Food Technology | Chemical Technology - Chemical Engineering PDF Download

34.1 Introduction

Food technology has evolved into an interdisciplinary area of applied science and engineering based on chemical engineering and food science. India is primarily based on agriculture. The demand for uniform and high quality  food round the year even at remote places from production centre has led to improved food processing technologies. Food industries are almost double the size of chemical industries.

34.2 Food industries can be divided into following sections: 

  • Consumer food industry (confectionaries, cocoa products, bakery products, soft drinks etc.)
  • Grain processing
  •  Marine products
  • Dairy products
  • Poultry and meat products
  • Fruit and vegetable processing
  • Fats and oils
  • Sugar

34.3 Emphasis of food industries 

Food industries emphasize on four different operations namely food storage, food processing,  food transport and food preservation. 

(i) Food storage

Food storage includes improved storage of food such as refrigeration cycles, refrigerants, and better insulation. Food industries process the raw materials as soon as they are recovered. Sometimes due to unavoidable circumstances such as early arrivals, non-availability, market price considerations which change according to time, the raw materials have to stored before processing.

The storing area should be well ventilated, shaded, should use water baths, and if necessary, cold storage must be used. Before storage, all bruised, shriveled, discolored or soured portions should be removed.

(ii) Food Processing
Food processing involves conversionof raw plant and animal tissues into edible ingredients and separation of inedible and hazardous components, extraction or concentration of nutrients, flavors, colors and other useful components and removal of water.

Table:Classification of Unit Operations of Food Processing

Group of Operations

Typical Food Processing Operations

Mechanical Transport

Pumping of Fluids

Pneumatic Conveying

Hydraulic Conveying Mechanical Conveying

Mechanical Processing

Peeling, Cutting, Slicing

Size Reduction

Sorting, Grading

Mixing, Emulsification Agglomeration

Extrusion, Forming

Mechanical Separations

Screening

Cleaning, Washing

Filtration

Mechanical Expression Centrifugation

Heat Transfer Operations

Heating, Blanching

Cooking, Frying Pasteurization

Sterilization

Evaporation

Cooling, Freezing, Thawing

 

Mass Transfer Operations

Drying

Extraction, Distillation Absorption, Adsorption Crystallization from Solution

Ion Exchange

Membrane Separations

Ultrafiltration

Reverse Osmosis

Non-Thermal Preservation

Irradiation

High Pressure

Pulsed Electric Fields

Packaging

Filling, Closing

Metallic, Plastic Packages

Aseptic Packaging

 
Types of food processing: 
(a) Refining and Milling
(b) Canning
(c) Concentration
(d) Freezing
(e) Drying
(f) Pasteurization and sterilization
(g) Fermentation
(h) Irradiation
(i) Packaging
 
(a) Refining and Milling:
  • Sugar obtained from sugar cane is converted to final sugar by refining process.
  • Milling is the process of converting grain into powder (flour) by mechanical means.
  • In milling operation, grain is cleaned and crushed between two steel rolls. 

(b) Canning:

  • Fresh food like fruits, vegetables, meat, fish etc. are preserved for long time storage by heat treatment and sealing into air-tight containers.
  • These cans may be made by tin, untinned steel, which is often plastic-lined, aluminium or glass.
  • Heat treatment is given to the container by placing them in a steam pressure vessel at a temperature of 121˚C depending on container size and nature of food. · The toxin produced by microorganism is clostridium botulinum. Therefore processing must be done to destroy this organism.

(c) Concentration:

  • Foodstuff which naturally contains high percentage of water is concentrated before preservation.
  • Milk is evaporated from 8.6% solid content to 45% solid content.
  • Fruit juices are also concentrated before marketing.
  • Usually the volume is reduced to one- third of the original volume.
  • For food concentration three processes are available- evaporation with evaporators, reverse osmosis and freeze concentration.

(d) Freezing:

  • Freezing does not kill the microorganisms which cause spoilage, but freezing inactivate microorganisms.
  • Nutrients are not destroyed by freezing.
  • Inactivation of enzymes by heat treatment(blanching) is done before freezing to prevent unwanted changes.
  • To improve the quality of final product, the amount of water in food is reduced before freezing.

(e) Drying:

  • Cereal grains, fruits, pastas, milk, coffee, tea, some vegetables and meats are dried.
  • After drying volume is reduced to one tenth of the original volume.
  • Dried foods are easy to transport and store.
  • The nutritive value of dried food is usually unchanged but vitamin content is reduced.
  • Microbial growth is controlled.

(f) Pasteurization and sterilization: 

  • Heat treatment inactivates the microorganisms but changes the taste of food and its appearance.
  • The high temperature short time(HTST) method  exposes the milk to 73˚C for not less than 16sec, followed by rapid cooling. This process is called pasteurization.
  • Pasteurization kills pathogenic (disease causing) microorganisms, eliminates food borne disease and inactive enzymes.
  • Milk can be stored for several months at room temperature.

(g) Fermentation:

  • All organisms are not detrimental.
  • Fermentation produces carbon dioxide but no putrid odor.
  • Fermentation is decomposition of carbohydrate.
  • These industries produce vinegar, wine, beer and other alcoholic beverages. It is also used in making bread, cheese, salting of food etc.

(h) Irradiation:

  • Irradiation is required to kill microorganism present in food.
  • Irradiation is used to preserve proteinous food such as meat, fish, fresh fruits, vegetables, flour, spices etc.
  • Irradiation doesnot denaturate protein, does not alter taste and does not leave any radioactive residue in the food. 
  • Loss of vitamins is less as compared to canning, freezing or drying.

(i) Packaging:

  • The objective of packaging is to store and transport safely without deterioration of food.
  • Containers are sealed so that no outside contaminant can enter and cause food spoilage.
  • Cardboard boxes, cans, glass bottles, polythene, plastic coated paper, finely woven cloth are commonly used for packing. 
The document Food Technology | Chemical Technology - Chemical Engineering is a part of the Chemical Engineering Course Chemical Technology.
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FAQs on Food Technology - Chemical Technology - Chemical Engineering

1. What is food technology?
Ans. Food technology is the application of scientific and engineering principles to the production, processing, preservation, packaging, and distribution of food. It involves the use of various technologies and techniques to ensure that food is safe, nutritious, and of high quality.
2. How does food technology benefit society?
Ans. Food technology plays a crucial role in improving food safety, extending shelf life, enhancing nutritional value, and meeting the growing demand for convenient and ready-to-eat food products. It helps in reducing food waste, improving food security, and ensuring that food reaches consumers in a safe and efficient manner.
3. What are the primary responsibilities of a chemical engineer in the food technology industry?
Ans. Chemical engineers in the food technology industry are responsible for designing and optimizing processes for food production, ensuring that food products meet quality standards, developing new food products, improving food preservation methods, and ensuring the safety and efficiency of food manufacturing processes.
4. How does chemical engineering contribute to food safety?
Ans. Chemical engineering plays a vital role in ensuring food safety by designing and implementing processes to eliminate or reduce harmful microorganisms in food, developing and implementing food safety regulations and guidelines, and conducting research to improve food safety practices and technologies.
5. What are some emerging trends in food technology and chemical engineering?
Ans. Some emerging trends in food technology and chemical engineering include the use of novel food processing technologies such as high-pressure processing and cold plasma treatment, the development of plant-based and alternative protein sources, the utilization of biotechnology for food production, and the application of artificial intelligence and data analytics in food processing and quality control. These trends aim to address challenges such as sustainability, food security, and the demand for healthier and more sustainable food options.
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