Agricultural Engineering Exam  >  Agricultural Engineering Notes  >  Crop Process Engineering Notes - Agricultural Engg  >  Type of Separators, Crop Process Engineering

Type of Separators, Crop Process Engineering | Crop Process Engineering Notes - Agricultural Engg - Agricultural Engineering PDF Download

In food industries, the operations of separating raw products including cleaning and grading are performed by the different engineering properties. Various types of separation equipments have been designed and developed on the basis of properties of the products.

The separation equipment can be classified depending upon the following characteristics of the raw materials;

-size, shape, specific gravity and surface roughness

-magnetic properties, aerodynamic properties, colour, electrical properties

-dielectric properties, rheological properties

A classification of separation techniques according to phases (type of mixture) involved are given as;

 Type of mixture

Techniques

Liquid-liquid

Distillation

Extraction

Decantation

Dialysis and electro-dialysis

Parametric pumping

Solid-solid

Screening

Leaching

Floatation

Air classification

Solid-gas

Cyclonic

Air filtration

Scrubbing

Electrostatic precipitation

Solid-liquid

Sedimentation

Centrifugation

Filtration

Membrane separation


 Screening fundamentals

The objective of a screening operation is to separate a feed stream into two fractions, an underflow that is passed through the screen and an overflow that is rejected by the screen. An ideal screen sharply separates the feed in such a way that the smallest particle in the overflow is just larger than the largest particle in the underflow. Such an ideal separation would define a cut diameter, Dpc, representing the point of separation between the fractions. For an ideal operation, a plot of screen opening against cumulative fraction retained would have the shape shown in Fig.b.


As can be seen, the largest particle of the underflow (U) has the same size as the smallest particle of the overflow (O). In practice, however, the plot would have the shape illustrated in Fig. 3.1c, in which there is an overlap; the underflow has an appreciable amount of particles larger than the desired cut diameter, while the overflow has particles smaller than such desired cut diameter. That is the actual screens don’t yield a sharp separation. It has been observed that with standard testing screen, the overlap is smaller when particles are spherical (or close to a spherical shape) and is larger when particles are needle-like, fibrous or tend to agglomerate. The main problems encountered in screening result from sample stickiness, sieve blockage, and agglomeration. Commercial screens usually give poorer performance than testing screens of the same mesh handling the same feed mixture. All these problems increase exponentially as the screen aperture decreases.

Percentage open area of a mesh


Example 3.1 Calculate the opening size (Aperture) in mm of a 200-mesh screen of Tyler standard screen series with a wire of 0.053 mm diameter. Determine the percentage open area for this mesh size.     

Solution: 


O = (1/200 x 25.4 – 0.053) = 0.074 mm


Generally, in food industries, screens are constructed by perforated sheet metal or woven wire mesh. The opening in perforated metal sheets may be round, oblong or triangular. The opening in wire mesh is square or rectangle.

The document Type of Separators, Crop Process Engineering | Crop Process Engineering Notes - Agricultural Engg - Agricultural Engineering is a part of the Agricultural Engineering Course Crop Process Engineering Notes - Agricultural Engg.
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FAQs on Type of Separators, Crop Process Engineering - Crop Process Engineering Notes - Agricultural Engg - Agricultural Engineering

1. What are separators in crop process engineering?
Ans. Separators in crop process engineering refer to equipment or devices used to separate different components or phases of a crop during processing. These separators are designed to efficiently separate solids from liquids or separate different types of solids based on their size, density, or other physical properties.
2. What are the types of separators used in agricultural engineering?
Ans. There are several types of separators used in agricultural engineering, including: - Gravity separators: These separators use the principle of gravity to separate different components based on their densities. - Magnetic separators: These separators use magnetic forces to separate magnetic materials from non-magnetic ones. - Centrifugal separators: These separators utilize centrifugal forces to separate different components based on their densities or particle sizes. - Air separators: These separators use air or gas streams to separate lighter particles from heavier ones. - Sieving separators: These separators employ a mesh or screen to separate particles based on their sizes.
3. How do gravity separators work in crop process engineering?
Ans. Gravity separators work by utilizing the difference in densities between different components of a crop. The crop is fed onto a vibrating or sloping deck, and as it moves, the heavier components settle due to gravity, while the lighter components are carried away. The separated components can then be collected and further processed as required.
4. What are some applications of magnetic separators in agricultural engineering?
Ans. Magnetic separators find various applications in agricultural engineering, including: - Removing magnetic impurities from grains or seeds to improve their quality. - Separating magnetic materials, such as ferrous metals, from non-magnetic materials in crop processing. - Extracting iron or steel particles from harvested crops or agricultural products.
5. How are centrifugal separators beneficial in crop process engineering?
Ans. Centrifugal separators offer several benefits in crop process engineering, such as: - Efficient separation of components based on their densities or particle sizes. - Ability to handle a wide range of crop materials, from small particles to larger chunks. - Compact design, making them suitable for both small-scale and large-scale crop processing operations. - Low energy consumption and low maintenance requirements. - High separation accuracy, resulting in high-quality separated components.
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