Borax has a wide range of applications in medical and chemical fields. Boric acid is a white powdery crystal or a scaly lustrous crystal on a tri-oblique axis. It has a smooth feel and no odor. Soluble in water, alcohol, glycerin, ethers and essential oils, the aqueous solution is weakly acidic. It is widely used in the glass (optical glass, acid-resistant glass, heat-resistant glass, glass fiber for insulating materials) industry, which can improve the heat-resistant and transparent properties of glass products, improve the mechanical strength, and shorten the melting time. In medicine, it is used as a preservative, a pH regulator, etc. Borax is widely used, and the borax vibrating fluidized bed developed by Griffin can handle borax very well.
Borax vibrating fluidized bed dryer has the following advantages
◎The vibration source is driven by vibration motor, which has stable operation, convenient maintenance, low noise and long service life.
◎The fluidization is well-proportioned, without dead space and blow-through phenomenon, which can obtain uniform drying and cooling of products.
◎Good adjustability and wide application. The thickness of the material layer, the speed of movement in the machine, and the change of the full amplitude can be adjusted steplessly.
◎Small damage to the material surface. It can be used for drying fragile materials, and the work effect will not be affected when the material particles are irregular.
◎Adopt a fully enclosed structure. Effectively prevent the cross between the material and the air, and the working environment is clean.
◎High mechanical efficiency and thermal efficiency, good energy-saving effect, 30-60% energy saving than ordinary drying devices.
Griffin Borax Vibrating Fluidized Bed Dryer allows the material to enter the machine from the feed inlet. Under the action of the vibration force, the material is thrown along the horizontal fluidized bed and moves forward continuously. The hot air passes upward through the fluidized bed and exchanges heat with the wet material. , The wet air is discharged by the exhaust 1:3 after dust removal by the cyclone separator. The dry material is discharged from the discharge inlet.
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