Use of composite blends for biscuit making | Blazingprojects Postgraduate Thesis
Home / Food Science and Technology / Use of composite blends for biscuit making

Use of composite blends for biscuit making

 

Table Of Contents


Chapter ONE

INTRODUCTION

  • 1.1Introduction
  • 1.2Background of Study
  • 1.3Problem Statement
  • 1.4Objective of Study
  • 1.5Limitation of Study
  • 1.6Scope of Study
  • 1.7Significance of Study
  • 1.8Structure of the Research
  • 1.9Definition of Terms

Chapter TWO

LITERATURE REVIEW

  • 2.1Overview of Composite Blends
  • 2.2History of Biscuit Making
  • 2.3Types of Composite Blends Used in Food Industry
  • 2.4Effect of Composite Blends on Biscuit Quality
  • 2.5Nutritional Benefits of Composite Blends in Biscuits
  • 2.6Challenges in Using Composite Blends for Biscuits
  • 2.7Consumer Perception of Biscuits Made with Composite Blends
  • 2.8Market Trends in Composite Blends for Biscuit Making
  • 2.9Research Studies on Composite Blends in Biscuit Production
  • 2.10Future Prospects of Composite Blends in Biscuit Industry

Chapter THREE

RESEARCH METHODOLOGY

  • 3.1Research Methodology Overview
  • 3.2Research Design and Approach
  • 3.3Sampling Techniques and Sample Size
  • 3.4Data Collection Methods
  • 3.5Data Analysis Techniques
  • 3.6Validity and Reliability of Data
  • 3.7Ethical Considerations in Research
  • 3.8Limitations of the Research Methodology

Chapter FOUR

DATA PRESENTATION AND ANALYSIS

  • 4.1Analysis of Findings
  • 4.2Comparison of Biscuit Quality with Different Composite Blends
  • 4.3Impact of Composite Blends on Production Costs
  • 4.4Consumer Preferences for Biscuits with Composite Blends
  • 4.5Challenges Faced in Implementing Composite Blends in Biscuit Making
  • 4.6Recommendations for Improving Composite Blend Usage
  • 4.7Future Research Directions
  • 4.8Implications of Findings on Biscuit Industry

Chapter FIVE

SUMMARY, CONCLUSION AND RECOMMENDATIONS

  • 5.1Conclusion and Summary of Research
  • 5.2Recap of Study Objectives and Findings
  • 5.3Contributions to Biscuit Making Industry
  • 5.4Practical Applications of Research Results
  • 5.5Recommendations for Future Research

Thesis Abstract

Abstract
The use of composite blends in biscuit making has gained significant attention due to their potential to enhance the nutritional profile, texture, and sensory attributes of biscuits. This research project aimed to explore the effects of incorporating various composite blends into biscuit formulations. The study focused on utilizing blends of wheat flour with alternative flours such as chickpea flour, sorghum flour, and oat flour to develop biscuits with improved nutritional content and sensory characteristics. The research involved analyzing the physicochemical properties of the composite blends and evaluating the quality attributes of the biscuits produced from these blends. Parameters such as moisture content, protein content, ash content, and color attributes were measured to assess the nutritional composition and physical characteristics of the composite blends and biscuits. Sensory evaluation was also conducted to determine consumer acceptance of the biscuits in terms of taste, texture, and overall palatability. Results indicated that the incorporation of alternative flours in biscuit formulations led to significant changes in the nutritional composition of the biscuits. Biscuits made with composite blends showed higher protein content and dietary fiber compared to traditional wheat flour biscuits. The addition of alternative flours also influenced the color, texture, and sensory attributes of the biscuits. Biscuits with composite blends exhibited variations in color intensity and texture, which were well-received in sensory evaluation tests. Overall, the findings suggest that the use of composite blends in biscuit making can be a promising strategy to develop biscuits with enhanced nutritional value and sensory appeal. By incorporating alternative flours into biscuit formulations, manufacturers can cater to the increasing consumer demand for healthier and more diverse food options. Additionally, the utilization of composite blends offers an opportunity to promote the use of underutilized flours, contributing to sustainable food production practices. This research contributes to the growing body of knowledge on the development of functional foods through the utilization of composite blends. The findings provide valuable insights for food scientists, manufacturers, and consumers interested in the production and consumption of nutritious and sensory-appealing biscuits. Further research could explore additional composite blends and formulation techniques to optimize the nutritional and sensory properties of biscuits for a wider consumer base.

Thesis Overview

<p> </p><p><strong>1.0 &nbsp; &nbsp; INTRODUCTION</strong></p><p>Biscuits are the major products produced by the biscuit and crackers industries. Flour confectionery describes a large range of flour based goods other than bread manufactured from batter sponge or dough by mixing, kneading and may be created by fermentation, chemical or other means resulting in puff/flaky short or sweet product. Those that have their moisture content reduced to make them exceptionally brittle or crops are generally regarded as biscuits. (Okaka, 1997)</p><p>The word biscuit come from the Latin word Biscuit meaning twice cooked, baking at high temperature followed by drying at lower temperature (Okaka, 1997). The term biscuit and cookie are synonymous. The American Encyclopedia described biscuit as a form of bread baking soda as a raising agent rather than yeast.</p><p>Biscuit are a common feature of southern us cousine which can be served as a side dish with meal or as a breakfast item. Biscuit is also said to be essentially bakery confectionery dried down to low moisture content name derived from Latin word for twice cooked, made from soft flour, mostly rich in fat and sugar and consequently of high energy content of 420 to 510kcal per 100g they are cherished by people of all ages and used at different meals and occasions as part of breakfast, snacks etc. they are eaten with butter and jam or jelly or as a part of a dish called “Biscuit and gravy”. Biscuits are also eaten covered in pizza sauce and cheese. Many varieties exist, both sweet and savoulry often produced in industrial quantities by large food companies. Sweet biscuit are commonly eaten as snack and may contain chocolate fruit, jam or nuts (peanuts). Savoury biscuits are plainer and commonly eaten with cheese following a meal</p><p>The simplest form of biscuit is a mixture of flour and water but may contain fat sugar and other ingredients mixed together into a dough which is rested for a period, passed between rollers to make a sheet. The sheet is then stamped out baked, cooled and packaged. Biscuits are generally made from wheat flour but according to the topic of this project, “use of composite blends for biscuit making”. Some raw materials other than wheat have to be used in producing the flour for the biscuits. In order to get a superior product especially for crackers, the following factors are of importance – choice of flour for sponge and dough, selection of fermentation environment and the baking conditions. It is therefore necessary to search for raw materials that give flour of light quality.</p><p>Biscuits are classified based on their degree of enrichment and processing or by the method adopted in shaping them. Based on the enrichment criterion are hard dough, soft dough and batter biscuit respectively. (Okaka; 1997). Soft wheat is used in making flour for most biscuit and the softness is de to lower protein (gluten) content when compared with the hard wheat. Based on this fact, raw materials are chosen from other legumes such as Peanut and Roots such as cassava. Since they contain protein though in lesser quantity and quality.</p><p>Peanuts are one of the leading agricultural crops of the world and belong to the family leguminous. It is a source of edible oil and plant protein. The characteristic feature of legume seed protein is that they are markedly deficient in methionine and tryptophan. Infact, methioine is t he first limiting essential amino acid in almost all the legume grains. Peanuts contain about 26% to 35% protein with the peanut meal containing a large amount of nutritionally essential amino – acid. The seeds are nutritional and contain vitamin E, Niacin, folacin, calcium, phosphorus, magnesium, zinc, iron, riboflavin, thiamine, potassium etc (Ogbo; 2002). Peanut also contain a significant load of &nbsp;resveratrol, a strong antioxidant which inhibit lipid peroxidation of low – density lipoprotein (LOL), prevents the cytotoxicity of oxidized (LDL) and protects cells &nbsp;against lipid peroxidation. Hydrophilic aid lipophilic properties, it can as well provide more effective protection than other well known antioxidations such as vitamin C and E.</p><p>Peanut is used for different purposes, food (raw, roasted or b oiled, cooking oil), animal feed and industrial raw material. There are four varieties of peanut:- Virginia, Peruvian runner, Valencia and Spanish.</p><p>Cassava, one of the raw materials is an indigenous and stable food of millions of Nigerian people. The few misconceptions related to cassava especially with regard to its low nutritional value and its toxicity have been effectively challenged by National ad International Research Institutions. National Institutions like University of Agriculture Umedike in Umuahia who have succeeded in producing many Tropical Manioc Selection (TMS) varieties with an added advantage of low cyanide.</p><p>Despite the obvious advantages of cassava like being easily propagated by stem cutting. Relatively high yielder and excellent source of calories, cassava remained for some time a neglected crop in agricultural research and development activities to an extent not commensurate with its importance as food. However, some developments within the past 15 years have enhanced interest in the crop and research priority has been given to research on its improvement, increased production and utilization.</p><p>First, the International Society for Tropical Root and Tubers Crops was founded in 1967 to encourage research, increased production and utilization and exchange of information on tropical root and tuber crops including cassava yams, sweet potatoes and avoids. Second, among the International Institutions (International Institute for Tropical Agriculture – IITA – in Nigeria, and he International Centre for Tropical Agriculture – CIAT in Colombia) that have programmes giving high priority to research on the improvement, production systems, storage and utilization of cassava and other related training. &nbsp;Roots and Tubers Expansion Programme (RTEP was also put in place to develop and source for alternative uses of cassava as industrial raw material and create enabling market environment. High Quality unfermented flour”, including fortified cassava flours are now more accessible because of the improved processing and technological methods for processing cassava. These technologies can be used to produce particle / whole substitute for wheat flour from 540 100 percent in bakery and confectionery products such as biscuit, chin-chin etc. and some of these snacks have no noticeable change in texture, flavour, aroma nor colour.</p><p>The cassava flour is fortified with peanut butter in this project because of its high protein content, vitamins like vitamin E, which is a powerful antioxidant. The manufacture of good biscuit therefore depends mostly on the selection of correct flour for each type ad applying processed which are compatible such processes a re mixing, accretion and fermentation, laminating, baking and cooling (Okaka, 1997:- p. 155).</p><p><strong>1.2 &nbsp; &nbsp; AIM / PURPOSE</strong></p><p>As everybody including the federal government is putting effort together to induce foreign exchange conservation by means of local material utilization. It has been decided to carryout some work on cassava and peanut blend in order to use them as substitute for imported wheat in making flours for biscuit manufacture. Peanut butter is also added to complement the necessary amino acids.</p><p>The result of research carried out and test conducted by Roots and Tubers Expansion Programme show that it is possible to produce acceptable biscuits of comparable standard to that of wheat flour biscuits using composite flours from the above named legume and Roots.</p><p>Wheat whose flour is the major material used for biscuit manufactures in most countries of the world traditionally employ wheat for biscuits and similar products. Although wheat flour is generally employed as the basic ingredients in biscuit manufacture. Wheat is uniformly grown all over the world and being a temperature crop, it only grows under certain climatic conditions. Consequently, biscuit manufacture industries in countries where wheat does not grow have to import the grain or the flour.</p><p>In countries, Nigeria, to be precise, wheat is cultivated though not in appreciable quantity due to climate conditions, a large sum of foreign exchange is spent on importation especially with the present rate of growth of biscuit and allied industries in Nigeria (Federal Office of Statistics, Lagos Nigeria). There are a lot of industries (confectionery) although the date is not yet readily available, all based on wheat flour. Foreign exchange spend as at 1982 are huge amount of money. Therefore success in this trend of supplementation will save a huge sum of money being spend annually on wheat importation and could now be utilized to improve other sector of the country’s economy.</p><p>The aim of this project work therefore is to reduce or stop totally the extensive importation of wheat, thereby broaden the food base of Nigerians. The commercial and industrial implication will bring economic benefits to all biscuit consumers by making the product more readily available. Supplementation of imported wheat flour with cassava flour will save millions of naira in foreign exchange.</p><p>It is also estimated that the use of these composite blends (cassava flour and peanut butter) will result in the production of biscuits that are less expensive and highly nutritive than those produced before.</p><p>It will also create new employment opportunities as well as economic self-reliance both at the industrial and house – hold level of cassava processors.</p> <br><p></p>

Blazingprojects Mobile App

📚 Over 50,000 Research Thesis
📱 100% Offline: No internet needed
📝 Over 98 Departments
🔍 Thesis-to-Journal Publication
🎓 Undergraduate/Postgraduate Thesis
📥 Instant Whatsapp/Email Delivery

Blazingprojects App

Related Research

Human resource manag. 4 min read

Enhancing Remote Work Productivity Through AI-Driven Employee Engagement Platforms...

This research focuses on finding ways to improve productivity for employees who work remotely by using artificial intelligence (AI) technology to create better ...

BP
Blazingprojects
Read more →
Home and rural econo. 4 min read

Assessing the Impact of Mobile Banking on Rural Household Income Generation...

This research investigates how mobile banking affects the income of rural households. In many rural areas, traditional banking services are hard to access, whic...

BP
Blazingprojects
Read more →
Geo-science. 2 min read

Development of a Remote Sensing-Based GIS Platform for Landslide Prediction...

This research focuses on creating a computer-based system that helps predict where landslides might happen using advanced technologies like remote sensing and G...

BP
Blazingprojects
Read more →
French. 4 min read

Optimisation des systèmes de gestion de l'apprentissage par l'intelligence artifici...

This research focuses on improving learning management systems (LMS), which are digital platforms used by schools and organizations to deliver, track, and manag...

BP
Blazingprojects
Read more →
Environmental scienc. 2 min read

Smart Sensor Networks for Urban Air Quality Monitoring and Management...

This research explores how networks of smart sensors can be used to monitor and manage air quality in urban areas. Air pollution is a significant health and env...

BP
Blazingprojects
Read more →
Environmental manage. 3 min read

Smart Waste Sorting Systems Using AI for Urban Recycling Efficiency...

This research focuses on developing and evaluating a smart waste sorting system that uses artificial intelligence (AI) to improve recycling processes in urban a...

BP
Blazingprojects
Read more →
Entrepreneurship. 2 min read

Developing an AI-powered Platform to Support Micro-Entrepreneurs' Business Growth...

This research aims to develop an Artificial Intelligence (AI)-powered digital platform designed specifically to support micro-entrepreneurs in growing their bus...

BP
Blazingprojects
Read more →
Crop science. 2 min read

Development of a Smartphone-Based Pest Identification System for Crop Management...

This research aims to develop a smartphone-based system that can identify crop pests quickly and accurately, helping farmers manage pest-related issues more eff...

BP
Blazingprojects
Read more →
Criminology. 4 min read

Assessing AI-Driven Predictive Policing and Its Impact on Community Trust...

This research explores how predictive policing tools that use artificial intelligence (AI) influence community trust in law enforcement. Predictive policing inv...

BP
Blazingprojects
Read more →
WhatsApp Click here to chat with us