Preface India is an agricultural country and various types of agricultural commodities are produced in large quantities. To handle such quantities during harvest, post harvest, processing and transportation, various types of equipments are required. To design particular equipment or determining the behavior of the product for its handling, physical properties such as size, shape, surface area, volume, density, porosity are very important. Various types of cleaning, grading and separation equipment are designed on the basis of physical properties of seeds such as size, shape, specific gravity etc. The densities of grain determine the size of screening surface. The shape of the product is an important parameter which affects conveying characteristic of solid materials by air or water. The shape is also considered in calculation of various cooling and heating loads of food materials. We tried to write an edited book to provide a fundamental understanding of engineering properties of agricultural produce. In this book, the knowledge of engineering properties are combined with engineering knowledge. Each chapter in the book will be helpful for the students to understand the relationship between engineering properties of raw, semi-finished and processed food to obtain products with desired shelf-life and quality. This book discusses basic definitions, principles of engineering properties and their measurement methods with research findings. It will be helpful to the students for their self- study and to gain information how to analyze experimental data to generate practical information. It will also be helpful for students who deal with engineering properties in their research. Methods to measure these properties are also explained in details. We would also like to thank our contributors and teachers/colleagues for their inspiration and timely submission of manuscripts. Last but not least, we would like to thank our family members for their continuous support during writing of this book. Finally, we are making a plea to those who make use of this book to supply us with information or points of view that differ with those expressed in. We know that there will be errors, for which we alone are responsible, and we will appreciate the opportunity to correct those. Feedback from readers of this book are invited to feel free to write us their valuable opinion, critical comments and suggestions will certainly help us to improve its quality in future.

Abstract Multi-commodity flours were prepared by blending rice flour, mung flour and potato flour with wheat flour in ratios of 0:0:0:100, 5:5:5:85, 10:10:10:70 and 15:15:15:55, respectively and packaged in glass jar, high density polyethylene and aluminium flexible packaging for biscuits development. The standardized formulations for biscuit had ingredients as 100 g flour/multi-commodity flour, 45 g sugar, 45 g hydrogenated fat, 1.25 g sodium bicarbonate, 1.25 g baking powder and 1.0 g curry leave powder. The biscuits were baked in convective baking oven at 180 > C for 10-15 min till baked. The well baked biscuits were removed from the oven, cooled to room temperature, packaged and stored under ambient condition. The physical quality (Mass, thickness, diameter, spread ration percent spread and bulk density), of biscuits were analyzed just after preparation under ambient condition. Results were also reported that the spread ratio of multi-commodity flour biscuits increased with decrease in the incorporation of wheat flour in multi-commodity flours. It is clear that spread ratio is mostly influenced by the diameter and thickness of biscuits.

Abstract Food processing involves the transformation of raw animal or plant materials into consumer-ready products, with the objective of stabilizing food products by preventing or reducing negative changes in quality. Without these processes, we would neither be able to store food from time of plenty to time of need nor to transport food over long distances. Food processing has also gained its importance in the wide variety of diet among people throughout the globe and availability of exotic food items at various places. Processing of food items enhance the taste, flavor and aroma of the food thereby increasing the overall chances of its acceptability among the masses. So, it is essential to determine and recognize the database of physical and engineering (aerodynamic and mechanical) properties of these agricultural products because these properties play an important role in designing and developing of specific machines and their operations such as sorting, separating and cleaning, also to determine the optimum in seed metering device in pneumatic planter and precision sowing machine to suite every size of these grains.

Abstract The knowledge of engineering (physical) properties constitutes important and essential data in the design of machines, storage structures and processes. The present investigation was carried out determine the physical parameter (diameters, mass, volume, density, sphericity, angle of repose etc.) of varieties KPS 10. The moisture content in green pea (KPS 10) was observed 411.77% (db). The average values of dimensional and geometrical parameter like length (D1), width (D2), height (D3), AMD, GMD and SMD were found 9.517mm, 9.343 mm, 7.707 mm, 8.856 mm, 8.816 mm and 15.305 mm respectively. Mean values of mass of 1000 pea seeds, volume, bulk density and true density were found 329.501 g, 0.2 ml, 0.275 g/cm3 and 0.304 g/cm3 respectively. Average values of angle of repose, sphericity, porosity and moisture content were found 24.7, 0.926 %, 9.528 and 80.96%, respectively.

Abstract The research work was conducted on the moisture dependent physical properties of kidney bean (White speckled kidney beans) were analyzed. Length, width, thickness varied between 1.53-1.90, 0.79-0.94, 0.58-0.76 cm for kidney beans, respectively. Arithmetic mean diameter and geometric mean diameter were 0.96-1.19 and 0.88-1.11 cm2, respectively. Volume, Sphericity and surface area ranged between 0.44 -0.87 cm3, 0.57-0.60 and 2.91-4.68 cm2 for white speckled kidney beans, respectively. The kidney bean was soaked in normal water with initial moisture content 14.22 % (db) upto 270 min and attained the final moisture upto 83.23 % (ab).

Abstract The frictional properties such as coefficient of friction and angle of repose are very important in designing of storage bins, hoppers, chutes, conveyors, harvesters and threshers etc. Angle of repose is the angle made with the horizontal at which the material will stand when piled. The angle of repose is also important in designing the equipment for mass flow and structures for storage. The static angle of repose (b) was determined using an open-ended cylinder of 150 mm diameter and 250 mm height. The higher the moisture content, the higher the cohesion between the seeds. In terms of flow ability, the seeds are heavier and the inertia to move is increased. Coefficient of internal friction is the frictional resistance of seeds with each other. Coefficient of external friction is the frictional resistance between the seeds and the surface. The rolling resistance is directly proportional to the weight of the rolling object and to the coefficient of rolling resistance which is dependent on the rigidity of the supporting surface and indirectly proportional to the effective radius of the rolling object. The air velocity at which an object remains in a suspended state in a vertical pipe under the action of the air current is called terminal velocity of the object.

Abstract Rheological properties of dough from different flours are very important to know about the kneading and modeling process especially for development of bakery products. Rheological testing is helpful to examine the structural and fundamental properties of dough. The basic principle underlying evaluation of rheological properties are mechanical behavior of the dough, in conjunction with the physical structure of the dough, the molecular structure of the protein continuous phase in the dough and with chemical reactions of functional groups. This chapter presents some of the methods currently used in bakery industry for determining the rheological characteristics of the flour and the dough. The instruments such as Farinograph, Mixograph, Extensigraph, Alveograph and Amylograph, which are used for the measurement of dough rheological properties (due to visco-elastic behavior of dough) were described.

Abstract The electromagnetic processing instruments such as microwave is very commonly used at house hold level, hence understanding the behavior of food as well as factors affecting its dielectric properties becomes important. Dielectric properties (DEP) play an important in electromagnetic processing of food products and mainly depend upon the moisture content, physical properties, composition, temperature and power applied. Different methods have been used to determine the DEP of food material including parallel plate, coaxial probe, resonance cavity, transmission line and free space method. The selection of these methods is again based on several factors such as type of materials, accuracy of measurement, the scope of the research, frequency range, availability of equipments and resources. Present study thus summarizes the importance of DEP of food, influencing factors and the different measurement techniques.

Abstract Thermal properties of food are its ability to conduct, store and lose heat. These properties are inherent in food processing and preservation practices. Thermal properties are important for modelling processes, engineering design of processing equipment, sterilization and aseptic processing. Important thermal properties are thermal conductivity, specific heat and thermal diffusivity. These properties depend on chemical composition, water fraction and temperature. Introduction Thermal properties are involved in almost every food processing operation. It is essential to have knowledge of thermal properties of foods which is important in analysis and design of various food processes and food process equipment involved in heat transport. Thermal properties of food are greatly depending on composition, temperature and density of food. Thermal properties required for heat transfer calculation include specific heat, enthalpy, thermal conductivity and thermal diffusivity. Thermal properties of foods are related to heat transfer control in specified foods and can be classified as thermodynamic properties (enthalpy and entropy) and heat transport properties (thermal conductivity and thermal diffusivity). Thermo physical properties not only include thermodynamic and heat transport properties, but also other physical properties involved in the transfer of heat, such as freeze and boiling point, mass, density, porosity, and viscosity. These properties play an important role in the design and prediction of heat transfer operations during the handling, processing, canning, storing, and distribution of foods.

Abstract Quality assessment of fruits and vegetable before marketing and processing is an essential task. Various destructive and non-destructive methods have been investigated to achieve this goal. Among the several prevalent noninvasive methods, optical properties measurement methods also promotes for nondestructive quality inspection of fruits and vegetables. The optical properties of biological tissue are, therefore, very importance important for getting sample information and data quantification of the inside of the material. The main goal of this chapter is, thus, to introduce fundamental concept of optical properties, its principle and application in fruits and vegetables. The discussion of electromagnetic radiation for better understanding of the nature of light has also been explored.

Introduction Sem (Dolichos) bean, Hyacinth bean or Field bean is one of the most ancient crops among cultivated plants. It is a bushy, semi-erect, perennial herb, showing no tendency to climb. It is mainly cultivated either as a pure crop or mixed with finger millet, groundnut, castor, corn, bajra or sorghum in Asia and Africa (Maass et al., 2010). It is a multipurpose crop grown for pulse, vegetable and forage. The crop is grown for its green pods, while dry as well as fresh green matured seeds are used in various vegetable food preparations, as most of the nutritive value is concentrated in the seeds. FAO website reports that Dolichos lablab (field bean) is a dual purpose legume. It is traditionally grown as a pulse crop for human consumption in south and south-east Asia and eastern Africa. Flowers and immature pods also used as a vegetable. It is also used as a fodder legume sown for grazing and conservation in broad acre agricultural systems in tropical environments with a summer rainfall. Also used as green manure, cover crop and in cut and carry systems and as a concentrate feed.

Abstract The chapter aims at introducing selected physical properties of food and biological materials in food process and application in the field of food technology. These physical properties of food are not only used for designing of food equipments but can also maintain the nutritive value of food to a greater extent during processing in these equipments. Introduction The investigation of food engineering is spotlighted on the inspection of equipments and system used to process food materials on a commercial scale. Building of system for food materials can be efficient if two factors are known, the nature of the food product and what happen to the food during its processing. Food materials are organic in nature and it has a certain kind of qualities which recognize them from other processed food product. Since food materials are organic in nature, they have (a) shapes usually found in normally non regular; (b) properties which differ from other food products; (c) heterogeneous arrangement; (d) properties are varied due to climatic conditions, ripening conditions, etc. and (e) several other factors such as (e) influenced by chemical changes, moisture content variation and enzymatic movement. Managing food materials with these remarkable attributes requires extra thought, for the most part by implication and extra sources or reasons for different varieties. The attributes of a food material that are autonomous of the on looker, quantifiable, can be measured, and characterize the condition of the material (yet not how it accomplished that state) are considered as its physical properties.

Abstract During present investigation a comparative study was done to see the effect of storage on physical properties of tomatoes (Lycopersicon esculentum Mill) packed in HDPE and stored under ambient temperature. Four varieties of tomatoes taken for current investigation were Badshah, Himshikhar, NS-524 and Raja. From the studies it was clear that TSS increased gradually during storage duration for entire tomato varieties due to loss of some moisture from tomatoes. Variety NS-524 shows maximum shrinkage among all during observation period.

Abstract In India, the allium groups (onion and garlic) are important bulb crops for home consumption as well as sources of income to many peasant farmers in many parts of the country. The garlic bulbs are valued for their flavor and have wide applications in food and their antimicrobial, antifungal, insecticidal and antioxidative properties. The engineering properties of garlic bulb, clove and skin plays important role in the planning of various post-harvest operations like drying, sorting, grading, bulb breaking, peeling and designing the process equipments like bulb breaker, clove separator and peeler. The aim of this chapter was to study the engineering properties viz., physical, mechanical, aerodynamic and frictional properties of garlic bulbs, and cloves in both peeled and unpeeled form. Introduction India is rightly the spice bowl of the world. India has the largest domestic market for spices in the world. Indian spices are the most sought-after globally, given their exquisite aroma, texture and taste. Garlic (Allium sativum L.) is a world’s favourite, versatile horticultural commodity consumed for culinary, medicinal and antimicrobial purposes and is being cultivated for over 5000 years. The most important part of the garlic plant is the compound bulb. Each bulb is made of 6-26 cloves and is wrapped in a white papery sheath. Some varieties have a radish or purplish sheath. The bulbs are valued for their flavour, command extensive commercial importance because of their wide application in food and pharmaceutical preparations. Garlic is still probably nature’s most powerful medicinal plant to us today. It is recognized to have remarkable preventive and curative abilities. Garlic is mainly used aromatic spices and pickles as it has digestive, carminative and anti-rheumatic properties. It is being used in ayurvedic formulation since a long for curing lungs, healing the intestinal ulcer and checking muscular pain and giddiness.

Abstract Physical properties of food are aspects such as colour, structure, texture, rheology and interfacial properties, and composition. We have a range of instrumental methods for objectively characterising and measuring food structure and physical properties. These are useful for applications such as new product development, benchmarking, reformulation and specification. Colour Consistent and accurate measurements of the colour and visual appearance of food products is extremely important. Various methods are available for colour measurement, allowing a wide variety of sample types to be measured. Colour measurement results are typically provided on the CIELAB scale. Others are available on request.

Humankind has always been a perceptive feel for rheological testing, e.g. in physical and visual evaluations of material properties such as hardness, stiffness, flexibility, and viscosity, and their relation to end-use quality characteristics. People often naturally measure the quality of solid foods by gently squeezing them, or liquid viscosity is measured by gently rotating the liquid in its container. These intuitive measurements gradually became formalized into quantitative descriptions of material properties. Rheology can be defined as the study of how materials deform, flow or fail when force is applied. The name is derivated from Greek word: rheos, meaning the river, flowing, streaming. Therefore rheology means “flow science”. Rheological investigations not only include flow behaviour of liquids, but also deformation behaviour of solids. Normally, to measure rheological properties, the material is subjected to a controlled, précised and quantifiable distortion or strain over a given time and the material parameters such as stiffness, modulus, viscosity, hardness, strength or toughness are determined by considering the subsequent forces or stresses (Dobraszczyk and Morgenstern, 2003). The term rheology was coined by Eugene C. Bingham, a professor at Lafayette College, in 1920, from a suggestion by a colleague, Markus Reiner (Steffe, 1996)

Abstract Food texture is one of the most widely measured quality attributes during postharvest handling, processing, and consumption. Given the subjectivity in human perception of food texture, texture measurement remains a complex exercise and thus presents both a charm and challenge for researchers and industry practitioners. For fresh foods such as fruit and vegetable, textural properties such as firmness are widely used as indices of readiness to harvest (maturity) to meet requirements for long term handling, storage and acceptability by the consumer. For processed foods, understanding texture properties is important for the control of processing operations suchasheating, frying and drying to attain desired quality attributes of the end product. Texture and viscosity measurement is one of the most common techniques and procedures in food and postharvest research and industrial practice. Foods are complex systems exhibiting various degrees of elasticity, viscosity, and plasticity. Because of its complex structure and mechanical behavior, objective measurements of food texture may be influenced by a variety of test conditions, including rate of loading, the magnitude of deformations imposed upon the material, geometry of the loading surface, and localized yielding within the product tested. Various approaches have been used to evaluate the sensory attributes of texture in foods. However, the high cost and time consumption of organizing panelists and preparing food limit their use, and often, sensory texture evaluation is applied in combination with instrumental measurement.

Abstract Herbal Burfi was development with various types of milk viz., Buffalo (6% Fat), Cow (4% Fat) and mixed milk (5% Fat) and different levels of sugar i.e. 20, 25, 30 and 35 per cent (weight basis of khoa). Each sample was fortified with 5g satavar and safed musli powder. Other minor ingredients like Almonds, Cardamoms, Cashew nuts, Pistachio nuts, etc were mixed thoroughly and after preparation herbal burfi was allowed to set at room temperature (20- 25oC) for two hours. Physico-chemical (acidity, pH, fat, protein, lactose, sugar, ash and total solids), microbial (total plate count, coliform count, yeast and mould count) quality and sensory attributes of the herbal burfi were evaluated. The data of experiments were statistically analyzed to compare significance effects of various factors by applying factorial Randomized Block Design (fRBD) with the help of OPSTAT software and ANOVA.

Abstract Fats and oils are one of the five essential ingredients of human diet and the others are protein, carbohydrates, minerals and vitamins. The oil seeds are major source of edible in world. Oils and fat form an important constituent of human food. Lipid metabolism generates many bioactive lipid molecules, which are fundamental mediators of multiple signaling pathways and they are also indispensable compounds of cell membranes. Many people in developing countries, especially children under five years of age suffer from acute or chronic protein and energy shortages. There is definitely a need for food production to keep pace with the increase in the number of the world’s population. Oilseed and nut should be properly dried before storage, and cleaned to remove sand, dust, leaves and other contaminants. All raw materials should be sorted to remove stones and moudly nuts. Some moulds, especially in the case of groundnuts, can cause aflatoxin poisoning. Introduction Oil has been a vital part of people’s regular dietary consumption all over the world and its usage has been found to increase several folds over the decades. The importance of using the appropriate oil for cooking goes a long way in affecting the consumer’s health. Improper methods of oil-aided cooking can lead to cardiovascular diseases and increased cholesterol in the blood (Kumar et al., 2018). There is definitely a need for food production to keep pace with the increase in the number of the world’s population. In order to achieve these national development strategies in many based economy tropical countries on agriculture and biased now towards increasing diversity of food products and consumer in order to alleviate malnutrition and pressure to strengthen and expand based industries on agriculture to ensure that their products are both healthy and safe. Oils and fats for food have used a variety of other applications since prehistoric times, and were easily isolate the source of the fats and oils found useful because of its unique properties.

Abstract The use of plants for treating diseases is as old as the human species. Popular observations on theuseandefficacyof medicinal plants significantly contribute to the disclosure of their therapeutic properties, so that they are frequently prescribed, even if their chemical constituents are not always completely known. Medicinal plants have therapeutic potential due to the presence of natural antioxidants functioning as reducing agents, free radical scavengers and quenchers of singlet oxygen. Majority of their antioxidant activity is due to bioactive compounds viz. flavones, isoflavones, flavonoids, anthocyanins, coumarins, lignans, catechins and isocatechins. They have been recognized to possess several medicinal properties (diuretic, expectorant, laxative, anti- bacterial, anti-pyretic etc.) and have been effectively used in the indigenous systems of medicine in India and other countries. Apart from the traditional use, a number of beneficial physiological effects have been identified by extensive studies. Among these are their beneficial effects on lipid metabolism, efficiency as antidiabetics, ability to stimulate digestion and to inhibit platelet aggregation, antioxidant, antilithogenic and anti-inflammatory potential.In this chapter an attempt has made to elucidate and understand the chemical and medicinal properties of Stavar and Safed musli those are using as medicine. These may also use as ingredients for preparation of herbal food products.