Customization: | Available |
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Manufacturing Process: | Lascer Cutting and Plate Bending |
Surface Treatment: | Without Processing |
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8500 TEU Vessel Scrubbing System SS316L Vane Plate Demister
When the gas containing mist flows through the demister at a certain speed, because of the inertial impact of the gas, the mist and wave plate collide and are attached to the wave plate surface. The diffusion of the mist on the surface of the corrugated plate and the gravity settlement of the mist cause the mist to form large droplets and move forward with the air flow to the turning of the corrugated plate. Because of the centrifugal force of the steering and its friction with the corrugated plate, the adsorption and the surface tension of the liquid, the droplets become larger and larger until the concentrated droplets are larger than the gravity generated by themselves, which exceeds the lifting force of the gas and the surface tension of the liquid. When the force is applied, the droplets are separated from the surface of the wave plate. The multi fold structure of the wave plate of the mist eliminator increases the chance of catching and gathering the mist, and the undeleted mist will catch and gather at the next turn through the same function, so it will work repeatedly, thus greatly improving the efficiency of mist eliminator. After the gas passes through the chevron mist eliminator, there is basically no mist.
Table 3 data sheet of demister | |||||
1. | Project No.: | ||||
2. | Equipment name | Vane demister | |||
3. | Quantity | In use | quantity | 1 | |
Spare parts | quantity | 0 | |||
Total | quantity | 1 | |||
4. | Purpose | Removal of slurry droplets in FGD emission And control the dust emission concentration at the outlet of absorption tower |
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5. | Basic design conditions | ||||
1) Characteristics of flue gas | |||||
(1) Name of flue gas | Flue gas after dust removal and desulfurization | ||||
(2) Flue gas flow at absorber inlet | m3/h | 31000 | |||
(3) Dust concentration at absorber inlet | mg/Nm3 | ≤20(Standard state dry basis,3%O2) | |||
Flue gas flow at absorber outlet | m3/h | 32500 | |||
Flue gas velocity | m/s | ≤2.0 | |||
(4) Outlet temperature of absorption tower | ºC | 45 | |||
(5) pressure | kPaG | 1.0 | |||
(6) Expected flue gas composition | See Table 1 | ||||
(7) Expected droplet composition | |||||
H2O | (liquid) | wt% | ~95 | ||
Na2S | (solid) | wt% | 4 | ||
Na2HS | (solid) | wt% | 1 | ||
Droplet characteristics | |||||
Density | kg/m3 | ~1020 | |||
PH | - | 7~10 | |||
Viscosity | cPa | <3 | |||
2) Type of demister | As per order | ||||
3) Installation position | Upper part of absorber | ||||
6. | Structural design conditions | ||||
1) Standards, specifications | As per order | ||||
2) Design pressure of absorber | kPa·G | -1.0~+5.0 | |||
9) Design temperature(maximum temperature and time of mist eliminator) | Depends on material | ||||
Shell | ºC/min | ||||
demister | ºC/min | ||||
3) Corrosion allowance | |||||
4) Shell size of demister | Inner diameter of absorption section of absorption tower Φ 2.6m | ||||
5) texture of material | |||||
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304, 316L, 2205, 2507, TA2, etc. | ||||
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1.Lower pressure drop.
2.Resistance to fouling.
3.High tensile strength.
4.Durable and long service life.
5.Custom-made design available.
6.High filtering and separating efficiency.
7.High capacity. It has 30% to 100% more capacity than the wire mesh mist eliminator.