Agricultural Engineering Exam  >  Agricultural Engineering Notes  >  Crop Process Engineering Notes - Agricultural Engg  >  Methods and Principles of Food Processing (Part I), Crop Process Engineering

Methods and Principles of Food Processing (Part I), Crop Process Engineering | Crop Process Engineering Notes - Agricultural Engg - Agricultural Engineering PDF Download

The Green Revolution, better management practices and subsequent efforts through the application of science and technology for increasing food production in India have brought self reliance in food. The nation become self reliance but available produce could not reach to the consumer so we are, still facing the problem of use of under nutrition and malnutrition. Properly planned agri-produce if process, it can reduce the waste, enhances employability and can contribute to the economic development of rural population at large.

The fruits and vegetables are comparative higher value than cereals and more perishables. Losses in the fruits and vegetables are high and chances to reduce the waste and enhancing the employability through post harvest processing are more. The processing includes pre-processing of fruits and vegetables before these are fit to final conversation into processed foods. The food preservation and processing industry has now become of a necessity than being a luxury. It has an important role in conservation and better utilization of fruits and vegetables. In order to avoid the glut and utilize the surplus during the season, it is necessary to employ modern methods to extend storage life for better distribution and also processing techniques to preserve them for utilization in the off season on both large scale and small scale.

 Food processing therefore refers to the application of techniques to foods in a systematic manner for preventing losses through preservation, processing, packaging, storage and distribution, ultimately to ensure greater availability of a wide variety of foods which would help to improve the food intake and nutritional standards during the periods of low availability. The main objective of fruits and vegetables processing is to supply wholesome safe, nutritious and acceptable food to consumers throughout the year.

 Prerequisites of preservation are cleaning, grading and sorting as per maturity.

 1. Cleaning: It is a unit operation in which contaminating materials are removed from the food material and separated to leave the surface of the food in a suitable condition for further processing. In vegetable processing, blanching also helps to clean the product. In addition, the early removal of small quantities of food contaminated by micro-organisms prevents the subsequent loss of the remaining bulk by microbial growth during storage or delays before processing.

 Wet cleaning: Wet cleaning is more effective than dry methods for removing soil from root crops or dust and pesticide residues from soft fruits or vegetables. It is also dustless and causes less damage to foods than dry methods.

 Dry cleaning: Dry cleaning procedures are used for products that are smaller, have greater mechanical strength and possess lower moisture content (for example grains and nuts). After cleaning, the surfaces are dry, to aid preservation or further drying. The main groups of equipment used for dry cleaning are;

- air classifiers

- magnetic separators

- separators based on screening of foods

 Removing contaminants and foreign bodies: Physical separation of contaminants from food is possible when the food has regular well defined shape. e.g. round foods are separated from contaminants by exploiting their ability to roll down in inclined, upward moving conveyor belt.

2. Sorting: Sorting is the separation of foods into categories on the basis of a measurable physical property. Like cleaning, sorting should be employed as early as possible to ensure a uniform product for subsequent processing. The four main physical properties used to sort foods are size, shape, weight and color.

 Shape and size sorting: The particle size distribution of a material is expressed as either the mass fraction of material that is retained on each sieve or cumulative percentage of material retained. Size sorting is the separation of solids into two or more fractions on the basis of differences in size.

 Color sorting: Small particulate foods may be automatically sorted at high rates using microprocessor controlled color sorting equipment. Particles are fed into chute one at a time. The angle, shape and lining material of chute are altered to control the velocity of pieces as the pass a photo detector. Photo detectors measure the reflected color of each piece and compare it with preset standards, and defective foods are separated by a short blast of compressed air.

 Weight sorting: Weight sorting is more accurate than other methods and is therefore used for more valuable foods. Aspiration and flotation sorting use differences in density to sort food and are similar in principle and operation to aspiration and flotation cleaning.

3. Grading: This term is often used interchangeably with sorting but strictly means ‘the assessment of overall quality of a food using a number of attributes’. Grading is carried out by machines or operators who are trained to simultaneously assess a number of variables.

 The basic principles of preserving bio materials and their respective methods are given in the following table.

Sr. No.
Principle
Method
1
Reducing temperature so that deteriorating reactions occurring within the bio materials are minimized
Evaporating Cool Chamber Refrigerated Storage Cold storage Freezing
2
Creation of an environment of gases such deteriorating bio chemicals reduce their activities.
Hermetic StorageControlled Storage and Modified Packaging
3
Reduce chemical potential of water (water activity reduction)
  1. Application of heat
  2. Addition of solute so that water is strongly bound 
Drying and Dehydration, Convective microwave drying, pasteurization and sterilizationOsmo-dehydration 
4
Production of  chemicals through fermentation which will be detrimental to the microbes causing food spoilage
PicklingControlled fermentationAerobic, Anaerobic
5
 Innovative methods
Irradiations, Dielectric, infrared and Ohmic heating
The document Methods and Principles of Food Processing (Part I), 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 Methods and Principles of Food Processing (Part I), Crop Process Engineering - Crop Process Engineering Notes - Agricultural Engg - Agricultural Engineering

1. What are the methods commonly used in food processing?
Ans. The methods commonly used in food processing include thermal processing (such as pasteurization and sterilization), drying, freezing, canning, and fermentation. These methods help to preserve the quality and safety of food products by reducing the growth of bacteria, yeasts, and molds.
2. What are the principles of food processing?
Ans. The principles of food processing are based on the understanding of the biological, chemical, and physical properties of food. These principles include heat transfer, mass transfer, preservation techniques, packaging, and storage. By applying these principles, food processors can ensure the safety, quality, and nutritional value of food products.
3. How does crop process engineering contribute to food processing?
Ans. Crop process engineering plays a crucial role in food processing by developing and optimizing processes that convert raw agricultural materials into safe and high-quality food products. It involves the application of engineering principles and technologies to enhance the efficiency and sustainability of crop processing operations, such as harvesting, sorting, cleaning, and milling.
4. What is the importance of food processing in the agricultural industry?
Ans. Food processing is important in the agricultural industry as it helps to transform raw agricultural materials into value-added food products. It extends the shelf life of perishable crops, reduces post-harvest losses, and enables the distribution of food products to distant markets. Additionally, food processing contributes to food security by providing safe, convenient, and nutritious food options to consumers.
5. How does food processing contribute to food safety?
Ans. Food processing contributes to food safety by incorporating various techniques, such as thermal processing, sterilization, and pasteurization, to eliminate or reduce harmful microorganisms in food products. It also includes the implementation of quality control measures, such as hygiene practices, product testing, and traceability systems, to ensure that food products meet regulatory standards and are safe for consumption.
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