CN1257876A - Process for drying elastomer polymer - Google Patents
Process for drying elastomer polymer Download PDFInfo
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- CN1257876A CN1257876A CN 98123238 CN98123238A CN1257876A CN 1257876 A CN1257876 A CN 1257876A CN 98123238 CN98123238 CN 98123238 CN 98123238 A CN98123238 A CN 98123238A CN 1257876 A CN1257876 A CN 1257876A
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Abstract
A process for drying elastomer polymer features that an equipment for both drying and pulverizing is used and during the drying, the temp at sensitive point on internal wall surface of drying chamber is controlled to be lower than the softening point of said polymer plus 60 deg.C while the gas/solid ratio is higher than (5:1).
Description
The present invention relates to a kind of method of dry elastomer polymer pellet.More particularly, the present invention relates to a kind ofly to be particularly useful for easy agglutinating elastomer polymer pellet, as the drying means of SEBS and SBS pellet.
Aftertreatment for the polymkeric substance that makes by solution polymerization, suspension polymerization and letex polymerization, the following two kinds of methods of general at present employing: first method is to add hot water in polymerization reaction mixture, to remove the organic solvent that uses in the reaction and to make the organic solvent volatilization; Second method is to the polymerization reaction mixture direct heating, to remove the solvent that uses in the reaction with high temperature heat source.But, for elastomer polymer,, can maintain under the lower temperature and operate because the hot water temperature is easy to control in first kind of post-treating method that removes solvent, highly beneficial to the elasticity that keeps elastomer polymer; Temperature is restive in then a kind of post-treating method that removes solvent, long-time heat can cause detrimentally affect to the performance of elastomer polymer, elastomer polymer is followed the string, therefore, at present for first kind of Desolventizing method of the general employing of elastomer polymer.
The elastomer polymer that is removed solvent by first kind of post-treating method generally contains very high moisture content, sometimes can be up to 60-70%.And the polymkeric substance finished product requires water content to be lower than 1%.The drying means that extensively adopts is the process integration of mechanical dehydration and convection drying at present, wherein at first sloughs most water with mechanical means such as vibratory screening apparatus, extrusion machine, expansion extrusion machines, thoroughly removes residual moisture with fluidized bed plant more subsequently.But this drying means needs a large amount of high-pressure machinery transmission apparatus, complex structure, cost of equipment costliness.And operation is among the high pressure, and polymer billet is stopped up easily and caused stopping work.In addition, the energy expenditure of this method is also higher, has caused the further increase of elastomer polymer cost.
U.S.'s fluid processing and equipment company disclose a kind of pulverizing and dry symphyogenetic method and apparatus, i.e. F.E.P.81E. method and apparatus (referring to U.S.'s fluid processing and the equipment Jet-O-Mizer of company type circulation tubular type micronizer mill sample, 1979).As shown in its title, it is a kind of technology that comminution by gas stream operation and air stream drying operation are combined.The comminution by gas stream operation is to utilize the powerful kinetic energy of high pressure gas by the high velocity air generation of nozzle generation, makes material particles that mutual impact take place, and reaches the purpose of pulverizing, and for this reason, the gas that comminution by gas stream is used must have very high speed.The air stream drying effect is because the high-speed motion of hot gas flow, material particles is disperseed and is suspended among the air-flow, and heat transfer and effect of mass transmitting take place for air-flow and material particles in moisture eliminator, thereby reach dried material particulate purpose.Pulverizing with the exsiccant integration of operation is to carry out drying (comprise and take off crystal water) in comminution by gas stream, and this moment, air flow inlet speed need be at least 200 meter per seconds.Wherein, material particles is blown afloat and is dispersed in the air-flow by hot gas flow in pulverizing-kiln, fully big surface-area fully contacts with hot gas flow, in time the surface-moisture with material particles evaporates, material particles is subjected to air-flow intense impact and pulverizing simultaneously, the material particles surface constantly takes place broken and upgrades, thereby makes the water of granule interior parcel constantly be updated to particle surface, is boiled off immediately.In addition, in this method, material residence time in device is extremely short, is a kind of instantaneous flash drying process, and air-flow working medium temperature in can be higher than the fusing point or the softening temperature of material to be processed far away.For example, at about 110 ℃ material, the hot air inlet temperature can be up to 260-320 ℃ for softening temperature.Owing to adopted higher temperature in, thermo-efficiency can reach 80% such high level.Therefore, the drying efficiency of this drying means is very high, and speed is very fast, and its volumetric heat transfer coefficient is 1KW/m
3K, and evaporation capacity can be up to 680kg water/m
3H is 30 times of common spray-dryer approximately, and product drying is also very thorough, and the finished product can reach very low water ratio.In addition, the equipment dismounting is keeped in repair, is cleaned conveniently easily.
But the factor that influences above-mentioned pulverizing and dry symphyogenetic method stable operation is more, in case that operating mode is adjusted is improper, operation is promptly unstable and cause stopping work; In addition, for the viscosity material, easily generation is glued wall and is caused reinforced difficulty and equipment to stop up.Particularly during the aggregate of dry elastomer polymer, above-mentioned shortcoming is more obvious, and this is because the moisture wide ranges of elastomer polymer, and density is little, and settling velocity is little, and sticking wall easily takes place, and is difficult for setting up steady state operation.Therefore, above-mentioned pulverizing and dry symphyogenetic method are used for dry elastomer polymer always with failing.
The object of the invention provides a kind of method of using above-mentioned pulverizing and exsiccant combined action to come dry elastomer polymer pellet, and this method can stable operation, has avoided the sticking phenomenon of keeping away.
The inventor is through further investigation, unexpectedly find under condition with pulverizing and dry combine operations technology, below the temperature that wall sensitive spot temperature in the kiln is controlled at elastomer polymer softening temperature to be dried+60 ℃, and the gas-solid ratio when keeping operation is higher than about 5: 1, can prevent the generation of wall sticking phenomenon effectively, thereby can stably operate, achieve the above object, wherein said sensitive spot temperature is the top temperature on the kiln wall in operating process hereinafter described.
On the other hand, the invention provides under the condition of not forcing cooler wall, prevent that sticking wall is to guarantee the processing condition of stable operation, promptly
0.186×X
1.82(t
g/t
s+60℃)
1.588(w
i/w
o)
-1.25≤1
In the formula
X=V/G, i.e. gas-solid ratio (m
3/ kg), V wherein is the flow (m that is added to the drying usefulness gaseous media in the kiln
3/ hour), G is based on the feeding quantity (kg/ hour) of the elastomer polymer to be dried of weight in wet base;
t
gBe when being used for the exsiccant gaseous media and entering moisture eliminator temperature (℃);
t
sBe elastomer polymer to be dried softening temperature (℃);
w
iIt is elastomer polymer pellet to be dried water content (% weight) when entering kiln;
w
oBe the water content (% weight) of elastomer polymer pellet when leaving kiln.
Others of the present invention and further preferred embodiment provide in the dependent claims.
Brief description of drawings:
Fig. 1 is the pulverizing-dry integration of operation schematic representation of apparatus that is used for the inventive method;
Fig. 2 is for measuring the wall temperature measurement point layout drawing that the wall sensitive spot is provided with in the kiln;
Fig. 3 is the process flow diagram of a kind of embodiment of drying means of the present invention.
Though do not want to be subjected to the restriction of any theory, the inventor finds, causing sticking wall and hindering the major cause of stable operation is that wall temperature, particularly sensitive spot temperature and this temperature action are in the time of the pellet that is dried.As previously mentioned, because pulverizing is a kind of instantaneous flash drying process with the principle of work of exsiccant combined action method, after the high temperature drying medium enters kiln, because the instantaneous flash distillation of moisture content in the elastomerics pellet, gas flow temperature sharply descends, so the temperature in preceding temperature of drying medium air flow inlet and the kiln has very big drop; Simultaneously, in kiln, surrounded by one deck water by suspension and dispersive material particles total surface, this layer water is equivalent to thermofin material and hot gas flow is separated, the water layer vaporization absorbs the heat of high temperature drying medium, as long as enough moisture content is arranged, the heat of high temperature drying medium just can not pass to the material particles surface.Therefore, temperature can be very high before the inlet of high temperature drying medium on the principle, and the material that is dried is protected owing to the existence of moisture film, and temperature can not rise to too high.But, the performance characteristics of drying medium air-flow in kiln is intensive vortex and rotation flow pattern, under action of centrifugal force, the material particles that is dried is inevitable to be contacted with wall, the drag of wall makes material particles " extension powder " on wall, if the temperature of wall is too high and the duration of contact of material particles and wall is long, then the moisture content of " extension powder " material particles to the wall is very fast by evaporate to dryness, do not have these material particles temperature of moisture film can rise to rapidly, surpass its fusing point then and melt and be bonded on the wall above its softening temperature.As long as melt at a certain local material particles, near the particle surface of fusing can cling rapidly pellet bisque, and these post-depositional powder heated times are longer, are easy to reach softening temperature, and the conglomeration effect obviously strengthens, wall forms the bulk cluster of grains, and bonding firmly, and air-flow can not disintegrate it and break away from, and this bonding agglomerate constantly increases, until stopping up gas channel, operation is destroyed.
Based on above-mentioned discovery, the contriver adopts following two kinds of measures fundamentally to prevent the generation of wall sticking phenomenon.
At first, reduce the interior wall temperature of kiln to depositing the action time of material thereon, this realizes by minimum gas-solid ratio X is set.As previously mentioned, centrifugal force will inevitably make material particles contact also " extension powder " with wall on wall, the guiding theory of the inventive method is, a little " extension powder " phenomenon allows in stable operation, the key of problem is that " extension powder " layer should be brought in constant renewal under the air-flow effect, with the action time of control kiln wall temperature to the material particles of " extension powder ".For this reason, in the methods of the invention, gas-solid ratio X is set must be not less than about 5: 1, described gas-solid ratio is to be added to dry flow V (unit: m with gaseous media in the kiln
3/ hour) with ratio based on the feeding quantity G (unit: kg/ hour) of the material to be dried of weight in wet base.Under the above-mentioned gas-solid ratio condition that limits, can guarantee that the material particles of " extension powder " is brought in constant renewal in.
Second kind of the inventive method prevents that the measure of wall sticking phenomenon from being the control wall temperature, with the sensitive spot temperature of wall in the kiln, be that top temperature is controlled at softening temperature+60 ℃ that are not more than elastomer polymer to be dried.The sensitive spot temperature is not the temperature-averaging value of wall in the kiln but actual maximum value on the wall, and this is because local superheating will cause sticking wall.Sensitive spot is generally at the salient of wall, as lid end socket etc.For this reason, in the methods of the invention, arrange thermopair on the wall in kiln as shown in Figure 2,1-20 among the figure and 1 '-16 ' is the pre-buried place of thermopair, the thermopair compensation wire is connected on the XME type digital indicator, then when carrying out actually operating from read the temperature value of each pre-buried point with XME type digital indicator, getting the highest point of temperature value is sensitive spot, in device shown in Figure 2,14 ' be sensitive spot.In the actual drying operating process, need monitor the temperature of this sensitive spot, guaranteeing that the sensitive spot temperature is not higher than the softening temperature of elastomer polymer+60 ℃, this can reach with the inlet air temperature of gaseous media etc. by regulating dry flow with gaseous media, feeding quantity, drying.Softening temperature is measured according to standard GB-1633-79 (method A).The softening temperature of elastomer polymer is generally about 50 ℃-200 ℃, so the sensitive spot temperature should adjust accordingly.For example, for SEBS, its softening temperature is about 140 ℃, is not higher than about 200 ℃ so the sensitive spot temperature should be controlled at; For SBS, its softening temperature is 80 ℃, and then the sensitive spot temperature should be controlled at and not be higher than 140 ℃.
The inventor finds, the air input V (m of the temperature of sensitive spot and drying medium
3/ h), the inlet amount G (Kg/h, weight in wet base) (in the present invention, V/G is defined as gas-solid ratio X) of elastomer polymer to be dried, dry inlet air temperature t with gaseous media
g, elastomer polymer material to be dried initial water content w
iAnd the water content w of kiln exit polymer masses
oRelation is arranged.Gas-solid ratio X is big more, and the sensitive spot temperature is high more; Inlet air temperature t
gHigh more, the sensitive spot temperature is high more; The initial water content w of elastomer polymer material to be dried
iBig more, the temperature of sensitive spot is low more.Under the natural ventilation condition, promptly the kiln wall not to be forced under the refrigerative condition, operating parameters satisfies following relational expression, can prevent that the sensitive spot temperature from surpassing thing softening temperature+60 ℃ of flexible polymer:
0.186×X
1.82(t
g/t
s+60℃)
1.588(w
i/W
o)
-1.25≤1
Each symbol is described as defined above in the formula.
Available the inventive method exsiccant elastomer polymer comprises the elastomer polymer arbitrarily that conjugated diolefine and vinyl aromatic (co) polymerized hydrocarbon obtain, the for example segmented copolymer or the starlike multipolymer of divinyl, isoprene etc. and vinylbenzene etc., conjugated diolefine wherein can be that part is hydrogenated or not be hydrogenated, and the unit that can also have other ethylenically unsaturated monomer in these elastomer polymers, for example alkene, particularly ethene and propylene.The inventive method is specially adapted to the drying of styrene-ethylene-butadiene-styrene (being SEBS) and styrene-butadiene-styrene (being SBS) elastomer polymer.
The drying that can be used in the inventive method is not particularly limited with gaseous media, as long as it is an inert under service temperature and pressure.For the consideration of economic factors, preferably use air as drying medium, for reaching combined action dry and that pulverize, the pressure of drying medium remains 0.14~0.35kg/cm when dry
2
Use drying means of the present invention, moisture content can be dried to moisture content up to 60% even 70% elastomer polymer pellet and be lower than 1%.For SEBS and SBS elastomerics, the original water content of elastomer polymer pellet to be dried can change in the 5%-70% scope, and correspondingly, the gas-solid ratio X of its stabilization operation is about 5: 1 to 38: 1, more preferably 7: 1 to 23: 1, particularly 8: 1 to 14: 1.Inlet air temperature preferably is higher than 300 ℃ usually above 200 ℃, more preferably is higher than 350 ℃, as long as operational condition satisfies the requirement of above-mentioned relation formula, the upper limit of inlet air temperature is not had particular restriction, but be not higher than 700 ℃ generally speaking, more preferably no higher than 600 ℃, most preferably be not higher than 550 ℃.When preventing to glue wall, the particle diameter that the inventive method is treated exsiccant elastomer polymer pellet is not particularly limited, but generally speaking, its particle diameter is preferably 0.75mm to 1.5mm.
Certainly, the inventive method also can be to the wall of kiln, particularly the sensitive spot place is forced cooling, for example between air inlet nozzle 3 (see figure 1)s and wall watercooling jacket is set, and outside kiln the kiln wall is cooled off etc.In this case, can adopt higher inlet air temperature when adopting higher gas-solid ratio, drying efficiency and intensity are bigger.
Followingly illustrate in greater detail the present invention with reference to accompanying drawing.
The drying installation of the inventive method as shown in Figure 1, elastomer polymer pellet (6) to be dried is added to internal diameter with the top of certain feeding rate drying chamber (1) and is 0.64m, highly is in the kiln of 1.6m, the drying medium (5) that will be heated to preset temperature simultaneously is that the nozzle of air supply (3) of 20mm is added in the kiln with certain flow through intake ducting (2) and nozzle diameter, the wet pellet (6) of elastomer polymer is once entering kiln (1), just medium (5) aerosol dispersion that is dried at once, and be inhaled in the gaseous blast of drying medium.In kiln (1), the wet pellet of dispersive elastomer polymer mixes with drying medium, and in that heat transfer and mass transfer take place in the drying medium moving process, finishes drying operation.Simultaneously, drying medium and the elastomer polymer pellet that is dried are up through pipeline (8), because the particle of complete drying is not heavier than the particle of complete drying, so under centrifugal action, the particle of complete drying does not turn back in the kiln (1) again dryly through circulation tube (4), and the particle of complete drying is discharged through product outlet (7).
The technical process of a kind of embodiment of the inventive method as shown in Figure 3.Be transported to through vibratory screening apparatus from the elastomer polymer micelle that comes out of cohesion still and wash the glue jar (2), behind flush away dispersion agent and remaining catalyzer and other impurity, elastomer polymer pellet to be dried is transported in the moisture eliminator (1) therein through vibratory screening apparatus (3) and screw feeder (5).Simultaneously, drying medium (as air) after force (forcing) pump (6) adds to predetermined pressure, heater via (7) and is heated to preset temperature, is added in the moisture eliminator (1) through gas blower (8).In drying process, by the thermocouple monitoring sensitive spot temperature on the wall, and the air flow of the unlatching of the control heater of taking this as a foundation (7) and gas blower (8), be no more than the value that sets to guarantee the sensitive spot temperature.Carry out desiccation in moisture eliminator (1) after, air, the dry elastomer polymer pellet that will discharge from moisture eliminator (1) in separator (4) are separated into finished product and air dielectric.As needs, the part air dielectric of discharging from separator (4) is through can be recycled behind the dewatered steam (shown in the dotted line Fig. 3).
In another embodiment of the inventive method, for the high elastomer polymer pellet of water content, two or more moisture eliminator series connection can be used, promptly at first in the 1st moisture eliminator, the elastomer polymer pellet is dried to certain degree, continues in moisture eliminator subsequently, to be dried to water content≤1% then.
Following examples are used for further illustrating the inventive method, are any restrictions to the scope of the invention but should not be construed as.Use and the similar drying installation of device shown in Figure 1 among the embodiment.
The SEBS elastomer polymer is sent in the drying installation, and its water content is 60%, and median size is 0.75mm, and feeding quantity is 10kg/ hour.The air input of air is 336m
3/ hour, corresponding gas-solid ratio is 33.6: 1, dry inlet air temperature with air dielectric is 161 ℃.Temperature when the SEBS elastomerics leaves moisture eliminator is 47 ℃, and water content is 0.4%.This operation can be operated by continous-stable, and no wall sticking phenomenon takes place.
Condition listed in the following table 1 repeats aforesaid operations, also can operate continuously and stably, and no wall sticking phenomenon takes place.Experiment condition and the results are shown in the following table 1.
Many experimental results of SEBS
| Experiment numbers | ?1 | ???2 | ??3 | ????4 |
| Water content when advancing moisture eliminator (wet basis) | 60% | ?60% | 60% | ??60% |
| Water content when going out moisture eliminator (wet basis) | 0.4% | ?0.3% | 0.07% | ??0.15% |
| Feeding quantity kg/h (wet basis) | 10 | ?9 | 11 | ??10.8 |
| Air flow quantity m 3/h | 336 | ?341 | 351 | ??362 |
| Inlet air temperature ℃ | 161 | ?166 | 160 | ??166 |
| Gas-solid ratio m 3/kg | 33.6 | ?37.8 | 31.9 | ??33.5 |
Embodiment 2:
SEBS advances moisture eliminator water ratio W
1(wet basis)=66%, particle diameter 0.75mm, tolerance 250m
3/ h, gas-solid ratio 5.46: 1.The sensitive spot temperature is raised to 160 ℃ and feeds in raw material, and after feeding in raw material, the sensitive spot temperature quickly falls to 53 ℃.Inlet air temperature is controlled at 300 ℃.Carry out drying, in drying process, the sensitive spot temperature maintenance is at 55 ℃ (mean values).Sticking wall does not take place in feed rate 45.9kg/h, moisture eliminator.The outlet water content is 0.34%<1% (required value).
The initial water content of SEBS is 30%, and air input is 400m
3/ H, feeding quantity is 20.15kg/H, corresponding gas-solid ratio is 19.9: 1, not reinforced earlier during operation, reinforced when the sensitive spot temperature is raised to 180 ℃, this moment, inlet air temperature was 321 ℃, and reinforced back sensitive spot temperature is changed to 140,178,180,88,80,97,113,100,107 ℃ by 180 ℃.Gas temperature is stabilized to 389 ℃ at last, sensitive spot is stabilized in 119 ℃.The wet branch of outlet reaches over dry sticking wall does not take place.
Embodiment 4
The initial water content of SEBS is 30%, and air input is 358m
3/ H, feeding quantity is 18.85kg/H, corresponding gas-solid ratio is 18.9: 1.Reinforced when the sensitive spot temperature reaches 180 ℃, this moment, gas temperature was 303 ℃.After reinforced, wall temperature is with the reinforced upper and lower fluctuation of speed, 70 ℃ of minimum temperatures, and 170 ℃ of top temperatures, general all about 90 ℃, the outlet water content of SEBS is 0.36% (<<1% requires), wall sticking phenomenon do not occur.
Embodiment 5
The initial water content of SEBS is 30%, and air input is 243m
3/ H, feeding quantity is 19.63kg/H, corresponding gas-solid ratio is 12.3: 1.Reinforced when the sensitive spot temperature reaches 180 ℃, inlet air temperature is up to 539 ℃, 56.2 ℃ of sensitive spot medial temperatures, and the outlet water content of SEBS is 0.34% (<<1% requires).Wall sticking phenomenon does not appear.
The initial water content of SEBS is 20%, and air input is 243m
3/ H, feeding quantity is 32.8kg/H, and corresponding gas-solid ratio is 7.4: 1, and reinforced preceding sensitive spot is warmed up to 180 ℃, and gas temperature is the highest 537 ℃.Reinforced back sensitive spot temperature is 98.1 ℃, and the outlet water ratio is an over dry, and wall sticking phenomenon does not take place.
Embodiment 7
The initial water content of SEBS is 20%, and air input is 358m
3/ H, feeding quantity is 33.46kg/h, corresponding gas-solid ratio is 10.7: 1.Inlet air temperature is 402 ℃, and the sensitive spot temperature is 180 ℃, and reinforced back sensitive spot temperature descends, 142.4 ℃ of medial temperatures, and outlet water ratio 0.99% (<1%), sticking wall does not take place in 180 ℃ of exit gas medial temperatures.
The initial water content of SEBS is 20%, and air input is 400m
3/ H, feeding quantity is 29.5kg/H, corresponding gas-solid ratio is 13.6: 1,388 ℃ of gas temperatures, 180 ℃ of sensitive spot top temperatures, 157.2 ℃ of medial temperatures, the outlet water ratio reaches over dry, 180 ℃ of Outlet Gas Temperatures, sticking wall does not take place when dry, and the moisture content ≈ 0.08 of this waste gas in flow process of the present invention is under 60 ℃ of dry room temps, saturated humidity is that 0.15kg/kg does, so this air can be recycled.
Embodiment 9
SBS advances moisture eliminator water ratio W
1(wet basis)=54%, particle diameter 0.8685mm.Tolerance 250m
3/ h.Gas-solid ratio 20.6: 1.Begin to feed in raw material during operation when sensitive spot is raised to 143 ℃, reinforced back sensitive spot temperature quickly falls to 45 ℃.Inlet air temperature is controlled at 300 ℃.The sensitive spot medial temperature maintains 48.93 ℃ (mean values) when dry.Feed rate 12.1kg/h.Outlet water content W
2Sticking wall does not take place in (wet basis) 0.45%<1% (required value).
Embodiment 10
SEBS advances moisture eliminator water ratio W
1(wet basis)=50%, particle diameter 0.75mm, tolerance 250m
3/ h, gas-solid ratio 8.6: 1.Reinforced when the sensitive spot temperature is raised to 160 ℃ during operation, the sensitive spot temperature drops to 54 ℃ rapidly, and inlet air temperature is controlled at 300 ℃.In the drying process, the sensitive spot temperature maintenance exports water content W at 55.6 ℃
2Sticking wall does not take place in (Wen Ji)=0.79%<1% (required value), feed rate 29kg/h, moisture eliminator.
Embodiment 11
SEBS advances moisture eliminator water ratio W
1(wet basis)=40%, particle diameter 0.75mm, tolerance 250m
3/ h, gas-solid ratio 11.61: 1.Reinforced when the sensitive spot temperature is raised to 160 ℃ during operation.Reinforced back sensitive spot temperature drops to 52 ℃ rapidly, and inlet air temperature is controlled at 300 ℃.When dry, the sensitive spot temperature maintenance is at 54.1 ℃ (mean values), and feed rate 21.6kg/h exports water content W
2Sticking wall does not take place in (wet basis)=0.53%≤1% (required value), moisture eliminator.
Claims (8)
1. the method for a dry elastomer polymer pellet, it carries out in the combined action equipment of dry and pulverizing, it is characterized in that, in drying process, wall sensitive spot temperature in the kiln is controlled in the temperature range that is not higher than elastomer polymer softening temperature to be dried+60 ℃, keeps gas-solid ratio to be higher than 5: 1 simultaneously.
2. according to the method for claim 1, it is characterized in that drying is carried out under the refrigerative condition kiln not being forced, and operational condition satisfies following relational expression:
0.186×X
1.82〔t
g/(t
s+60℃)〕
1·588(w
i/W
o)
-1.25≤1
In the formula
X=V/G, i.e. gas-solid ratio, V wherein is that unit is a rice
3/ hour be added to gas flow in the kiln, G be based on weight in wet base, with kilogram/hour be the feeding quantity of the elastomer polymer to be dried of unit;
t
gBe the temperature when being used for the exsiccant gaseous media and entering moisture eliminator, unit is ℃;
t
sBe the softening temperature of elastomer polymer to be dried, unit is ℃;
w
iBe elastomer polymer pellet to be dried water content when entering kiln, unit is a % weight;
w
oBe the water content of elastomer polymer pellet when leaving kiln, unit is a % weight.
3. according to the method for claim 1 or 2, it is characterized in that elastomer polymer to be dried is SEBS or SBS elastomer polymer.
4. according to each method among the claim 1-3, it is characterized in that the water content of elastomer polymer to be dried is a 5-60% weight.
5. according to each method among the claim 1-4, it is characterized in that the gas-solid ratio X that is adopted is 5: 1 to 38: 1.
6. according to each method among the claim 1-5, it is characterized in that the temperature t when being used for the exsiccant gaseous media and entering kiln
gBe higher than 300 ℃.
7. according to the method for claim 6, it is characterized in that described temperature is 300 ℃~700 ℃.
8. according to the method for claim 1, it is characterized in that drying is that the wall of kiln is being forced to carry out under the refrigerative condition.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN98123238A CN1072680C (en) | 1998-12-22 | 1998-12-22 | Process for drying elastomer polymer |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN98123238A CN1072680C (en) | 1998-12-22 | 1998-12-22 | Process for drying elastomer polymer |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN1257876A true CN1257876A (en) | 2000-06-28 |
| CN1072680C CN1072680C (en) | 2001-10-10 |
Family
ID=5228102
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN98123238A Expired - Fee Related CN1072680C (en) | 1998-12-22 | 1998-12-22 | Process for drying elastomer polymer |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN100441599C (en) * | 2003-01-15 | 2008-12-10 | Dsm精细化学奥地利Nfg两合公司 | Continnous drying method containing N or amino, ammonium or spirobicyclic ammonium-base group polymer |
| CN107850389A (en) * | 2015-05-08 | 2018-03-27 | 巴斯夫欧洲公司 | Prepare the method and band drier of water-absorbing polymeric particles |
Family Cites Families (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS5710606A (en) * | 1980-06-23 | 1982-01-20 | Japan Synthetic Rubber Co Ltd | Continuous granulation of thermoplastic polymer fine powder |
| US4455408A (en) * | 1982-08-11 | 1984-06-19 | National Starch And Chemical Corporation | Process for reacting quaternary ammonium monomers in the presence of anionic polymers |
-
1998
- 1998-12-22 CN CN98123238A patent/CN1072680C/en not_active Expired - Fee Related
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN100441599C (en) * | 2003-01-15 | 2008-12-10 | Dsm精细化学奥地利Nfg两合公司 | Continnous drying method containing N or amino, ammonium or spirobicyclic ammonium-base group polymer |
| CN107850389A (en) * | 2015-05-08 | 2018-03-27 | 巴斯夫欧洲公司 | Prepare the method and band drier of water-absorbing polymeric particles |
| CN107850389B (en) * | 2015-05-08 | 2021-02-02 | 巴斯夫欧洲公司 | Method for producing water-absorbing polymer particles and belt dryer |
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| Publication number | Publication date |
|---|---|
| CN1072680C (en) | 2001-10-10 |
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