is connected between No. four evaporating pots and No. five evaporating pots, and described micro-filtration comprises the first cushion dashpot connected successively, multistage microfiltration of ceramic membrane system, the second cushion dashpot and interchanger.The multistage microfiltration of ceramic membrane system that the utility model is arranged, can filter remove syrup one effect evaporation, two effect evaporation and triple effect evaporation produce throw outs after enter again four-effect evaporation concentrate, the throw out that not only prevent evaporative process generation, to the disadvantageous effect of postorder workshop section, also improves the quality of syrup and the quality of commerieal sugar.
Description
Technical field
The utility model relates to a kind of sugar juice evaporation device of improvement, belong to Sugar Engineering technical field.
Technical background
In sugar industry, the concentration of the syrup (clear juice) that sugarcane juice obtains after the process of clarification operation is 15.0 ~ 17.0 ° of Bx, and water content is 83.0 ~ 85.0%.Boiling sugar as the syrup containing large quantity of moisture directly sent to, a large amount of steam be consumed, both consumed the energy, extend again the time of boiling sugar.Therefore, the syrup after clarification has to pass through evaporation section, removes a large amount of moisture, is condensed into the syrup of 60.0 ~ 65.0 ° of Bx, then sends to and boil sugar.
During evaporation, sucrose in syrup, reducing sugar and other non-saccharide are divided, under the impact of temperature, pH value and the condition such as concentrated, a series of chemical transformation can be there is, the conversion of such as sucrose and coking, reducing sugar decomposes and non-saccharide analyzes generation incrustation etc., and these chemical transformation can generate more sedimentable matter, bring adverse influence by giving quality, the Sugar Recovery of syrup.Especially the vaporization temperature of an effect evaporating pot and two effect evaporating pots is higher, and chemical reaction is more obvious, and the precipitation of generation is more, and cause syrup inner suspension thing content comparatively large, Viscosity of Syrup is comparatively large, thus affects the quality of syrup, reduces Sugar Recovery.In order to the impurity except syrup after devaporation, current sugar refinery mainly adopts two kinds of methods to solve.The first, before crystallization syrup again after a stove drying and heating, to filter through deep bed filter, thus the suspended substance of precipitation in removing syrup.Second, adopt the method that phosphoric acid floats, in syrup, add lime, phosphoric acid and flocculation agent (polyacrylamide), make it react and generate thick throw out network and suspended substance and the non-sugar impurities of adsorbing syrup, then in syrup, bubble is squeezed into, the throw out making it be formed floats because being subject to larger buoyancy, finally the scum silica frost of floating is removed the object that can reach clarification.Although the two can obtain the good syrup of quality, but the former adds more sulfurous gas in syrup, content of sulfur dioxide in commerieal sugar is often caused to exceed standard, thus reduce the quality even health of harmful to human of commerieal sugar, moreover syrup deposit seeds is tiny, Viscosity of Syrup is higher again, and deep bed filter sealing is difficult to closely, therefore bag filter effect is general all undesirable; And Acrylic Acid Monomer residual in the polyacrylamide entered added by the latter is can by the material of human carcinogen, moreover because the longer meeting of floating interval of floating dock causes sucrose inversion more, and phosphoric acid floating method also can produce more scum silica frost, scum silica frost can take away more sugar, thus also can reduce the rate of recovery of sugar.Therefore, the chemical transformation providing a kind of sugar juice evaporation technique of improvement and device to solve because of evaporative process causes the technical problem of syrup degradation to be necessary.
Utility model content
The purpose of this utility model is to provide a kind of sugar juice evaporation technique and device of improvement, analyze generation throw out to solve sugar juice evaporation process because of sucrose inversion and coking, reducing sugar decomposition, pigment increase and non-saccharide, cause the second-rate technical problem affecting Sugar Recovery and commerieal sugar quality of syrup.
To achieve these goals, the utility model have employed following technical scheme:
A kind of sugar juice evaporation device of improvement, include the evaporating pot connected successively, No. two evaporating pots, No. three evaporating pots, No. four evaporating pots, No. five evaporating pots, No. six evaporating pots and condensers, also include micro-filtration, micro-filtration is connected between No. three evaporating pots and No. four evaporating pots or is connected between No. four evaporating pots and No. five evaporating pots, and described micro-filtration comprises the first cushion dashpot connected successively, multistage microfiltration of ceramic membrane system, the second cushion dashpot and interchanger.
Concrete mode of connection is as follows:
An evaporating pot steam inlet is connected to the boiler exhaust steam source after cooling decompression, and evaporating pot vapour coagulates water out and is connected to vapour and coagulates water pot;
An evaporating pot secondary steam exit is provided with the 25 valve, an evaporating pot secondary steam outlet is connected with No. two evaporating pot steam inlets and process steam load, the outlet of evaporating pot secondary steam is provided with a T-valve with the pipeline between No. two evaporating pot steam inlets, and No. two evaporating pot vapour coagulates water out and is connected to vapour and coagulates water pot;
No. two evaporating pot secondary steam exits are provided with the 26 valve, No. two evaporating pot secondary steam outlets are connected with No. three evaporating pot steam inlets, a T-valve and process steam load, the outlet of No. two evaporating pot secondary steams is provided with No. two T-valve with the pipeline between No. three evaporating pot steam inlets, and No. three evaporating pot vapour coagulates water out and is connected to vapour and coagulates water pot;
No. three evaporating pot secondary steam exits are provided with the 27 valve, No. three evaporating pot secondary steam outlets are connected with No. four evaporating pot steam inlets, No. two T-valve and process steam load, the outlet of No. three evaporating pot secondary steams is provided with No. three T-valve with the pipeline between No. four evaporating pot steam inlets, and No. four evaporating pot vapour coagulates water out and is connected to vapour and coagulates water pot;
No. four evaporating pot secondary steam exits are provided with the 28 valve, No. four evaporating pot secondary steam outlets are connected with No. five evaporating pot steam inlets, No. three T-valve and process steam load, the outlet of No. four evaporating pot secondary steams is provided with No. four T-valve with the pipeline between No. five evaporating pot steam inlets, and No. five evaporating pot vapour coagulates water out and is connected to vapour and coagulates water pot;
No. five evaporating pot secondary steam exits are provided with the 29 valve, No. five evaporating pot secondary steam outlets are connected with No. six evaporating pot steam inlets, No. four T-valve and process steam load, the outlet of No. five evaporating pot secondary steams is provided with No. five T-valve with the pipeline between No. six evaporating pot steam inlets, and No. six evaporating pot vapour coagulates water out and is connected to vapour and coagulates water pot;
No. six evaporating pot secondary steam exits are provided with the 30 valve, and No. six evaporating pot secondary steam outlets are connected with No. five T-valve and condenser;
An evaporating pot enters juice mouth and is connected to clarification workshop section through the first valve, an evaporating pot juice opening enters juice mouth with the 3rd valve with No. two evaporating pots through the second valve and is connected, No. two evaporating pot juice openings enter juice mouth with the 5th valve with No. three evaporating pots through the 4th valve and are connected, No. three evaporating pot juice openings are through the 6th valve, 7th valve enters juice mouth with the 8th valve with No. four evaporating pots and is connected, No. four evaporating pot juice openings are through the 9th valve, tenth valve enters juice mouth with the 11 valve with No. five evaporating pots and is connected, No. five evaporating pot juice openings enter juice mouth with the 13 valve with No. six evaporating pots through the 12 valve and are connected, No. six evaporating pot juice openings are connected to Zhu Tang workshop section through the 14 valve,
First pipe connecting one end is connected between the first valve and clarification workshop section, and the other end is connected between the second valve and the 3rd valve, and the first pipe connecting is provided with the 15 valve;
Second pipe connecting one end is connected between the second valve and the 3rd valve, and the other end is connected between the 4th valve and the 5th valve, and the second pipe connecting is provided with the 16 valve;
3rd pipe connecting one end is connected between the 4th valve and the 5th valve, and the other end is connected between the 6th valve and the 7th valve, and the 3rd pipe connecting is provided with the 17 valve;
4th pipe connecting one end is connected between the 7th valve and the 8th valve, and the other end is connected between the 9th valve and the tenth valve, and the 4th pipe connecting is provided with the 18 valve;
5th pipe connecting one end is connected between the tenth valve and the 11 valve, and the other end is connected between the 12 valve and the 13 valve, and the 5th pipe connecting is provided with the 19 valve;
6th pipe connecting one end is connected between the 12 valve and the 13 valve, and the other end is connected between the 14 valve and Zhu Tang workshop section, and the 6th pipe connecting is provided with the 20 valve;
7th pipe connecting one end is connected between the 6th valve and the 7th valve, and the other end is connected with the first cushion dashpot, and the 7th pipe connecting is provided with the 21 valve;
8th pipe connecting one end is connected between the 9th valve and the tenth valve, and the other end is connected with the first cushion dashpot, and the 8th pipe connecting is provided with the 22 valve;
First cushion dashpot outlet is connected with multistage microfiltration of ceramic membrane system entry, multistage microfiltration of ceramic membrane system concentrated solution outlet is connected to mixed juice case, multistage microfiltration of ceramic membrane system permeate outlet is connected to the second cushion dashpot, and the second cushion dashpot outlet is connected with interchanger material inlet;
Interchanger material outlet is connected with the 9th pipe connecting one end, and the 9th pipe connecting the other end is connected between the 7th valve and the 8th valve, and the 9th pipe connecting is provided with the 23 valve;
Interchanger material outlet is also connected with the tenth pipe connecting one end, and the tenth pipe connecting the other end is connected between the tenth valve and the 11 valve, and the tenth pipe connecting is provided with the 24 valve;
Interchanger steam inlet is connected with the boiler exhaust steam source after cooling decompression, and interchanger vapour coagulates water out and is connected to vapour and coagulates water pot.
Described interchanger is plate-type heat exchanger or shell and tube heat exchanger.
A described evaporating pot, No. two evaporating pots, No. three evaporating pots, No. four evaporating pots, No. five evaporating pots and No. six evaporating pots are all outer circulation type evaporating pot.
Described condenser is Water Jet Condenser.
Using among described evaporating pot, No. two evaporating pots, No. three evaporating pots, No. four evaporating pots, No. five evaporating pots and No. six evaporating pots, any one washes replacing evaporating pot as wheel, remaining flows to successively as an effect evaporating pot, two effect evaporating pots, triple effect evaporator, four-effect evaporation tank and five effect evaporating pots according to sugarcane juice.
Described multistage microfiltration of ceramic membrane system is the ceramic microfiltration membrane of Pyatyi parallel connection, and every grade of ceramic microfiltration membrane is made up of two membrane modules, wherein has one-level to play wheel and washes replacing effect; The membrane pore size of ceramic microfiltration membrane is 0.20 ~ 0.50 μm.
Compared with prior art, the beneficial effect that possesses of the utility model:
1, the utility model is on the basis of the existing five effect pressure vacuum evaporation equipments in sugar refinery, multistage microfiltration of ceramic membrane system is added between triple effect evaporator and four-effect evaporation tank, send into four-effect evaporation tank again after the throw out that syrup produces at an effect evaporating pot, two effect evaporating pots and triple effect evaporator carry out evaporation concentration by removing through ceramic micro filter membrane filtration from triple effect evaporator syrup out, the throw out that not only prevent evaporative process generation, to the disadvantageous effect of postorder workshop section, also improves the quality of syrup and the quality of commerieal sugar.
2, multistage microfiltration of ceramic membrane system be placed between triple effect evaporator and four-effect evaporation tank, position is better.Because the temperature of an effect evaporation and two effect evaporations is higher, sedimentary generation is mainly at an effect evaporating pot and two effect evaporating pots.If multistage microfiltration of ceramic membrane system is placed between an effect evaporating pot and two effect evaporating pots, then still can produces a certain amount of throw out from ceramic membrane filter syrup out at two effect evaporating pots, also can have a certain impact to postorder workshop section; If multistage microfiltration of ceramic membrane system is placed between two effect evaporating pots and triple effect evaporator, because the syrup relative concentration of its process is less, volume is relatively large, and need corresponding membrane filtration area also comparatively large, then the cost of facility investment also increases relatively; If after ceramic membrane is placed on four-effect evaporation tank, due to syrup viscosity out relatively large (especially from five effect evaporating pots syrup out) after four-effect evaporation tank, membrane flux is less, and cycles of concentration is low, also can increase the cost of film device investment.Consider throw out microfiltration of ceramic membrane system being placed on and can removing evaporative process formation between triple effect evaporator and four-effect evaporation tank preferably, it can not only be prevented the detrimentally affect of postorder workshop section, ceramic membrane can also be made to maintain larger membrane flux filter, thus reduce the cost of facility investment.
3, have employed microfiltration of ceramic membrane clarification in juice,liming process, the membrane resistance caused due to fouling on ceramic membrane is less, therefore the membrane permeation flux of ceramic membrane filter syrup is larger, and the pottery membrane flux rate of decay is slow, higher membrane flux can be maintained filter, thus extend the Membrane cleaning cycle and reduce cleaning frequency membrane.
4, have employed the multistage microfiltration of ceramic membrane system be made up of the ceramic microfiltration membrane of Pyatyi parallel connection, every grade is made up of two membrane modules, has one-level to play to change wheel to wash effect, ensure that microfiltration of ceramic membrane system can the operation of long-time stable.
5, the syrup colour obtained by the utility model is low, purity is high, turbidity is lower, and the commerieal sugar quality better processed, sugar total recovery is large.
Accompanying drawing explanation
Fig. 1 is the valve place schematic diagram of the sugar juice evaporation device of improvement described in the utility model.
Fig. 2 is the pipe connecting position view of the sugar juice evaporation device of improvement described in the utility model.
Fig. 3 is that position view imported and exported by the evaporating pot of the sugar juice evaporation device of improvement described in the utility model.
Fig. 4 is the position view of other assemblies of the sugar juice evaporation device of improvement described in the utility model.
Fig. 5 is the multistage microfiltration of ceramic membrane system schematic of the sugar juice evaporation device of improvement described in the utility model.
In figure:
First valve 101; Second valve 102; 3rd valve 103; 4th valve 104; 5th valve 105; 6th valve 106; 7th valve 107; 8th valve 108; 9th valve 109; Tenth valve 110; 11 valve 111; 12 valve 112; 13 valve 113; 14 valve 114; 15 valve 115; 16 valve 116; 17 valve 117; 18 valve 118; 19 valve 119; 20 valve 120; 21 valve 121; 22 valve 122; 23 valve 123; 24 valve 124; 25 valve 125; 26 valve 126; 27 valve 127; 28 valve 128; 29 valve 129; 30 valve 130;
First pipe connecting 91; Second pipe connecting 92; 3rd pipe connecting 93; 4th pipe connecting 94; 5th pipe connecting 95; 6th pipe connecting 96; 7th pipe connecting 97; 8th pipe connecting 98; 9th pipe connecting 99; Tenth pipe connecting 90;
An evaporating pot 1; No. two evaporating pots 2; No. three evaporating pots 3; No. four evaporating pots 4; No. five evaporating pots 5; No. six evaporating pots 6;
An evaporating pot steam inlet 11; An evaporating pot vapour coagulates water out 12; An evaporating pot enters juice mouth 13; An evaporating pot juice opening 14; An evaporating pot secondary steam outlet 15;
No. two evaporating pot steam inlets 21; No. two evaporating pot vapour coagulate water out 22; No. two evaporating pots enter juice mouth 23; No. two evaporating pot juice openings 24; No. two evaporating pot secondary steam outlets 25;
No. three evaporating pot steam inlets 31; No. three evaporating pot vapour coagulate water out 32; No. three evaporating pots enter juice mouth 33; No. three evaporating pot juice openings 34; No. three evaporating pot secondary steam outlets 35;
No. four evaporating pot steam inlets 41; No. four evaporating pot vapour coagulate water out 42; No. four evaporating pots enter juice mouth 43; No. four evaporating pot juice openings 44; No. four evaporating pot secondary steam outlets 45;
No. five evaporating pot steam inlets 51; No. five evaporating pot vapour coagulate water out 52; No. five evaporating pots enter juice mouth 53; No. five evaporating pot juice openings 54; No. five evaporating pot secondary steam outlets 55;
No. six evaporating pot steam inlets 61; No. six evaporating pot vapour coagulate water out 62; No. six evaporating pots enter juice mouth 63; No. six evaporating pot juice openings 64; No. six evaporating pot secondary steam outlets 65;
A T-valve 71; No. two T-valve 72; No. three T-valve 73; No. four T-valve 74; No. five T-valve 75;
Process steam load 80; Condenser 81; Multistage microfiltration of ceramic membrane system 87; Multistage microfiltration of ceramic membrane system permeate outlet 83; Multistage microfiltration of ceramic membrane system concentrated solution outlet 84; Multistage microfiltration of ceramic membrane system inlets 85; First cushion dashpot 86; Second cushion dashpot 82; Interchanger 89.
Embodiment
Embodiment 1
A kind of sugar juice evaporation device of improvement, include an evaporating pot 1, No. two evaporating pots 2, No. three evaporating pots 3, No. four evaporating pots 4, No. five evaporating pots 5, No. six evaporating pots 6 and condenser 81 of connecting successively, also include micro-filtration, micro-filtration is connected between No. three evaporating pots 3 and No. four evaporating pots 4 or is connected between No. four evaporating pots 4 and No. five evaporating pots 5, and described micro-filtration comprises the first cushion dashpot 86, multistage microfiltration of ceramic membrane system 87, second cushion dashpot 82 and the interchanger 89 that connect successively.
Concrete mode of connection is as follows:
An evaporating pot steam inlet 11 is connected to the boiler exhaust steam source after cooling decompression, and evaporating pot vapour coagulates water out 12 and is connected to vapour and coagulates water pot;
An evaporating pot secondary steam exports 15 places and is provided with the 25 valve 125, an evaporating pot secondary steam outlet 15 is connected with No. two evaporating pot steam inlets 21 and process steam load 80, pipeline between evaporating pot secondary steam outlet 15 and No. two evaporating pot steam inlets 21 is provided with a T-valve 71, No. two evaporating pot vapour and coagulates water out 22 and be connected to vapour and coagulate water pot;
No. two evaporating pot secondary steams export 25 places and are provided with the 26 valve 126, No. two evaporating pot secondary steam outlets 25 are connected with No. three evaporating pot steam inlets 31, T-valve 71 and process steam load 80, pipeline between No. two evaporating pot secondary steams outlet 25 and No. three evaporating pot steam inlets 31 is provided with No. two T-valve 72, No. three evaporating pot vapour and coagulates water out 32 and be connected to vapour and coagulate water pot;
No. three evaporating pot secondary steams export 35 places and are provided with the 27 valve 127, No. three evaporating pot secondary steam outlets 35 are connected with No. four evaporating pot steam inlets 41, No. two T-valve 72 and process steam load 80, pipeline between No. three evaporating pot secondary steams outlet 35 and No. four evaporating pot steam inlets 41 is provided with No. three T-valve 73, No. four evaporating pot vapour and coagulates water out 42 and be connected to vapour and coagulate water pot;
No. four evaporating pot secondary steams export 45 places and are provided with the 28 valve 128, No. four evaporating pot secondary steam outlets 45 are connected with No. five evaporating pot steam inlets 51, No. three T-valve 73 and process steam load 80, pipeline between No. four evaporating pot secondary steams outlet 45 and No. five evaporating pot steam inlets 51 is provided with No. four T-valve 74, No. five evaporating pot vapour and coagulates water out 52 and be connected to vapour and coagulate water pot;
No. five evaporating pot secondary steams export 55 places and are provided with the 29 valve 129, No. five evaporating pot secondary steam outlets 55 are connected with No. six evaporating pot steam inlets 61, No. four T-valve 74 and process steam load 80, pipeline between No. five evaporating pot secondary steams outlet 55 and No. six evaporating pot steam inlets 61 is provided with No. five T-valve 75, No. six evaporating pot vapour and coagulates water out 62 and be connected to vapour and coagulate water pot;
No. six evaporating pot secondary steams export 65 places and are provided with 130, No. six evaporating pot secondary steams outlets 65 of the 30 valve and are connected with No. five T-valve 75 and condenser 81;
An evaporating pot enters juice mouth 13 and is connected to clarification workshop section through the first valve 101, an evaporating pot juice opening 14 enters juice mouth 23 with the 3rd valve 103 with No. two evaporating pots through the second valve 102 and is connected, No. two evaporating pot juice openings 24 enter juice mouth 33 with the 5th valve 105 with No. three evaporating pots through the 4th valve 104 and are connected, No. three evaporating pot juice openings 34 are through the 6th valve 106, 7th valve 107 enters juice mouth 43 with the 8th valve 108 with No. four evaporating pots and is connected, No. four evaporating pot juice openings 44 are through the 9th valve 109, tenth valve 110 enters juice mouth 53 with the 11 valve 111 with No. five evaporating pots and is connected, No. five evaporating pot juice openings 54 enter juice mouth 63 with the 13 valve 113 with No. six evaporating pots through the 12 valve 112 and are connected, No. six evaporating pot juice openings 64 are connected to Zhu Tang workshop section through the 14 valve 114,
First pipe connecting 91 one end is connected between the first valve 101 and clarification workshop section, and the other end is connected between the second valve 102 and the 3rd valve 103, and the first pipe connecting 91 is provided with the 15 valve 115;
Second pipe connecting 92 one end is connected between the second valve 102 and the 3rd valve 103, and the other end is connected between the 4th valve 104 and the 5th valve 105, and the second pipe connecting 92 is provided with the 16 valve 116;
3rd pipe connecting 93 one end is connected between the 4th valve 104 and the 5th valve 105, and the other end is connected between the 6th valve 106 and the 7th valve 107, and the 3rd pipe connecting 93 is provided with the 17 valve 117;
4th pipe connecting 94 one end is connected between the 7th valve 107 and the 8th valve 108, and the other end is connected between the 9th valve 109 and the tenth valve 110, and the 4th pipe connecting 94 is provided with the 18 valve 118;
5th pipe connecting 95 one end is connected between the tenth valve the 110 and the 11 valve 111, and the other end is connected between the 12 valve the 112 and the 13 valve 113, and the 5th pipe connecting 95 is provided with the 19 valve 119;
6th pipe connecting 96 one end is connected between the 12 valve the 112 and the 13 valve 113, and the other end is connected between the 14 valve 114 and Zhu Tang workshop section, and the 6th pipe connecting 96 is provided with the 20 valve 120;
7th pipe connecting 97 one end is connected between the 6th valve 106 and the 7th valve 107, and the other end is connected with the first cushion dashpot 86, and the 7th pipe connecting 97 is provided with the 21 valve 121;
8th pipe connecting 98 one end is connected between the 9th valve 109 and the tenth valve 110, and the other end is connected with the first cushion dashpot 86, and the 8th pipe connecting 98 is provided with the 22 valve 122;
First cushion dashpot outlet is connected with multistage microfiltration of ceramic membrane system entry 85, multistage microfiltration of ceramic membrane system concentrated solution outlet 84 is connected to mixed juice case, multistage microfiltration of ceramic membrane system permeate outlet 83 is connected to the second cushion dashpot 82, second cushion dashpot outlet and is connected with interchanger material inlet;
Interchanger material outlet is connected with the 9th pipe connecting 99 one end, and the 9th pipe connecting 99 the other end is connected between the 7th valve 107 and the 8th valve 108, and the 9th pipe connecting 99 is provided with the 23 valve 123;
Interchanger material outlet is also connected with the tenth pipe connecting 90 one end, and the tenth pipe connecting 90 the other end is connected between the tenth valve the 110 and the 11 valve 111, and the tenth pipe connecting 90 is provided with the 24 valve 124;
Interchanger steam inlet is connected with the boiler exhaust steam source after cooling decompression, and interchanger vapour coagulates water out and is connected to vapour and coagulates water pot.
Described interchanger 89 is plate-type heat exchanger or shell and tube heat exchanger.
A described evaporating pot 1, No. two evaporating pots 2, No. three evaporating pots 3, No. four evaporating pots 4, No. five evaporating pots 5 and No. six evaporating pots 6 are all outer circulation type evaporating pot.
Described condenser 81 is Water Jet Condenser.
Described multistage microfiltration of ceramic membrane system 87 is the ceramic microfiltration membrane of Pyatyi parallel connection, and every grade of ceramic microfiltration membrane is made up of two membrane modules, wherein has one-level to play wheel and washes replacing effect; The membrane pore size of ceramic microfiltration membrane is 0.20 ~ 0.50 μm.
Using among described evaporating pot 1, No. two evaporating pots 2, No. three evaporating pots 3, No. four evaporating pots 4, No. five evaporating pots 5 and No. six evaporating pots 6, any one washes replacing evaporating pot as wheel, remaining flows to successively as an effect evaporating pot, two effect evaporating pots, triple effect evaporator, four-effect evaporation tank and five effect evaporating pots according to sugarcane juice.
Be exemplified below: when needs to No. two evaporating pots 2 carry out wheel wash time, be then an effect evaporating pot with an evaporating pot, No. three evaporating pots are two effect evaporating pots, and No. four evaporating pots are triple effect evaporator, No. five evaporating pots are four-effect evaporation tank, and No. six evaporating pots are five effect evaporating pots.Now in a whole set of sugar juice evaporation device, the state of each valve is as shown in the table:
In a whole set of sugar juice evaporation device, the state of T-valve is as follows:
71: numbers evaporating pot secondary steam outlets 15 of a T-valve and No. two evaporating pot secondary steams are in connected state between exporting 25;
Connected state is between 72: No. two evaporating pot secondary steam outlets 25 of No. two T-valve and No. three evaporating pot steam inlets 31;
Connected state is between 73: No. three evaporating pot secondary steam outlets 35 of No. three T-valve and No. four evaporating pot steam inlets 41;
Connected state is between 74: No. four evaporating pot secondary steam outlets 45 of No. four T-valve and No. five evaporating pot steam inlets 51;
Connected state is between 75: No. five evaporating pot secondary steam outlets 55 of No. five T-valve and No. six evaporating pot steam inlets 61.
Embodiment 2
The present embodiment is the specific examples utilizing the sugar juice evaporation equipment of improvement described in the utility model to carry out producing, and concrete operating mode is as follows:
(1) from clarification workshop section's syrup out (clear juice), after being heated to 125 DEG C, enter into an effect evaporating pot, two effect evaporating pot and triple effect evaporator heating evaporations successively, entering into membrane pore size is again that the multistage microfiltration of ceramic membrane system of 0.5 μm carries out micro-filtration clarification (concentrated solution recirculate mixing juice case), clear liquid, after plate-type heat exchanger is heated to 96 DEG C, finally enters into four-effect evaporation tank and five effect evaporating pot heating evaporations successively; The vaporization temperature of one effect evaporating pot is 119 DEG C, and the vaporization temperature of two effect evaporating pots is 110 DEG C, and the vaporization temperature of triple effect evaporator is 96 DEG C, and the vaporization temperature of four-effect evaporation tank is 83 DEG C, and the vaporization temperature of five effect evaporating pots is 58 DEG C.
The heating steam of (2) one effect evaporating pots is the boiler exhaust steam after cooling decompression, the secondary steam that one effect evaporating pot produces is as the heating steam of two effect evaporating pots, boil triose vapour, clear juice one-level heating and the heating steam of mixing juice secondary secondary, the secondary steam that two effect evaporating pots produce is as the heating steam of triple effect evaporator, boil biose vapour and the heating steam of mixing juice secondary one-level, the secondary steam that triple effect evaporator produces is as the heating steam of four-effect evaporation tank and a mixing juice secondary heating steam, the secondary steam that four-effect evaporation tank produces imitates heating steam and a mixing juice one-level heating steam of evaporating pots as five, the secondary steam that five effect evaporating pots produce can not recycle because temperature is lower, so direct Water Jet Condenser is taken out.
The syrup that embodiment 2 five effect evaporating pot exports and traditional technology five imitate the physical and chemical index of the syrup that evaporating pot exports
Embodiment 3
The present embodiment is the specific examples utilizing the sugar juice evaporation equipment of improvement described in the utility model to carry out producing, and concrete operating mode is as follows:
(1) from clarification workshop section's syrup out (clear juice), after being heated to 124 DEG C, enter into an effect evaporating pot, two effect evaporating pot and triple effect evaporator heating evaporations successively, entering into membrane pore size is again that the multistage microfiltration of ceramic membrane system of 0.2 μm carries out micro-filtration clarification (concentrated solution recirculate mixing juice case), clear liquid, after shell and tube heat exchanger is heated to 96 DEG C, finally enters into four-effect evaporation tank and five effect evaporating pot heating evaporations successively; The vaporization temperature of one effect evaporating pot is 119 DEG C, and the vaporization temperature of two effect evaporating pots is 110 DEG C, and the vaporization temperature of triple effect evaporator is 96 DEG C, and the vaporization temperature of four-effect evaporation tank is 84 DEG C, and the vaporization temperature of five effect evaporating pots is 57 DEG C.
The heating steam of (2) one effect evaporating pots is the boiler exhaust steam after cooling decompression, the secondary steam that one effect evaporating pot produces is as the heating steam of two effect evaporating pots, boil triose vapour, clear juice one-level heating and the heating steam of mixing juice secondary secondary, the secondary steam that two effect evaporating pots produce is as the heating steam of triple effect evaporator, boil biose vapour and the heating steam of mixing juice secondary one-level, the secondary steam that triple effect evaporator produces is as the heating steam of four-effect evaporation tank and a mixing juice secondary heating steam, the secondary steam that four-effect evaporation tank produces imitates heating steam and a mixing juice one-level heating steam of evaporating pots as five, the secondary steam that five effect evaporating pots produce can not recycle because temperature is lower, so direct Water Jet Condenser is taken out.
The syrup that embodiment 3 five effect evaporating pot exports and traditional technology five imitate the physical and chemical index of the syrup that evaporating pot exports
Claims (7)
1. the sugar juice evaporation device improved, it is characterized in that, include the evaporating pot connected successively, No. two evaporating pots, No. three evaporating pots, No. four evaporating pots, No. five evaporating pots, No. six evaporating pots and condensers, also include micro-filtration, micro-filtration is connected between No. three evaporating pots and No. four evaporating pots or is connected between No. four evaporating pots and No. five evaporating pots, and described micro-filtration comprises the first cushion dashpot connected successively, multistage microfiltration of ceramic membrane system, the second cushion dashpot and interchanger.
2. the sugar juice evaporation device improved as claimed in claim 1, it is characterized in that, concrete mode of connection is as follows:
An evaporating pot steam inlet is connected to the boiler exhaust steam source after cooling decompression, and evaporating pot vapour coagulates water out and is connected to vapour and coagulates water pot;
An evaporating pot secondary steam exit is provided with the 25 valve, an evaporating pot secondary steam outlet is connected with No. two evaporating pot steam inlets and process steam load, the outlet of evaporating pot secondary steam is provided with a T-valve with the pipeline between No. two evaporating pot steam inlets, and No. two evaporating pot vapour coagulates water out and is connected to vapour and coagulates water pot;
No. two evaporating pot secondary steam exits are provided with the 26 valve, No. two evaporating pot secondary steam outlets are connected with No. three evaporating pot steam inlets, a T-valve and process steam load, the outlet of No. two evaporating pot secondary steams is provided with No. two T-valve with the pipeline between No. three evaporating pot steam inlets, and No. three evaporating pot vapour coagulates water out and is connected to vapour and coagulates water pot;
No. three evaporating pot secondary steam exits are provided with the 27 valve, No. three evaporating pot secondary steam outlets are connected with No. four evaporating pot steam inlets, No. two T-valve and process steam load, the outlet of No. three evaporating pot secondary steams is provided with No. three T-valve with the pipeline between No. four evaporating pot steam inlets, and No. four evaporating pot vapour coagulates water out and is connected to vapour and coagulates water pot;
No. four evaporating pot secondary steam exits are provided with the 28 valve, No. four evaporating pot secondary steam outlets are connected with No. five evaporating pot steam inlets, No. three T-valve and process steam load, the outlet of No. four evaporating pot secondary steams is provided with No. four T-valve with the pipeline between No. five evaporating pot steam inlets, and No. five evaporating pot vapour coagulates water out and is connected to vapour and coagulates water pot;
No. five evaporating pot secondary steam exits are provided with the 29 valve, No. five evaporating pot secondary steam outlets are connected with No. six evaporating pot steam inlets, No. four T-valve and process steam load, the outlet of No. five evaporating pot secondary steams is provided with No. five T-valve with the pipeline between No. six evaporating pot steam inlets, and No. six evaporating pot vapour coagulates water out and is connected to vapour and coagulates water pot;
No. six evaporating pot secondary steam exits are provided with the 30 valve, and No. six evaporating pot secondary steam outlets are connected with No. five T-valve and condenser;
An evaporating pot enters juice mouth and is connected to clarification workshop section through the first valve, an evaporating pot juice opening enters juice mouth with the 3rd valve with No. two evaporating pots through the second valve and is connected, No. two evaporating pot juice openings enter juice mouth with the 5th valve with No. three evaporating pots through the 4th valve and are connected, No. three evaporating pot juice openings are through the 6th valve, 7th valve enters juice mouth with the 8th valve with No. four evaporating pots and is connected, No. four evaporating pot juice openings are through the 9th valve, tenth valve enters juice mouth with the 11 valve with No. five evaporating pots and is connected, No. five evaporating pot juice openings enter juice mouth with the 13 valve with No. six evaporating pots through the 12 valve and are connected, No. six evaporating pot juice openings are connected to Zhu Tang workshop section through the 14 valve,
First pipe connecting one end is connected between the first valve and clarification workshop section, and the other end is connected between the second valve and the 3rd valve, and the first pipe connecting is provided with the 15 valve;
Second pipe connecting one end is connected between the second valve and the 3rd valve, and the other end is connected between the 4th valve and the 5th valve, and the second pipe connecting is provided with the 16 valve;
3rd pipe connecting one end is connected between the 4th valve and the 5th valve, and the other end is connected between the 6th valve and the 7th valve, and the 3rd pipe connecting is provided with the 17 valve;
4th pipe connecting one end is connected between the 7th valve and the 8th valve, and the other end is connected between the 9th valve and the tenth valve, and the 4th pipe connecting is provided with the 18 valve;
5th pipe connecting one end is connected between the tenth valve and the 11 valve, and the other end is connected between the 12 valve and the 13 valve, and the 5th pipe connecting is provided with the 19 valve;
6th pipe connecting one end is connected between the 12 valve and the 13 valve, and the other end is connected between the 14 valve and Zhu Tang workshop section, and the 6th pipe connecting is provided with the 20 valve;
7th pipe connecting one end is connected between the 6th valve and the 7th valve, and the other end is connected with the first cushion dashpot, and the 7th pipe connecting is provided with the 21 valve;
8th pipe connecting one end is connected between the 9th valve and the tenth valve, and the other end is connected with the first cushion dashpot, and the 8th pipe connecting is provided with the 22 valve;
First cushion dashpot outlet is connected with multistage microfiltration of ceramic membrane system entry, multistage microfiltration of ceramic membrane system concentrated solution outlet is connected to mixed juice case, multistage microfiltration of ceramic membrane system permeate outlet is connected to the second cushion dashpot, and the second cushion dashpot outlet is connected with interchanger material inlet;
Interchanger material outlet is connected with the 9th pipe connecting one end, and the 9th pipe connecting the other end is connected between the 7th valve and the 8th valve, and the 9th pipe connecting is provided with the 23 valve;
Interchanger material outlet is also connected with the tenth pipe connecting one end, and the tenth pipe connecting the other end is connected between the tenth valve and the 11 valve, and the tenth pipe connecting is provided with the 24 valve;
Interchanger steam inlet is connected with the boiler exhaust steam source after cooling decompression, and interchanger vapour coagulates water out and is connected to vapour and coagulates water pot.
3. the sugar juice evaporation device improved as claimed in claim 1 or 2, it is characterized in that, described interchanger is plate-type heat exchanger or shell and tube heat exchanger.
4. the sugar juice evaporation device improved as claimed in claim 1 or 2, it is characterized in that, a described evaporating pot, No. two evaporating pots, No. three evaporating pots, No. four evaporating pots, No. five evaporating pots and No. six evaporating pots are all outer circulation type evaporating pot.
5. the sugar juice evaporation device improved as claimed in claim 1 or 2, it is characterized in that, described condenser is Water Jet Condenser.
6. the sugar juice evaporation device improved as claimed in claim 1 or 2, it is characterized in that, using among described evaporating pot, No. two evaporating pots, No. three evaporating pots, No. four evaporating pots, No. five evaporating pots and No. six evaporating pots, any one washes replacing evaporating pot as wheel, remaining flows to successively as an effect evaporating pot, two effect evaporating pots, triple effect evaporator, four-effect evaporation tank and five effect evaporating pots according to sugarcane juice.
7. the sugar juice evaporation device improved as claimed in claim 1, it is characterized in that, described multistage microfiltration of ceramic membrane system is the ceramic microfiltration membrane of Pyatyi parallel connection, and every grade of ceramic microfiltration membrane is made up of two membrane modules, wherein has one-level to play wheel and washes replacing effect; The membrane pore size of ceramic microfiltration membrane is 0.20 ~ 0.50 μm.
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CN104805229A (en) * | 2015-04-02 | 2015-07-29 | 广西大学 | Improved sugar juice evaporation device |
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