Analysis of physical and chemical properties of soya bean
Table Of Contents
Thesis Abstract
Abstract
Soya bean is a versatile legume that is widely consumed around the world due to its nutritional value and various health benefits. This research project aims to analyze the physical and chemical properties of soya bean to better understand its composition and potential applications in various industries. The physical properties of soya bean include size, shape, color, and texture, which can influence its suitability for different processing methods such as milling, extrusion, and cooking. By studying these physical characteristics, we can determine the best practices for handling and processing soya bean to maximize its nutritional content and functionality. In terms of chemical properties, soya bean is rich in proteins, fats, carbohydrates, vitamins, and minerals. The protein content of soya bean is particularly high, making it a valuable source of plant-based protein for vegetarians and vegans. The fat content of soya bean consists mainly of unsaturated fatty acids, which are beneficial for heart health when consumed in moderation. Additionally, soya bean contains carbohydrates in the form of fiber and sugars, providing energy and promoting digestive health. The vitamins and minerals found in soya bean include vitamin E, vitamin K, folate, iron, and calcium, which contribute to overall health and well-being. Furthermore, the chemical composition of soya bean can vary depending on factors such as variety, growing conditions, and processing methods. Analyzing these variations can help ensure the quality and consistency of soya bean products for consumers. Overall, understanding the physical and chemical properties of soya bean is essential for maximizing its nutritional value and potential applications in food, feed, and industrial products. By conducting comprehensive analyses of soya bean, we can optimize its processing, storage, and utilization for various purposes, contributing to a more sustainable and healthy food supply chain.
Thesis Overview
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</p><p><strong>INTRODUCTION</strong></p><p><strong>1.1 Background of the Study</strong></p><p>Soy processing industries select raw material based on weight, moisture, impurities and grain damage. Differences in chemical and physical properties of soybean cultivars are not taken into consideration in soyfood processing. Information on these characteristics could help food industries obtain products with better functional, nutritional and sensory qualities with greater cost‑benefits (Sbardelotto & Leandro, 2008).</p><p>Soybean (Glycine max (L.) Merrill) is a particularly good source of protein (35–42%) and fat (16–27%). This makes the soybean one of the most valuable and most commonly cultivated crops (Kumar et al., 2006). The soybean shares the flaw of many plants from theFabaceae family, namely it is prone to mechanical damage occurring during threshing,cleaning, drying, transportation, storage and processing. Knowledge of the physical properties of soybean seeds is therefore particularly important for the optimization of harvesting, drying storing and processes (RybiÅ„ski et al., 2009). Unlike cereal grains, soybean seeds have two cotyledons between which a gap may be formed if the water content is low. This leads to an increased susceptibility ofthe seeds to damage like, for example, breaking in half</p><p>(Shahbazi et al., 201).</p><p>According to their different uses, soybean cultivars are classified as grain‑type, which are conventionalsoybeans for oil and animal feeding, and food-type,which are those for human consumption in fermented</p><p>foods and non-fermented foods (tofu, soy flour and soy milk) (Liu, 1999). Therefore, soybean cultivars for human consumption should present special chemical and physical characteristics.</p><p>In view of the above this project intends to carryout an analysis of physical and chemical properties of soya bean.</p><p><strong>1.2 Objectives of the Study</strong></p><p>The main objective of this work was to analyze the physical and chemical properties of soybean.</p><p>Other objectives are;</p><p>1. To carryout analysis of the physical properties of soya bean</p><p>2. To determine the chemical properties of soya bean</p><p>3. To evaluate the physical and chemical properties of soybean cultivars for food processing</p><p><strong>1.3 Justification of the Study</strong></p><p>Soybean is an important source of high-quality protein. Soybean cultivars with high protein content allow the production of foods with superior nutritional value and yield, such as soy milk and tofu. To make superior nutritional value and yield products particularly rely on the indepth knowledge of the physical and chemical properties. Therefore, this work will reveal the physical and chemical properties of soybean which will aid anyone with the knowledge of soybean and its physical and chemical properties.</p>
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