Description
PLG Series Continuous Disc Plate Dryer
DESCRIPTION
PLG Series Continuous disc dryer is a high efficiency conducting and continuous drying equipment. Its unique structure and operating principle determine that it has advantages of high heat efficiency, low energy consumption, small occupied area, simple configuration, easy operation and control as well as good operating environment and etc. It can be widely used in drying process in the fields of chemical, pharmaceuticals, agricultural, foodstuff, feed, and other industries.
There are three major types: normal pressure type, closed type, and vacuum type; and four major models: 1200, 1500, 2200 and 3000; and three kind of material grades, A (carbon steel), B (use stainless steel for material contacted area), and C (use stainless steel for material contacted area, steam pipes, main shaft and supports, and linings for cylinder body and top cover).The drying area of the dryer is 4 to 180㎡. We have produced hundreds of models with auxiliary devices which are available to meet requirements of all customers.
WORKING PRINCIPLE
The wet material is fed continuously to the first drying layer on the top of the dryer. It will be turned and stirred by rakes when the rake arm rotates and drop down to the outer edge of the large drying plate along the exponential helical line. The material will be moved from the small drying plate to its outer edge and drop down to the outer edge of the large drying plate underneath. Both small and large drying plates are arranged alternately so the materials can go through the dryer continuously. The heat medium can be saturated steam, hot water or thermal oil. The heat will be led into hollow drying plates from one end and come out from the other end. The dried materials will drop from the last layer of the drying plate to the bottom of the dryer and then moved by rakes to the discharge outlet. The material moisture will be removed from the exhaust outlet on the top cover. For the vacuum-type plate dryer, the moisture will be sucked out by the vacuum pump on the top cover. The dried materials will be discharged from the bottom layer. The drying capability can be improved if the dryer equipped with supplementary devices such as finned heater, condenser for solvent retrieval, bag dust remover, return and mix mechanism, draft fan, and etc.
TECHNICAL PARAMETERS
Type |
Diameter(mm) |
Height(mm) |
Drying Area(m2) |
Power (kw) |
1200/4 |
Φ1850 |
2718 |
3.3 |
1 |
1200/6 |
3138 |
4.9 |
||
1200/8 |
3558 |
6.6 |
1.5 |
|
1200/10 |
3978 |
8.2 |
||
1200/12 |
4398 |
9.9 |
2.2 |
|
1500/6 |
Φ2100 |
3022 |
8.0 |
|
1500/8 |
3442 |
10.7 |
||
1500/10 |
3862 |
13.4 |
||
1500/12 |
4282 |
16.1 |
3.0 |
|
1500/14 |
4702 |
18.8 |
||
1500/16 |
5122 |
21.5 |
||
2200/6 |
Φ2900 |
3319 |
18.5 |
|
2200/8 |
3739 |
24.6 |
||
2200/10 |
4159 |
30.8 |
4.0 |
|
2200/12 |
4579 |
36.9 |
||
2200/14 |
4999 |
43.1 |
5.5 |
|
2200/16 |
5419 |
19.3 |
||
2200/18 |
5839 |
55.4 |
7.5 |
|
2200/20 |
6259 |
61.6 |
||
2200/22 |
6679 |
67.7 |
11 |
|
2200/24 |
7099 |
73.9 |
||
2200/26 |
7519 |
80.0 |
Type |
Diameter(mm) |
Height(mm) |
Drying Area(m2) |
Power (kw) |
2500/6 |
Φ3150 |
3319 |
26.3 |
4 |
2500/8 |
3739 |
35 |
||
2500/10 |
4159 |
43.8 |
5.5 |
|
2500/12 |
4579 |
52.5 |
||
2500/14 |
4999 |
61.3 |
7.5 |
|
2500/16 |
5419 |
70 |
||
2500/18 |
5839 |
78.8 |
11 |
|
2500/20 |
6259 |
87.5 |
||
2500/22 |
6679 |
96.3 |
||
2500/24 |
7099 |
105 |
13 |
|
2500/26 |
7519 |
113.8 |
||
3000/8 |
Φ3800 |
4050 |
48 |
11 |
3000/10 |
4650 |
60 |
||
3000/12 |
5250 |
72 |
||
3000/14 |
5850 |
84 |
||
3000/16 |
6450 |
96 |
||
3000/18 |
7050 |
108 |
13 |
|
3000/20 |
7650 |
120 |
||
3000/22 |
8250 |
132 |
||
3000/24 |
8850 |
144 |
||
3000/26 |
9450 |
156 |
15 |
|
3000/28 |
10050 |
168 |
FEATURES
(1) Easy to adjust and control, good applicability.
- The drying efficiency can be improved by adjusting the thickness of material layer, rotary speed of main shaft, quantity of harrow arm, shape and size harrow plates.
- Each drying layer can input hot medium or cool medium individually for heating or cooling. The temperature control is accurate and easy to adjust.
- The residence time of materials can be adjusted accurately.
- Single material flowing direction to prevent material return and mixing. The drying process is uniform and the quality stable, no re-mixing is required.
(2) Easy to operate
- Simple operation for turn on and turn off.
- After material feeding is stopped, the remaining material inside of the machine can be easily discharged out by the harrows.
- You can clean and observe inside from the large-scale viewing window.
(3) Low energy consumption
- The material layer is thin and the rotary speed of main shaft is low so it required low power and electricity consumption.
- The material is dried by conducting heat so it has high heating efficiency.
(4) Good operation environment
- Normal pressure type:
The speed of air flow inside of the machine is low and the humidity is high in upper end and low in bottom end so the dust can’t float to the top which keeps no dust in the exhausted air.
- Closed type:
The machine is equipped with solvent recovery device which can recover organic solvent easily from the wet air. The solvent recovery device has a simple structure and high recovery rate. For the flammable, explosive and poisonous materials, the nitrogen can be used as medium for closed circulation and keeps a safe working condition.
- Vacuum type:
The plate dryer is operating under vacuum condition and it is particularly suitable for drying heat sensitive materials.
(5) Easy installation
- The dryer is delivered in a complete piece so it is quite easy to install and fix at site.
- The disc plates are being arranged by layers and it will be installed vertically so it takes a small occupying area from the workshop.
APPLICATION
Applicable Materials:
Drying, heat decomposition, combustion, cooling, reaction, and sublimation
1. Organic chemicals
2. Mineral chemicals
3. Pharmaceutical and foodstuff
4. Feed and fertilizer
TECHNICAL CHARACTERISTICS
1.
Drying Tray
- Designing pressure: generally 0.4Mpa, and
the max. pressure is 1.6 MPa.
- Max. working pressure: generally ≤0.4Mpa, and the max. pressure
is 1.6 MPa.
- Heat source: steam, hot water, or thermal oil:
Use hot water as heat source when the drying plates’ temperature is 100°C; Use saturated
water steam ≤0.4Mpa or steam-gas when the drying plates’
temperature is 100°C~150°C; Use thermal oil when the drying plates’
temperature is 150°C~320°C;
2.
Material Transmission System
- Revolution of main shaft: 1~10 rpm,
electromagnetism or transducer timing.
- Rake arm: 2 to 8 rake arms will be fixed on
the main shaft on the every layer.
- Rake blade: the rake blades are hinged to
the rake arms and float with the surface of the plate. There’re several types
of rake blades.
- Roller: For the material that is easy to
agglomerate, or required to be grinded, the rollers shall be placed at the
appropriate place to reinforce the heat transfer and drying process.
3. Three types of dryer body:
normal pressure, sealed, and vacuum
- Normal pressure: The dryer body is cylindrical or octagonal
and the structure can be integrated or separated. The ducting system for the
heat source can be placed inside or outside of the dryer.
- Sealed: The dryer body is cylindrical and it can bear the
interior pressure of 5KPa. The ducting system for the heat source can be
placed inside or outside of the dryer.
- Vacuum: The dryer body is cylindrical and
the design pressure is 0.1MPa. The ducting system for the heat source is placed
inside of the dryer.
4. Air Heater:
The air heater is usually used to meet larger
evaporation capacity requirements in order to increase drying efficiency.