Suspension double cone rotary vacuum dryer

Suspension double cone rotary vacuum dryer
The core tips: New product new technology The working principle of this dryer is: the material in the double cone rotary tank body constantly turning, and heat exchange with the tank wall, outside the tank wall with a half pipe, half pipe with hot water circulation Heating, double-cone rotation cutter crusher at the same time, each time the tank rotates once, the material and crusher contact once

New product and new technology The working principle of the dryer is: the material is constantly turning in the double-cone rotary tank and exchanges heat with the tank wall. The outside of the tank wall is surrounded by a half pipe, and the half pipe is heated by circulating water with hot water. When the cone rotates, the crushing knife rotates at the same time. Whenever the tank rotates once, the material contacts with the crushing knife once. Since the speed of the crushing knife is faster, the maximum is 250 rpm, and the speed of the tank is slow, generally 3 rpm. Therefore, each When the material is in contact with the tool, the crushing effect is very obvious; the system in the tank is operated under vacuum conditions, taking into account the recovery of the organic solvent. Because the boiling point of the solvent is lower, the chilled water is used for condensation cooling to ensure that the solvent can be recycled and avoided. After being pumped away by the vacuum pump, it will pollute the atmosphere, so as to achieve the purpose of material crushing and drying.

The main basis and technical parameters of the design 2: Tank rotation speed: ~ 4rpm adjustable tank volume: 3000L hot water temperature: 1. Chilled water temperature: 5: (M) Material name: Antibiotic (15) Mechanical seal at the vacuum end The hot water end adopts rotary joints, the crushing knife device adopts magnetic fluid sealing, and the manhole cover is sealed with imported expanded PTFE gaskets; the rest is designed and manufactured with reference to the technical requirements of common double cones. 3. In the whole design and manufacture During the process, we always implement and strictly grasp the following two principle issues: 1 Equipment design and manufacturing must be strictly in accordance with the GMP (Good Manufacturing Practice); 2 The electrical equipment of the system must be strictly in accordance with the explosion-proof requirements, explosion-proof rating dAT4; Throughout the development process, we always adhere to the combination of design and production, equipment and process integration, installation and use of the principle of integration.

After more than one year's operation, Liaoning Meiya Pharmaceutical Co., Ltd. has a good working condition. The indicators such as drying strength, gas leakage rate, ultimate vacuum degree and hydraulic strength meet the standards and also meet the aseptic production process. Requirements, the dry materials, regardless of color, size, moisture content, yield and other technical and economic indicators are satisfactory, in full compliance with the requirements of the GMP.

The aircraft passed the scientific and technological achievements appraisal of Jiangsu Province in October 2003.

Inclined plate clarifier

Feiyiya Inclined Plate Clarifiers Use Gravity & Innovative Engineering

A gravity clarifier is the most economical method of removing solids from liquids, using natural gravity as the source of energy and it is free. A clarifier simply provides a non-turbulent zone where heavier than liquid solids, suspended by turbulence, are given sufficient time to settle to a quiescent surface. The HEI inclined plate clarifiers are compact units with multiple layers of settling area utilizing less than 25% of the floor space required by conventional clarifiers.

Principle of Clarifiers

A particle carried forward by the velocity of the liquid flow must settle at a rate that allows it to reach the bottom before passing through the clarifer. Thus, particles beginning at a point [a" must traverse some route lying between ab and ab` in order to avoid being carried over the outlet.

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If V is the horizontal velocity of the liquid, S the solids particle vertical settling velocity, L the length of the settling device, and D its depth, then particles entering at point A will settle to the bottom of the device only if V does not exceed: S(L/D)Since Vmax / S = L / D then, Vmax = S (L / D)

Therefore, the velocity at which a horizontal clarifying device may be operated successfully is directly proportional to its length and inversely proportional to its depth.

This analysis applies to multiple horizontal plate units also. The spacing between plates is usually a few inches as opposed to a depth of several feet in a horizontal tank; therefore, [settling-out" times are dramatically reduced. The flow must be non-turbulent to prevent settled solids from being re-entrained within the moving liquid. Small plate spacing and a large surface area permits laminar flow at higher velocities than large horizontal tanks would allow.


Horizontal clarifying devices become self-flushing if they are inclined at an angle which exceeds the angle of repose of the settled solids. In such cases, flow enters the lower end of the device where settling particles move to the floor eventually sliding back out the entrance. Clear effluent leaves the top of the device.
1701680354228However, when the device is inclined, the furthest settling particles no longer fall through distance D but some longer distance D`. This new longer settling distance D` is related to D by the relation: D = D` cos Ø.

Theta [Ø" is the angle, the device is inclined to the horizontal plane. Thus settling distance is increased by the factor: 1/cos Ø In the case where Ø = 60º, 1/cos Ø = 2.

The maximum settling distance is twice the distance between the plates. It is apparent then that the lower the angle of inclination, the smaller the settling distance. However, the angle of inclination must exceed the angle of repose of the solids to be separated. The previous equation may be modified to express the cosine of an inclined plate clarifying system as:
Vmax = L / (D / cosØ) (s) = L·cosØ / D (s)


Inclined Plate Clarifiers
A reduction of the required floor space is acquired by diminishing the separation between the horizontal plates to a few inches and stacking the settling surfaces. Inclining the plates to provide self flushing, 45º for heavy particles and 60º for light particles, reduces the available horizontal projected area (effective settling area) by a factor equivalent to the cosine of the angle. The surface area diagram (below) graphically compares the floor space requirements of an HEI inclined plate clarifier with the equivalent horizontal projected settling area.

Settling Rate
The settling rate for a specific solids should be determined by standard laboratory tests. Light particles, such as metal hydroxides, usually require a design parameter of 0.25 – 0.50 gallons per minute per square foot of horizontal projected area. These low density solids require the inclined plates to be set at a 60º angle to induce the particles to slide down the plate. Heavier particles (such as sand that easily flow) will readily slide from plates set at a 45º angle.

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Maximum flow rate of an inclined plate clarifier is based on the flow rate per unit of a horizontally projected surface area. Retention time in the clarifier is not a design criteria. However, attaining optimum performance requires the prudent design to recognize several additional, very important factors.

Inclined plate clarifier, Lanmei inclined plate clarifier, Inclined Tube Settler,High-Efficiency Inclined Tube

Wuxi Feiyiya Environmental Protection Technology Co., Ltd. , https://www.fefinegrille.com

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