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It is a set of methods and techniques used to transform raw material into processed food for consumption by humans or animals. Keeping the importance of the food in our life, it is very important that all people either engaged in food processing or not, should know about the importance of food processing in decreasing the post harvest losses of perishable horticultural commodities. But to understand the processing and its importance in decreasing post harvest losses of food crops, some sort of documentation is needed. A manuscript entitled “Innovations in Food Processing Industry” contains all important information related to innovative techniques being used in food processing industries. The book is comprised of 21 different chapters. Each chapter in the book has been well illustrated for better understanding with important MCQ at the end of chapter. We acknowledge from the core of our heart for the valuable guidance and support received from authors across the country and numerous literature who have contributed tirelessly in the field of food processing of horticultural produce. It is hoped that the book will be welcomed and its benefits will be availed by an increased number of students, researchers, teachers and all those who have interest in the subject. Although, every care has been taken by the authors while writing this text book even then spelling mistakes, overlapping; repetition of brief portion here and there could not be helped. Needless to say, errors and omissions are solely our. Constructive criticisms and suggestion by the readers are welcomed for improving the quality of manuscript. Reader's indulgence in this regard is highly solicited.

Introduction The food processing industry ranks fifth in size in the country and employs 16 lakh workers which is 19% of the country’s industrial labour. It accounts for 14% of the total industrial output with 18% of industrial GDP and 6.3% of countries GDP. So, food processing plays a vital role in India’s prosperity. The Food Processing Industry sector in India is one of the largest sector in terms of production, consumption, export and growth prospects. Food processing industry broadly comprises primary processing category and the other categories embracing the secondary, tertiary and further stages of downstream processing. Primary food processing is a major industry with lakhs of rice-mills/ hullers, flour mills, pulse mills and oil-seed mills. There are several thousands of bakeries, traditional food units and fruit/vegetable/spice processing units in the unorganized sector. In the organized sector, there are over 820 flour mills, 418 fish processing units, 6600 fruit/vegetable processing units and 171 meat processing units. Indian processing industries has installed capacity of 21 lakh tones; however these industries actually processed 9.8 lakh tones of the produce. So the total capacity utilization of industries is <30%. There are 70% units in home/cottage/ small scale sector and 30% units in large scale sector with capacity of 250 tonnes per annum and 30 tonnes/hr, respectively. Large scale contributes 70% of the production. The principal crops and commodities which constitute the primary base for the food processing industry and considered important sub-sectors in food processing industries are illustrated in Fig. 1.

Food Safety The term “safe food” has different standards to different consumers rather than just being the food handled and prepared through proper cleaning, washing and cooking. Safe food means food prepared on clean and sanitized surfaces with equipment, utensils and dishes that also are cleaned and sanitized. Nowadays consumers are extra conscious about the safety and quality of food and for that reason food safety issues have changed, so have society’s methods for making food as safe as possible. Accordingly, “food safety” means assurance that food is acceptable for human consumption according to its intended use (FSSAI 2017).

Introduction Many post-harvest treatments are applied to horticultural crops, either to maintain the quality (taste, colour, flavour, texture) or improve the visual appeal. Most important of these treatments are temperature management including the cold chain where the temperature of the crop is reduced rapidly and stabilize temperature after harvesting. Exposing the crop to high or low temperature and application of chemicals after harvest helps in managing/ prevent pest and diseases and sprouting occurrence respectively. Harvested produce must be handled with care at every stage to avoid the mechanical damage and subsequent fungal/bacterial infection. Adopting appropriate post-harvest handling operation will minimize the all ill effects of post-harvest (Fig. 1).

India is bestowed with huge production of fruits, vegetables, cereals, millets, sugarcane along with meat production, milk production, fish production and poultry. Despite such a huge production in India, owing to perishable nature of these produce around 25-30 percent of the produce is being lost as post harvest loss. The one important reason for this may be the production of the crops are season specific and during the peak season the production is more while demand for consumption is less. It may be possible to cut down these losses to great extent, if these produces may be transported from the produces states to those who are not producing due to agro-climatic reasons. So for making transportation of the perishable a successful venture in decreasing post harvest loss, there must be proper cool chain management facilities both at producing site as well as marketing place. The aim of the cool chain management must be to keep the produce in saleable condition during entire storage periods. Some products are stored for short period whereas fresh fruits, vegetables require cold storage. Foods before keeping into the storage room need some pre-storage treatments for better results.

Introduction Fruits and vegetables are essential constituents of daily diet and are highly demanded in the recent years from most of the population. They are reservoir of vitamins, essential minerals, antioxidants, bio-flavonoids, dietary fibres and f lavour compounds which fall easily victim to abiotic and biotic adversities. Fruits and vegetables are highly perishable and during the post- harvest, there are considerable losses due to microbes, insects, respiration and transpiration. The important quality factors of fresh produce contributing to the marketability are texture, colour, appearance, flavour, nutritional value and microbial safety. These quality factors are measured by plant variety, ripening stage, maturity stage pre-harvest and post-harvest conditions. The Post-harvest losses of fruits and vegetables are a serious problem because it rapidly deteriorates them during handling, transport and storage. Edible coating over fruits and vegetables are used to improve their quality and shelf life.

Introduction In this modern era, educated and health-conscious people are increasingly demanding such food products that preserve their nutritional value, retain a natural and fresh colour, flavour and texture, and free from chemical preservatives. Besides, urbanization has extensively affected the life-style of people all over the world. Competition has made their life extremely busy and time has become a very important factor. Hence, recently there has been increase in demand for ready-to-cook or ready-to-use fresh food products of fruits and vegetables along with convenience and safety. This new demand by consumers has opened a new avenue of food preservation known as minimal processing. The products prepared by this processing method are known as fresh cut or pre-pared products. Minimally processed products are also known as lightly processed, partially processed, fresh processed, fresh cut, and pre prepared. It can be defined in many ways for example as "least possible treatment to achieve a purpose". A more specific definition is as the method that "preserve foods but also retain to a greater extent their nutritional quality and sensory characteristics by reducing the reliance on heat as the main preservative action. In a broader way it can also be defined as the processed foods have been slightly altered for the main purpose of preservation but which does not substantially change the nutritional content of the food. Generally minimal processing involves cleaning, washing, trimming, coring, slicing, shredding before packaging and storage at specific temperature. Some of the examples of minimally processed fruits and vegetables include sliced mango cheeks/melons/papaya/apple, pieces of pomelo segments, peeled and cored pineapple, chilled peach, pomegranate arils dressing, shredded lettuce, shelled peas, cauliflower florets, peeled sliced potatoes, diced onion etc. Minimally processed products are important to food service industry such as eateries and catering companies as they offer many advantages over traditional products, with respect to convenience, expense, labor, and hygiene. Even if it is very much liked by people, the production of minimal processed products is limited due to rapid deterioration and short shelf life. Whereas most food processing methods stabilize the products and prolong their shelf-life, minimal processing of fruits and vegetables increases their perishability.

Need to Preserve Food Food is vital for human existence. Conservation and preservation of food is a prerequisite for food security and it provides economic stability and self reliance to a nation. The need to preserve food has been felt by mankind since time immemorial. The seasonal nature of production, long distances between production and consumption centers and rising gap between demand and supply have made this need even more relevant today. The hot and humid climate of a country like India is quite favorable for the growth of numerous insects and microorganisms that destroy stored crops and cause spoilage of food every year. Spoilage can also occur due to chemical and physiological changes in stored foods. Sea-foods, meat and poultry may carry harmful microbes and parasitic organisms that cause illnesses associated with their consumption. As in other parts of the world, India has also practiced various methods of food preservation such as sun drying, pickling and fermentation which were supplemented with more energy consuming techniques such as refrigeration, freezing and canning. Each of these methods has its merits and limitations. Man has always been on the search for newer methods to preserve foods with least change in sensory qualities. Radiation processing of food is one of the latest methods developed for this purpose.

Introduction The health and wellness of human being is largely dictated by the consumption of nutritious foods. Understanding the role of foods in maintaining health and cure of diseases has its roots in the ancient Hippocratic and Vedic texts as well as in the canons of Traditional Chinese Medicine (Sharma et al., 2012). Presently, the transition from a traditional to modern lifestyle, consumption of diets rich in fat and calories combined with a high level of mental stress has been the major cause of lifestyle related diseases like coronary heart disease, obesity, diabetes, cancer and hypertension (Moczara et al., 2012; Sharma et al., 2018). Various studies have linked foods as helpful in combating a number of such degenerative diseases (Sharma, 2015).Therefore, the tenet "Let food be thy medicine and medicine be thy food", quoted by Hippocrates about 2,500 years ago is receiving overwhelming interest. There are number of scientific reports emphasizing the importance of consuming biologically active ingredients present in fruits, vegetables, whole grains and legumes to reduce the risk of chronic diseases (Hasler 2002; Das et al., 2011; Sharma and Sharma 2016). Such biologically active ingredients are now popularly known as neutraceuticals. Whereas, the functional foods are the foods that resemble traditional foods but possess demonstrated physiological benefits. In some countries, however, functional foods and nutraceuticals are used interchangeably. Regardless, the main focus of such products is to improve health and reduce disease risk through prevention. The main difference of this category with pharmaceuticals is that they are multi-targeted mixtures and present at low concentration while pharmaceuticals are uni-targeted pure compounds with high dose use. Hence, an overview on the concept of nutraceutical and functional foods, their classification, development and regulations is summarized in this article.

Introduction It is the process of retaining food over a period of time without being contaminated by pathogenic organisms or chemicals and without losing its colour, texture, flavour and nutritious value. It involves preventing the growth of bacteria, fungi and other microorganisms, as well as retarding the oxidation of fats which causes rancidity. Objective • To increase its shelf life, retaining original nutritional values, colour, texture, and favour.  

Introduction Drying is one of the oldest methods of preserving food. Drying and dehydration both can be defined as the process of removing moisture from the foods. It is a simultaneous heat and mass transfer process, wherein heating medium or internal heat generation helps in evaporation of free water molecules from the product. Drying means removal of moisture of food upto a predetermined level where as in dehydration, complete removal of moisture upto bone dry weight of food material. Dehydrated foods have less than 2.5 % moisture content (dry basis) where as dried foods have dry basis moisture content more than 2.5 %. Drying operation consumes energy from 0.38 to 0.63 GJ/ton of food grain. Removal of water from foods using thermal energy thus makes it an energy intensive process. Modes of heat Transfer in various Driers are given in Table 1.Developments in dryer and methods, dryer selection based on form of raw material and typical residence time for various dryer are are given in Table 2,3 and 4, respectively.

Introduction The drying of fruits and vegetables during the season of abundance in order to preserve them for consumption during season of shortage is an ancient practice. Thus, drying is one of the oldest methods of preservation of the food commodities. It is practiced from ancient times and is a very common method of preservation in the tropical countries like India where conditions are much more favorable for sun drying. All micro-organisms need moisture to grow. So the removal of water in the food is brought down below a certain level at which they are unable to grow. Moisture content from food can be removed by different methods like sun drying (very oldest method and most popular), solar drying, cabinet drying, mechanical drying, tunnel drying, poly tunnel drying, adiabatic drying, spray drying, osmotic drying, fluidized bed drying etc. Grains are mostly dried in the sun. The moisture content of the grains can be reduced to a limit that is safer for their storage by sun drying. Many fruits and vegetables can also be dried by using sun energy. Some coastal areas of the countries fishes are also dried by exposing to the sun. After drying, sometimes the dried products are converted into powder. However, these powders are very hygroscopic and should be packed in airtight. Mango powder is prepared by this technique, but expensive and not popular in India. Nowadays many artificial methods have been developed for removal of the moisture. The relationship between the moisture content and temperature of air during process is referred as Psychrometric relation. An instrument used to measure the humidity (Relative humidity) of the atmosphere is known as Psychrometer (Hygrometer). The residual moisture in vegetable should not be more than 6-8% and in fruits it should be in the range of 10-20%. The dried fruit can be used as such or after soaking while dried vegetable are usually soaked in water overnight and then cooked. Vegetable are considered to be dry when they become brittle. There are generally two drying methods for foods like 1) Natural drying and 2) Artificial drying. The preservation / stability of the dehydrated products is conferred by the abstraction of water, so that the product is unable to support the microbial growth, its chemical forms of deterioration is inhibited and the drastic reduction in the weight / volume facilitate easier handling and marketing. Among dehydrated products, dehydrated onions have largest share of 45%. India is the third largest exporter of the onions in the world next to the Netherland and Spain. Besides this, India exports dehydrated bell pepper, garlic and mushrooms.

Introduction The process of concentrating a fruit juice / pulp, vegetable juice, medicinal plant extracts or milk to a reasonably thick consistency is called concentration. Thus, concentration is a water removal process from the liquid food materials. The basic principle of concentration is boiling the liquid under partial vacuum at low temperature till desired concentration is reached. With respect to water removal, the concentration process is similar to dehydration. The food concentration is distinguished from drying on the basis of the finished product where the final product called concentrate is still liquid. In concentration process, only liquid food is used while in drying both liquid as well as solid food can be used. Fruit juice concentrates, milk concentrate are valuable semi-processed products for use in the production of value added products like fruit juice beverages and fruit juice powders. Since the water content of single strength fruit juices is very high (about 75-90%), concentration of fruit juices not only provides microbiological stability but also permits economy in packaging transportation, and distribution of the finished product due to reduction in bulk by weight and volume.

Introduction Fermentation is playing an important role in the human life and is evident from the fact that food can be both spoiled and made by fermentation. A wide range of the fermented food products are consumed by the consumers in their daily routine. It is one for the oldest and ancient method of food preservation. It may have been a mere accident when people first experienced the taste of fermented food. Fermentation became popular with the dawn of civilization because it not only preserved food but also gave it a variety of tastes, forms, and other sensory sensations. Fermentation, along with salting, cooking, smoking, and sun drying, is one of the earliest ancient traditions developed by cultures all around the world to extend the possible storage time of foods. Slowly, people have realized the nutritional and therapeutic value of fermented foods and drinks, and this has made fermented foods even more popular. Bread, beer, wine, and cheese originated long before Christ. Although modern food technology has contributed to the present day high standard of quality and hygiene of fermented foods, the principles of the age-old processes have hardly changed. In industrialized societies, a variety of fermented foods are very popular with consumers because of their attractive flavor and their nutritional value. During food fermentations, the controlled action of selected micro-organisms is used to alter the texture of foods, preserve foods by production of acids or alcohol, or to produce subtle f lavours and aromas which increase the quality and value of raw materials. After drying, fermentation is the world’s oldest food preservation method.

Introduction Color is an important characteristic of food. Based on the color of the food, f irst impressions are made: Is the fruit immature, ripe, or overripe? Is the toast burnt? Is the food fresh? Based on these first impressions, a judgment is made whether the food is safe to eat or not and whether it can be expected to taste good or not. Since color is closely associated with expectations, the addition of color to food is a way to fulfill these expectations. Color is added to food for one or more of the following reasons: 1. To replace color lost during processing, 2. To enhance color already present, 3. To minimize batch-to batch variations, and 4. To color otherwise uncolored food.

Introduction Packaging is one of the most important processes to maintain the quality of food products for storage, transportation and end-use. The basic functions of packaging are considered as protection, containment, information and convenience. Food packaging was initially considered to increase the marketable life of the food in a container by protecting it from the influence of the environmental factors. Then it was expected to be informative, easy-to handle and disposal-friendly with increased functionality. Current innovations of food packaging technology are geared to ensure one/ all of these properties along with better protection, more efficient quality preservation and enhanced safety of the packaged food. Innovative packaging technologiesalso prevent the rate of quality deterioration and facilitate easy handling of the produce during distribution and marketing. During distribution, the quality of the food product can deteriorate biologically and chemically as well as physically. Innovative packaging technologies are the most important and challenging technologies to overcome these limitations.These technologies require specific knowledge and appropriate training and understanding for rationally selecting the most suitable packaging for each product and intended use. Innovative packaging of foods includes active packaging, smart packaging, on-the-go packaging, intelligent packaging etc. which have been briefly discussed in this manuscript.

Introduction How one can differentiates between sensory science and sensory evaluation? Perhaps the simplest way would be to think of sensory science as the fundamental physiological and psychological underpinnings of sensory evaluation. It could include our basic understandings of the mechanisms of taste and odour, kinesthetic and the various techniques of scaling and statistical analysis, whereas, sensory evaluation could designate the application of this knowledge and the development of specific methods for the evaluation of the discriminative, descriptive and affective nature of products, in a problem-solving situation. When the quantitative descriptive analysis (QDA) methodology was f irst described, it represented a decade of experimentation and study of the issue that were perceived at the time to be impediments to solving “the problem of flavour characterization” (Stone et al., 1974). As noted by Pangborn (1964), new developments and knowledge about sensory evaluation were beginning to have a positive effect on its acceptance by industry, but much more needed to be done if it was to contribute in a meaningful way. Today, it is indisputable that flavour is an important attribute affecting consumer acceptance of food. “Flavour is taste plus odour”. The perception of taste is merely the detection of non-volative tastants by the tongue. On the other word, the perception of odour is the detection of odoriferous volatile aroma compounds by the olfactory nerves ending in the nose. The combination of all possible flavour stimuli we could encounter is as vast as the galaxy. However, most of the attempts to define these experiences have historically been over simplified.

Introduction Increased awareness about the food safety and various adulterations or crises reported in food industries, the food quality and its safety has emerged as the most important features of the modern food processing and preservation. The important historical dynamics which raised the concerns of food safety were motivated by accidents related to food borne pathogens and chemical contamination during the food processing and distributions. Many times, the terms food quality and safety are interchanged however, there is a difference in terms of their perception by the consumers and manufactures. In past few years, the food safety has become the characteristic of food quality and has been regulated by various national and international agencies. The increased concerns about the safe, nutritious and high quality food has over the time forced the public authorities to engage the food industries to construct the quality management systems in order to improve the food safety and build the consumers believe and trust towards processed foods. Food quality is a broader concept which includes food health quality attributes along with parameters like sensory characteristics like taste, smell and convenience like food preparation (Röhr et al., 2005). The food qualities like nutritional, convenience and sensory are not requested by the public laws but are desired by the consumers. The management systems for the quality assurance have evolved over the time and now we have systems like HACCP. ISO 9000 and ISO 14000 in place which are well known quality management modules to ensure the elimination of food hazards. On a broader scale of trading food several technical agreements under WTO (world trade organization) have been made which provide equal opportunities to all countries to trade the goods however, it imposes the similar food quality standards across all the participatory members. The responsibility of food safety is directly connected with all the stakeholders of the food chain which include manufactures, processors, farmers, food handlers and finally the consumers. Food contaminations may be a result of poor manufacturing practices and poor storage and handling practices at any stage in the food chain. To ensure the safety compliances, national food regulatory models plays a significant role. The guidelines issued by FAO/WHO, 2003 are focused on the public organizations, as well as food control authority self-assessment to ensure highest food quality and its safety from farm to fork. The base of the assessment includes 6 factors viz. food inspection, food quality management, food safety, official food control laboratories, food legislation food and quality information, education and communication (Shukla et al., 2014).For effective implementation of the food safety and quality module the countries have developed various food laws and legal norms which states the principles to be followed for raw materials, their processing and distribution in order to achieve the consumer expectations as well as the hidden food safety concerns.

The production of fruit and vegetables has recently increased significantly and even surpassed the total grain production in the country due to increased awareness of consumer and positive government initiatives (Schieber et al., 2001; Sagar et al., 2018; Malenica and Bhat, 2020). But due to limited production and area, the importance of excess production during a particular season and waste management arises at highest priority level. Moreover, fruits and vegetables waste are a serious problem for environment as most of themare being disposed of as landfills or directly disposed off to water bodies such as rivers (Wadhwa and Bakshi, 2013). Fruits and vegetables are perishable in nature and rich source of nutrients and vitamins, which results in microbiological contamination (Coman et al., 2019; Bas-Bellver et al., 2020). Foods wastes are usually organic residues generated by the processing of raw agricultural materials into food and are made up of liquid (wastewater) and solids (Bas-Bellver et al., 2020). The wastewater results from the cleaning processes or in the form of excessive or polluted process water. Its dry material content is typically less than 5% by mass. It possibly also contains organic or inorganic cleaning agents or disinfectants. Solid food wastes with an organic origin have remarkably high water content (mostly about 80% by mass). They are usually characterized by a constant quality and purity due to the forgone processes. The fact that these substances are removed from the production process as undesirable ingredients makes them, wastes.

Introduction It is the process of retaining food over a period of time without being contaminated by pathogenic organisms or chemicals and without losing its colour, texture, flavour and nutritious value. It involves preventing the growth of bacteria, fungi and other microorganisms, as well as retarding the oxidation of fats which causes rancidity Objective • To increase its shelf life, retaining original nutritional values, colour, texture, and favour.

Introduction Citrus fruits are acidic, exotic fruits with juicy, bitter, fruit segments inside. Citrus fruits commonly originated in tropical and sub-tropical regions of the world. They have long been valued as part of a nutritious and tasty diet. The f lavours provided by citrus are among the most preferred in the world, and it is increasingly evident that citrus not only tastes good, but is also good for people. Citrus fruits have certain therapeutic properties such as antitumor, anti-inflammatory and anticancer, due to phytovitamins and nutrients present in them.  

Food Business Regulatory System in India In India Food Businesses are regulated by only One authority i.e. Food Safety and Standards Authority of India (FSSAI). This comes under the control of Ministry of Health and Family Welfare of the Govt. of India. FSSAI – Food Safety and Standards Authority of India The FSSAI or Food Safety and Standards Authority of India was incorporated under the Food Safety and Standards Act (FSSA) of 2006. It consolidated various acts & orders that were previously applicable and used to handle food related issues in different Ministries and Departments. The basic objective of formulating FSSAI has been to lay down science-based standards for items of food and to regulate their manufacture, storage, sale, distribution, and import to ensure the availability of adulteration-free and wholesome food for human consumption.

A  Absorbent Paper 52  ACC 101  Accelerated Electrons 108  Acidifying 7  Acoustic Methods 49  Acrylamide 25, 26, 179  Act 7, 10, 62, 74, 78, 95, 96, 98, 101, 105, 111, 116, 123, 131, 148, 204, 208, 230, 243, 257, 258, 260, 261, 285, 287, 292, 294, 295, 296, 297, 298, 307  Active Packaging 225, 226, 227, 228  Adulteration 111, 249, 258, 297  Advanced Countries 2, 80  Aflatoxin 24, 26, 50  Agar 92  AGMARK 260, 261  Air Cooling 36, 37, 38, 39, 40, 61, 64, 74  Alcoholic & Non-Alcoholic Beverages 3  Alcoholic Beverages 3, 4, 27, 197, 203, 204  Alginate 88, 91, 93, 94, 226, 227, 278 Allergens 22, 24, 26, 27, 30  Aloe Vera 93, 94, 95, 119  Alternaria Rot 54, 66  American Dietetic Association 116  Animal Feed  266, 288  Animal Feeds 11, 288  Anthocyanidins 125, 217  Anthracnose 50, 53, 54  Anthraquinone 217, 219  Antibiotic Resistance 30  Anti-Nutritional 12, 16, 127  Apple 3, 36, 45, 46, 47, 48, 49, 50, 51, 55, 61, 66, 67, 68, 69, 70, 74, 75, 77, 78, 80, 81, 82, 86, 87, 92, 93, 94, 97, 99, 101, 127, 137, 178, 179, 196, 201, 241, 268, 269, 270  Aqueous Extraction 220  Aspergillus Niger 54, 206, 269, 288 Atomizer 159, 160, 221  Audits 257, 322  Auxins 101  AVG 102  Azo-Dyes 212