Advantages and application fields of our equipment

Advantages

Aerodynamic dispergator is a unique engineering solution, which reveals its advantages in effectively drying and grinding of soft and medium materials. It’s especially advantageous to process organic fibrous materials, as aerodynamic dispergator allows to dry, grind and separate the product of the required characteristics of humidity and size at the same time.

Unique inertial separation allows to choose from a zone of drying-grinding only that particles of material, which satisfy given parameters of size and humidity, avoiding unnecessary exposure to material. Unnecessary mechanical and thermal exposure can lead to their destruction (thermal or mechanical ones).

As a rule, there is no need in special training of aerodynamic dispergator for processing materials: basic material can have 60% humidity by weight and particle sizes can be 200x200 mm.

Aerodynamic dispergator enables to perform delicate grinding / defibration and totally save fibers, existing in basic material. The conditions of constant "ideal dryer" are organized in aerodynamic dispergator. Our equipment allows to perform grinding / defibration in the necessary thermal conditions, performing drying of material at the same time.

Even through only material grinding / defibration is necessary, aerodynamic dispergator is usually more effective due to a combination of delicate grinding / defibration and inertial separation through the grinding zone, it allows to get a homogeneous fractional product.  Necessary solutions can be worked out for different variants of using; these variants replace usual hammer mills with classifiers or sieves.

Aerodynamic dispergator is engineered and produced simply and reliably, it makes effective use of energy for grinding and drying. Dimensions of grinding and drying unit are 2000x1600x1600 mm.

Application fields

In addition to grinding / defibration, aerodynamic dispergator is very effective in organic matter grinding / defibration and drying (paper, cardboard, cellulose, etc) coupled such processes: grinding/defibration-mixing-drying-separation and grinding/defibration-drying-separation, grinding/defibration-separation. Below there are some typical examples from different industrial fields:

Biomass and recyclable materials processing: biofuel production, feed production, complex recycling - Tetra Pak recycling, all kinds of paper recycling, pulp-and-paper industry recycling, nonwoven materials recycling, light volatile product processing (hen feather processing).

Chemical industry: dispersion of organic and inorganic matters, such as dyes and pigments for pharmaceutical and cosmetic purposes. Grinding of the basic materials for pesticides and cleaning agent production.

The plastic production: plastic grinding with cooling, the production of powdery and fibrous fillers, which are used for improvement of the final product characteristic and for the production of wood-polymer composites.

Nonmetallic minerals industry: grinding of gypsum, lime, limestone and barite. Grinding often leads to a homogeneous fineness of the final product and eliminates the necessity in a separate sieving system.  

Building materials industry: defibration of organic fibrous materials, such as paper, wood, hemp for using them as fillers and heat insulation of residential buildings.

Food industry: grinding of cereals and leguminous crops such as rice, corn, peas and lentil.