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FOOD PROCESSING AND PRESERVATION TECHNOLOGY

Kshirod Kumar Dash , Mudasir Ahmad Malik
  • Country of Origin:

  • Imprint:

    NIPA

  • eISBN:

    9789395763073

  • Binding:

    EBook

  • Language:

    English

  • DOI:

    10.59317/9789395763073

Individual Price: 282.00 USD 253.80 USD

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The book in question delves into the recent advancements in the domain of food processing, highlighting the state-of-the-art technologies and research studies in this field. Comprising of seventeen comprehensive chapters, the book covers a wide range of topics, including the drying of various food products, the development of value-added food products from by-products of the food industry, and the formulation of functional beverages.

Furthermore, the book addresses the utilization of underutilized food crops for incorporation into the human food chain. The text explores various drying methods, such as micro-oven drying, electrohydrodynamic drying, and thin-layer drying kinetics, and their impact on the quality of dried food products. Additionally, the book discusses the potential of fisheries waste as a source of valuable resources for sustainable development.

In addition, the book presents techniques for the development of food products using millet, chai, and amaranth flour, as well as flavor encapsulation and carbon nanotube technology. The text also covers quality changes in food products during storage and strategies for preventing quality loss during storage.
 

0 Start Pages

Food is an essential part of for human being and unsafe food is completely unacceptable. Unsafe food becomes the course of disease and death rather than the source of nourishment and enjoyment. Hundreds of thousands of deaths occur every year due to unhealthy foods. Food contains the essential elements required for the living being and their quality and quantity is essential for optimal growth. The growth of microorganism particularly the microorganism of public health concern on the food make the food unsuitable for the consumption for humans. So, the need of hour is to prevent the growth of these microorganism on the food and prevent food from been contaminated.Additionally, food being itself a living thing deteriorates itself with time due to the presence of inherited enzymes. The growth of microbes and activity of enzymes can be prevent using different methods. Methods commonly used are based on the principle to reduce the favourable condition present in food, which prevent the growth of microbe and decreases the rate of biochemical reactions but these methods alter the properties of food like texture, and also results in loss of nutrients. So, in order to enhance the shelf of food products without compromising on the textural and nutritional loss, advancement in the processing of food product is imperative.

 
1 A Comparative Study on Physico-Chemical, Textural, and Thermal Properties of Fresh, Micro-Oven Dried and Hot-Air Oven Dried Papaya Seed
Pritam Sekhar Sarma, Prakash Kumar Nayak, Keasvan Radh Krishnan, Raju Sasikumar, Thameridus B. Marak

Introduction Papaya fruit is listed under the family Caricaceae. This family has total four genera all over the world. There are about four species found in India under the Carica L. genus. Carica papaya L. is one of the species among them and it is most widely cultivated and very well-known species in India (Kumar and Devi, 2017). It has a thin, little shiny, and green-colored peel which turns into orange colored after ripening. The size of the fruit varies from 5.5 to 5.9 cm in terms of diameter. Papaya has several industrial applications in food processing, pharmaceutical as well as cosmetic industries. According to the FAO (Food and Agriculture Organization, 2013), India, Indonesia, Brazil, the Dominican Republic, Nigeria, and Mexico are the countries that produce the largest number of papayas in the world, India being the largest producer (4457.1 tonnes) followed by Brazil (1859.3 tonnes) in the year 2011.

1 - 20 (20 Pages)
USD34.99
 
2 A Concise Overview of Novel Dehydration Method Electrohydrodynamic Drying (EHD) in Context of Food Products
Shivmurti Shrivastav, Monarch Shah

Introduction The method of drying is expressed as applying heat under controlled conditions to remove the water or moisture from foods to get a dry product with low moisture content. The primary commitment of drying is to extend the shelf-life of foods by diminishing their water activity. Due to low water activity, microorganisms which cause food spoilage and decay and many of the enzymes which promote undesired changes in the chemical composition of the food are unable to grow, multiply or function. The need for drying in the food industry is increasing day by day, and Novel dehydration techniques are being invented for a more efficient drying process, less energy-consuming, and preserve the product characteristics and nutritional profile. Further, the drying technology is critical for moisture removal from food and non-food materials. Small scale farmers use this food preservation method as an indigenous method and the food processing industry as modern technology. Dried products have numerous benefits compared to raw products, including an extended shelf-life and reduced packaging, storage, handling, and transportation costs. However, drying is a highly energy-intensive food processing operation.

21 - 34 (14 Pages)
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3 Thin-Layer Drying Kinetics of a Functional Fruit Leather
Onkar Sarma, Mohit Kundlia, Charu Lata Mahanta

Highlights • Banana leather can be enriched with microencapsulated ? – 3 fatty acid for value addition. • Blanching can destroy more than 80% of vitamin C content. • Henderson and Pabis model can better predict the drying kinetics of banana leather. Introduction The ever increasing demand for functional foods having numerous health benefits has been an active research ground for the food scientists around the globe. Till date, many food products have been formulated to deliver functionalities by value addition with bioactive compounds (Carvalho Barros et al., 2020). These products have been extensively studied and proved to be beneficial, especially for elder age group against various metabolic syndrome and health complications. Functional foods are edible products fortified with compounds having additional health and safety benefits such as vitamins, minerals, and bioactive compounds (Granato et al., 2020). One such example of a nutritionally dense food product with the potential of fortification to meet certain health benefits is fruit leather.

35 - 58 (24 Pages)
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4 Different Techniques and Modeling of Polyphenols Extraction from Fruit Peels
Mriganka Shekhar Borah, Ajita Tiwari, Kshirod Kumar Dash, C.B. Khobragade

Introduction Fruits and vegetables are basic foods for human physical health since they have a wide range of flavours and are linked to a higher quality of life. Horticultural crops are known to reduce the risk of a variety of chronic diseases. Recognizing the importance of fruits and vegetables in the human diet, demand for these horticulture food products has skyrocketed. The demand for fruits and vegetables has expanded significantly as a result of greater consumer awareness of dietary habits, the benefits of eating fruits and vegetables, and an increase in the global population. According to research by the Food and Agriculture Organization (FAO), horticulture product production for 2019 is expected to be 314.5 million tonnes, which is roughly 1% more than the global fruit and vegetable (F&V) production in 2017–2018. (FAOSTAT-FAO statistical database, 2019). Over 67 % of the world’s horticulture produce is produced in China, India, the United States, Turkey, Russia, Vietnam, and Mexico (Paggiola et al., 2016).

59 - 74 (16 Pages)
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5 Microencapsulation Techniques for Preservation of Bioactive Compounds from Edible Flowers
Kasturi Pusty, Ajita Tiwari, Kshirod Kumar Dash

Introduction The Indian culinary world may have just recently embraced the concept of edible flowers, but they have been a part of traditional Indian cuisines since the beginning. Flowers have been used in human diets and gourmet preparations for thousands of years (Fernandes et al., 2020). However, due to increased consumer knowledge about the effects of nutrition on human health, there is a growing trend in utilizing flowers for edible purposes (Chatzopoulou et al., 2020). Edible flowers were used as a relish and flavour enhancer in many savoury and sweet meals in ancient Rome and Greece. In China’s ancient texts and classics, the words and phrases regarding edible blossoms were also recorded by Zhao et al. (2017). Edible flowers come in a wide variety of colors and cooking ways in different nations. Flowers, such as Osmanthus fragrans Lour and Flos Sophorae, have been employed as basic ingredients in a range of Chinese cuisines (Cunningham, 2015). The people of Rome used flowers in cooking. They make salads using violets and roses and sauces using lavenders. Flowers from pumpkin and squash plants have long been used as ingredients in the United States. People consume aromatic flower buds and unopened blossoms in El Salvador and Honduras. Blossoms are frequently used to garnish food at aristocratic banquets and feasts across Europe. Dandelion (Taraxacum officinale) flowers are also added to beverages and salads in many parts of the world.

75 - 86 (12 Pages)
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6 Carbon Nanotube: Trending Scenario in Food and Agriculture
Lakshmi Durga Mattaparthi, Lalita, Aseeya Wahid, Shilpa S Selvan, Abhishek Patel, Gottam Kishore, Puneet Kumar

Introduction Nanoscience is a competitive and trending concept in present scientific community, especially in agricultural and allied sciences. The usage of nano-sized materials in food processing sector spreading slowly. With the passage of time and innovation continuation in nanotechnology creating interest to develop miniaturized sensors. Miniaturized sensors have lots of benefits like reducing bulkiness with low power consumption and this eventually reduces the cost. Generally inorganic semiconductors are widely used to develop nano sensors. Generally, sensors are composed of two basic unit which are an identification element and a signal transducer element. Due to its simple structure, high portability and low price, can benefitted against disadvantages of existing system, which are costlier and much more popular. High portability, ease of placement and use make it suitable for onsite use with real-time monitoring. Also, helps in qualitative and quantitative analysis of such substances during analysis of foods which may cause danger and thus inhabit a wider research and development space. For the detection of different unwanted materials or compositions in food, various chemical or biological sensing devices based on different working principles have been developed. The carbon-based nano material can be categories as Ordered Mesoporous Carbon, Carbon Nanotubes, Graphene and Its derivatives, and Carbon Dots.

87 - 96 (10 Pages)
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7 Development and Validation of F Value Calculator for Pasteurization of Crab Meat
R. Harini, N. Manimehalai, K. Rathna Kumar, Mohammed Tanveer

Introduction Sea food processing is one of the major contributors in food processing sector. The purpose of seafood processing is to prevent the wastage and prolong the shelf life of highly perishable commodity. It also increases the economy of the country through exports (Gopal et al., 2014). India produce 9.6 million MT of sea food during the every year and is one of the largest fish producers in the world. 23% of marine products are processed currently in India (Sathianandan, 2017). Pasteurized crab meat is one type of processed marine commodity exported from India. Globally, the pasteurized blue crab and swimming crabs are the major contributors to the economic wellbeing of the seafood industry. In India, pasteurized crab meat industries are significantly contributing to the export markets. Among the crab export, 70-80% is exported as pasteurized crab meat (Jebadurai17, 2014).

97 - 112 (16 Pages)
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8 Fisheries Waste: A Source of Valuable Resources for Sustainable Development
Anamika Yadav

Introduction Aquaculture is one of the world’s fastest-growing food industries, providing a sustainable source of income for millions of people (Mohanty et al., 2018, Troell et al., 2014; FAO 2018). From the total world’s production around 33% of the all harvested fishes are not only utilized for human utilization for different reasons like size, species, quality, amount, non-accessibility of handling or transportation office. Today, waste generated from fish processing is a major source of pollution in the environment. Even when excellent grade fish is produced, only 50% of it is consumed by humans, with the remainder being discarded as waste. These wastes, which are dumped in an open environment without being treated, produces foul odour, which, as previously said, might be a reason of environmental pollution, water pollution and other municipal difficulties. Fish meal and oil made from low-grade fish and discarded fish parts not only solves many of these health and environmental issues, but also boosts the fishing and fish processing sectors’ overall revenue. With the rapid build-up in yearly extraction since 2000, global usage of natural resources has increased dramatically in recent years, reaching 92.1 billion tonnes and resulting in a 254% rise from 27 billion in the nineteenth century (Coppola et al., 2021). As a result, the research is stepping up its attempts to develop a circular bio-economy that aspires to increase the value of material flows while also achieving sustainable consumption and production. It is a new idea that is gaining traction for the goal of ensuring human quality of life through the effective and sustainable use of resources, energy, and infrastructure.

113 - 128 (16 Pages)
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9 Effect of Substitution of Chia Flour and Germinated Amaranth Flour on The Quality Characteristics of Noodles
Ritika B. Yadav, Indu Panchal, Jyoti Narwal

Introduction Noodles have received importance worldwide due to their particular taste, flavor, convenience, consumer acceptance, and low cost. The noodles generally come under the category of unhealthy and junk food because of high carbohydrate content and low vitamins, minerals, and fiber content (Park et al., 2011). Due to the increasing popularity of instant noodles, many people are becoming more prone to various health problems. The substitution of various ingredients to wheat flour noodles is increasing by incorporating different pulses, cereals, and pseudocereals to improve the nutritional properties and also make them health food. Among the pseudocereals, the use of amaranth and chia seeds in food products has been increasing because of their high nutritional value and good health benefits. Their proteins have well-balanced amino acids with a high content of essential amino acids and also good bioavailability (Lopez et al., 2019). These pseudocereals are also gaining importance due to their high content of phytochemicals and other macromolecules. The amaranth (Amaranthus sp) seeds are spherical and small, having approximately 1 mm diameter with a creamish to light reddish color. The composition of amaranth flour includes amylose (7.05%), proteins (15.27%), fat (7.33%), crude fiber (2.04%), and ash (2.93%) (Siwatch et al., 2019).

129 - 144 (16 Pages)
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10 Effect of Gaseous Ozone Treatment on The Phytochemical Status of Chickpea Grains
Nickhil C, Debabandya Mohapatra

Introduction Pulses are a vital source of protein (20-25%) in comparison to cereal proteins (10-12%); which cater to the most vegetarian population (Venkidasamy et al., 2019) and other countries which are scarcity of animal protein availability. In the category of pulse crop, chickpea is considered the second utmost significant crop, which is grown in almost 35 countries globally. Chickpea mainly contains carbohydrates, protein, minerals, vitamins, dietary fiber, folate, β-carotene and health-promoting fatty acids (Badshah et al., 2003; Tosh & Yada, 2010) and consuming these grains will repeatedly help in lowering the risk of chronic diseases (Jukanti, Gaur, Gowda, & Chibbar, 2012). Ozone is often regarded as a potent oxidant capable of penetrating the grain (Tiwari et al., 2010), and it can control the bio-agents such as insects, molds, and mycotoxins (Wang et al., 2016). Due to the fact that ozone gas is unstable, it convert back into oxygen without leaving any residues in short time (McClurkin, & Maier, 2010), so, it can be used as a fumigant without leaving any residue. The Food and Drug Administration (FAO) has approved it for fumigating grains, fruits, and vegetables.

145 - 155 (11 Pages)
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11 Evaluation of Quality Changes Broken Rice-Barnyar Millet-Green Gram Based Extruded Snacks During Storage
Nisha R, Nickhil C, Pandiarajan T

Introduction In today’s environment, the greatest challenge for the food industry is to develop health promoting foods; it is determined by the raw materials used and its impact on consumer health. Furthermore, people lifestyle has changed greatly, resulting in a change in food eating patterns. In today’s world, people are moving towards eating foods that are nutrient base and tasty (Bonciu, 2018). of all the nutrient based products available in market, expanded snacks have become a popular snack all over the world because of its crunchy texture and low density making it consumer’s acceptance (Grasso, 2020). The basic idea for developing any expanded snacks is utilizing a starch-based material for a better crispy and crunchy product, but to make it more nutritious incorporation of protein and fibre rich raw materials is recommended (Gu et al., 2017). Along with the raw materials, the other important parameters for developing any extruded product is the particle of the flour, its physicochemical and rheological properties of the extrudates are much concentrated (Bouasla & Wójtowicz, 2021) Thereby, extruded snack is considering as functional food with major health benefits.

155 - 168 (14 Pages)
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12 Effect of Preservatives for Edible C-Phycoerythrin from Cyanobacterium Anabaena sp. BTA-903
Pinku Chandra Nath, Onkar Nath Tiwari, Tarun Kanti Bandyopadhyay, Biswanath Bhunia

Introduction In latest years, there has been an upsurge in customer situation over using artificial colorants in foods, especially on the subject of healthiness and safety issues (Amchova, Kotolova, & Ruda-Kucerova, 2015). Dietary colorants have been banned or regulated by the European Food Safety Authority (EFSA) and various other national authorities throughout the world because to their confirmed or suspected link to enhanced cancer progression or adverse reactions. For the same motives, various pigments are being investigated and are most effective provisionally authorized at this time. Consequently, the use of natural additives in food production is becoming increasingly popular among food companies (Schwartz, Joachim, & Giusti, 2007). Red C-PE is the most extensively used colour and has various application in food, cosmetics, and pharmaceutical industries; however, because they are rare in nature, they must be synthesized. Therefore, the food sector is expressing an increasing interest in the finding, application, and stabilizing of natural red colorants, which are currently in high demand. A growing number of commercial companies are turning to cyanobacteria for colour extraction, including Spirulina sp. for the extraction of Phycoerythrin, Haematococcus sp. for the extraction of astaxanthin pigments, and Dunaliella sp. for the extraction of beta-carotene pigments (Sharma et al., 2021).

169 - 180 (12 Pages)
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13 Food Flavour Encapsulation- An Emerging Technology for the Improvement of Their Stabilization
Mumtahin Ul Kousar, Abida Jabeen, Aasima Rafiq, Miffta Yaseen, Taha Mukhtar

Introduction Flavour has a significant impact on consumer pleasure and subsequent food intake. Chemical synthesis or extraction are used to create the majority of accessible fragrance molecules. Synthetic flavourings are frequently shunned by customers who believe that hese compounds are harmful or pose a health risk to them. (Teixeira et al., 2004). The association between flavour stability and food quality and acceptance has piqued researchers' interest, yet it's tough to control. Food manufacturing and storage procedures, packaging materials, and ingredients frequently alter overall flavour by lowering the intensity of aroma compounds or introducing off-flavor components (Lubbers et al.,1998). Because there are so many variables in flavours, they constitute extremely complicated systems. Some are more stable in water soluble carbohydrates, whereas others are more stable in lipid-based coatings. Physico-chemical characteristics, concentration, and interactions of volatile aroma molecules with food components are just a few of the aspects that determine the overall quality of the food. It's a good idea to encapsulate volatile components before using them in foods or beverages to prevent fragrance degradation or loss during processing and storage. Encapsulation is the process of coating or encasing one material or a mixture of components into another material or system. The coating substance is known as shell, wall material, carrier, or encapsulant, and the coated material is known as active or core material.

181 - 196 (16 Pages)
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14 Quantitative and Qualitative Losses of Onion (Allium cepa) as Affected by Various Traditional Storage Practices in India
Saptashish Deb, Ram Chandra, P. M. V. Subbarao, Saurabh Yadav

Introduction The onion (Allium cepa) is one of the world's oldest cultivated crops, with a history dating back over 5,000 years (Gorrepati et al., 2014). At present, India is one of the world's largest producers and exporters of onions. At the time, India ranked second in onion production with a yearly production of around 23262 TMT and an average yield of 18.10 MT/ha (Prajapati and Saini, 2019; Horticulture Statistics at a Glance, 2018; Tripathi and Lawande, 2016). Maharashtra, Madhya Pradesh, Karnataka, Gujarat, Rajasthan, Bihar, Andhra Pradesh, Haryana, West Bengal, Uttar Pradesh, Chhattisgarh, Odisha, Tamil Nadu, Jharkhand and Telangana are the major onion producing states in India. Maharashtra alone covers 55-60% of countries total production. Solapur, Satara, Dhule, Jalgoan, Osmanabad, Beed, Latur, Aurangabad are the major onion producing districts in Maharashtra (Tripathi et al., 2005). Unfortunately, India witnessed around 40-50% post-harvest losses of onions every year (Prajapati and Saini, 2019).

197 - 210 (14 Pages)
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15 Production of Functional Drink from Beetroot Juice Fermented with Kefir
Neelakshi Kanwar, Lakhvinder Kaur

Introduction A functional food is a food that provides alimentative beyond their actual nutritional value & are claimed to have an extra function by the addition of new ingredients or more of already present ingredients into it. Functional food have also become a part of our everyday daily diet & are told to offer potential various health benefits other than the widely accepted nutritional effects among them. (Roberfroid MB 2009). Many bioactive active compounds are contained by them like roughage, OS, vitamins, inorganic elements, & bacterium probiotic, having scented whiff, relish & fineness, which sustain the balance & balance of the enteric system. Functional may also be said as artificer‘s foods, NC, restorative foods, curative food, & super food etc because of the roles & functions they perform. (Wlodzimierz Grajek et al., 2008). There are many utilitarian sequels of functional food & beverages with added bug & probiotics on the health of humans which are increasingly promoted & recommended by the nutritionists & other we-being professionals. (Aditya Chaudhary 2019). For a time being, the most salient & over & over again used functional foods amalgam are probiotics & probiotics, or they altogether called as symbiotic‘. he dwell Microbes or foods microbes, which are beneficial for human, are probiotics. (Armachius James &Yousheng Wang 2019).

211 - 222 (12 Pages)
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16 Sea buckthorn Juice with Micro-Nutrients as Immunity Booster
Sweety Kumari, Sujata Pandit Sharma

Introduction Sea buckthorn berry belongs to Elaeagnaceae having 6 species (Hippophae rhamnoides, Hippophae neurocarpa, Hippophae salicifolia, Hippophae gonicarpa, Hippophae tibetiana and Hippophae litangenis) and 12 subspecies grown all over the world. India, is having its plantations in chilly and barren conditions of Ladakh, Himachal Pradesh, Uttarakhand, Sikkim, and Arunachal Pradesh. Berries and fruits are believed to have such bio-active compounds like antioxidants in them that it has constructive consequences on health of human beings. Moreover, they are been proven in lessening the cardiovascular diseases, age related issues,cancer etc. Berries of Sea buckthorn is an abundant provenance of these bio-active compounds. One of the major lipophilic compounds is carotenoid pigments. And the concentration of the same has difference depending upon origin of plant, harvesting period and weather conditions. Nutritionally, the fruits have a substantial amount of carbohydrate, protein, organic acids, amino acids, and vitamins. Moreover, it also contains bioactive compounds like carotenoids, dietary minerals, antioxidants, flavonoids, vitamin C, minerals, monosaccharide, organic acids, tannins, etc. Sea buckthorn plant parts are becoming one of the useful and promising nutraceuticals for the food industry and all over the world.

223 - 232 (10 Pages)
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17 Implementation of a Machine Learning Method for Quick Identification of Low Amylose Rice Varieties using Near-Infrared Spectroscopy
Shagufta Rizwana, Manuj Kumar Hazarika

Introduction Rice cultivation is a means of livelihood for a large number of people from the state of Assam, India (Saikia, 2019). It is related to the cultural aspects in rural Assam where people indulge themselves in traditional as well as modern ways of farming. Like any other north-eastern states in India, rice majorly dominates the Assamese cuisine. It is the primary source of diet in Assam. There are more than 100 varieties that are genetically modified breeds in which indigenous varieties contribute to 20 germplasm (https://www.rkbassam.in/). The different rice varieties of Assam have different culinary applications in both savoury and sweet cuisines. The intermediate and high amylose rice, parboiled or nonparboiled are consumed as staple for major meals while the low amylose rice is mostly consumed as snacks, breakfast cereals and desserts. The major constituent of rice is starch consisting of about 90% of the mass. Thus, the major compositional changes occurring in rice is due to starch. Starch is a polymer of glucose linked by glycosidic bond. It consists of amylose (linked by alpha 1- 4 linear chains) and amylopectin (alpha 1-4 & alpha 1-6 branched chains). On the basis of composition, rice is classified as high amylose (>25%), intermediate amylose (20 -25%), low amylose (7-20%) and waxy or glutinous (1–2%) types (Juliano, 1979).

233 - 244 (12 Pages)
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18 Trends in Food Packaging
Hemrajsinh Chhasatiya, Govind Tagalpallewar

Introduction Consumer demands for convenience and mildly processed meals with long shelf lives have led to unique and current developments in food packaging solutions (Dobrucka and Cierpiszewski, 2014). Additionally, the development of unique and creative packaging solutions that do not compromise food safety or quality is being fueled by the current retail trend and changing lifestyles (Dainelli et al., 2008). The widespread use of packaged meals has raised consumer demand for prepared foods like microwaveable dinners, and the growing popularity of smaller food packages all help to fuel the food industry's explosive growth in creative packaging (Restuccia et al., 2010). The rise in food-borne microbial outbreaks, which calls for the usage of packaging that possesses antimicrobial qualities while retaining food quality, is another major driver of new food packaging (Appendini and Hotchtkiss, 2002). The initial advancements in packaging were electrically powered packing equipment, flexible packaging, metallic cans, aseptic packaging, aluminium foils, and flexographic printing. A considerable movement away from metal, paperboard, and glass packaging in favour of plastic and flexible packaging was also brought about by the discovery of various materials such as polyester, polypropylene, and ethylene vinyl alcohol polymers.

245 - 264 (20 Pages)
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19 Feasibility of Incorporating Fructooligosachharide in the Traditional Indian Non-Syrupy Sweets and To Study Their Organoleptic Qualities
Mini Sheth, Viral Lodaya, Ria Ahuja

Introduction India is a country of festivals and celebrations. Indian sweets enjoy a legendary reputation across the world. India is home to a number of delicious sweets that play a vital role in every Indian celebration. While gulab jamuns, rasgullas and kaju katlis may be the most popular sweets in the country (Pal Sanchari, 2016). Functions and events in India are celebrated with intake of sweets. Also, it is customary to sweeten the mouth in social gathering like marriage, birthday, poojas, etc. (Gulati and Misra, 2014). In the past few years, guidelines are formulated based on analyses of all published scientific studies on the consumption of sugars. In view of the rising prevalence of overweight, obesity and related disorders globally, in 2002, the WHO recommended that sugar should be less than 10 percent of daily calories. The consensus dietary guidelines for Indians in 2011 recommend less than 10% of total calories from free sugars per day. In May 2014, the expert panel of WHO recently recommended decreasing sugar intake to 5% of total calorie intake to combat obesity. A high intake of added sugars is a primary risk factor for diabetes. It is these added sugars in sweets that makes them palatable, but also does the physical damage. (Willet Brian, 2011). People have developed taste towards food in which fat and sugar contents are high.

265 - 278 (14 Pages)
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20 Phenomenological Kinetic Modelling of Conventional and Ultrasound-Extraction of Carotenoids from Passion Fruit Peel Using Green Solvent
Hemanta Chutia, Charu Lata Mahanta

Introduction Solid–liquid extraction process, has been extensively used for extraction of bioactive compounds from plant food matrices by using appropriate solvent, which can be used as functional ingredients and additives in food processing, pharmaceutical sectors, and others industries. Usually this extraction/recovery process is based on unsteady diffusion of compounds targeted for extraction, through the matrices followed by the dissolution of the extractable compounds in the bulk of the used solvent (Milic, Rajkovic, Stamenkovic, & Veljkovic, 2013). The concentrations of bioactive compounds in food matrices as well as in the extracts are generally low in percent, so extra energies are required to improve the yield of the extraction process while minimizing the overall cost. From the technological approach, extraction process is mainly associated with the operating variables such as solvent used, extraction technique, operating temperature, concentration of solid in solvent, and extraction time, and by optimizing these parameters extraction yield could be enhanced (Milic et al., 2013; Orphanides, Goulas, & Gekas, 2014).

279 - 288 (10 Pages)
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21 Determination of Nutrient Composition, Acceptability and Feasibility of Beta Glucan and Fructooligosaccharides Incorporated Traditional Recipes of Gujarat–Handwa and Thepla
Mini Shetha, Unnati Bhavsara, Ria Ahujaa

Introduction Diet and dietary component are proved to be the first line of intervention in prevention and treatment of non-communicable diseases by many studies (R. Vrolix and R.P. Mensink, 2010). Hence the interest has grown in development of functional food product in recent years which provides not only basic nutrients but also has health promoting and diseases preventing properties (Rozek et al., 2010). The Functional Food Center (FFC) defines “functional food” as natural or processed foods that contain known or unknown biologically-active compounds; the foods, as defined, effective, and non-toxic amounts, provide a clinically proven and documented health benefit for the prevention, management, or treatment of chronic disease (Martirosyan et al., 2015). Fiber is classified into two separate groups i.e. soluble which forms gel like substance when comes in contact with water and insoluble is a solid form that does not break down when exposed to water (web 4). Soluble fibers increase total transit time by delaying gastric emptying and also slow glucose absorption, which includes pectins, β-glucans, galactomannan gums, mucilages, and some hemicelluloses (J.H.Cummings and A.M.Stephen 2007). The American Society for Nutrition stated that cereal fibers are modestly associated with a reduced risk of type II diabetes, obesity, and cardiovascular disease (Cho Qi, Fahey Jr & Klurfield, 2013).

289 - 298 (10 Pages)
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