Design and construction of an induction coil | Blazingprojects Postgraduate Thesis
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Design and construction of an induction coil

 

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 Literature Review
  • 2.2Theoretical Framework
  • 2.3Conceptual Framework
  • 2.4Empirical Studies
  • 2.5Historical Perspective
  • 2.6Current Trends in the Field
  • 2.7Critical Analysis of Existing Literature
  • 2.8Research Gaps
  • 2.9Relevance to Current Study
  • 2.10Summary of Literature Review

Chapter THREE

SYSTEM DESIGN AND IMPLEMENTATION

  • 3.1Research Methodology Overview
  • 3.2Research Design
  • 3.3Data Collection Methods
  • 3.4Sampling Techniques
  • 3.5Data Analysis Procedures
  • 3.6Research Instruments
  • 3.7Ethical Considerations
  • 3.8Validation of Research Instruments

Chapter FOUR

SYSTEM TESTING AND EVALUATION

  • 4.1Data Presentation and Analysis
  • 4.2Descriptive Statistics
  • 4.3Inferential Statistics
  • 4.4Comparison of Results with Hypotheses
  • 4.5Discussion of Findings
  • 4.6Implications of the Results
  • 4.7Recommendations for Practice
  • 4.8Suggestions for Future Research

Chapter FIVE

SUMMARY, CONCLUSION AND RECOMMENDATIONS

  • 5.1Conclusion and Summary of Findings
  • 5.2Recap of Research Objectives
  • 5.3Contributions to the Field
  • 5.4Practical Implications
  • 5.5Limitations of the Study
  • 5.6Recommendations for Further Research
  • 5.7Conclusion Statement

Thesis Abstract

Abstract
Induction coils are vital components in various applications, including induction heating, induction cooking, and induction sealing. This research project focuses on the design and construction of an induction coil for use in an induction heating system. The primary objective is to develop a coil that efficiently generates high-frequency electromagnetic fields necessary for heating metallic objects. The research begins with a comprehensive review of the principles of electromagnetic induction and the factors influencing the design of induction coils. Various coil geometries, such as solenoidal, helical, and pancake coils, are considered to determine the most suitable configuration for the desired application. The selection of the coil material is crucial to ensure high electrical conductivity and mechanical strength. The design process involves determining the number of turns, coil dimensions, and wire gauge to achieve the desired inductance and resistance values. Finite Element Analysis (FEA) software is utilized to simulate the electromagnetic performance of the coil and optimize its design parameters. The simulation results guide the construction phase, ensuring the coil meets the required specifications for power output and heating efficiency. The construction of the induction coil involves winding the copper wire around a cylindrical or toroidal form to create the desired shape. Techniques such as layer winding and bifilar winding are employed to maximize the coil's efficiency and minimize losses. The insulation material is carefully selected to withstand high temperatures and prevent electrical breakdown during operation. Testing and validation of the induction coil are conducted using a power supply to measure the coil's inductance, resistance, and heating performance. The coil is subjected to various load conditions to evaluate its thermal stability and power transfer efficiency. Experimental data is compared with simulation results to verify the accuracy of the design and optimize the coil for practical applications. Overall, this research project contributes to the advancement of induction heating technology by providing insights into the design and construction of efficient induction coils. The developed coil demonstrates excellent performance in generating high-frequency electromagnetic fields for heating metallic objects, making it suitable for industrial applications requiring precise and controlled heating processes.

Thesis Overview

<p> </p><p>The write-up details the design and construction of an Induction coil which was capable of producing a high voltage in the secondary winding so as to produce a spark between the adjustable terminals of the secondary winding. The manual method of winding a coil was used to produce the primary and the secondary coil. All other necessary connections were made with respect to the circuit diagram. When a current is applied to the device, a high voltage was induced in the secondary coil through electromagnetic induction in the primary coil. As a result of this high voltage induced in the secondary coil, an electric spark was produced between the terminals of the secondary coil. This valuable device can be applied in the radio transmission station, hospitals, automobiles, labouratories, etc.</p><p><strong>CHAPTER ONE</strong></p><p><strong>1.0 &nbsp; &nbsp; &nbsp;</strong><strong>INTRODUCTION:</strong></p><p>A type of transformer that changes a low voltage direct current to a high voltage alternating current which produces an electric spark is known as <strong>INDUCTION COIL </strong>(Abbott, 1963).</p><p><strong>1.1 &nbsp; BACKGROUND OF THE STUDY</strong></p><p>When Michael Faraday and Joseph Henry independently discovered the electric induction and its principles back in 1831, they started a chain of events that led to the generation of alternating current electricity without which modern technology could not function. They built upon a discovery made by Hans Christian Oersted in 1820. Oersted found out that electric current flowing through a wire created a magnetic field. This was the first discovery linking electricity and magnet, and it galvanized scientists into a frenzy of research.</p><p>Faraday and Henry coupled with other few scientists followed the path of research and discovered that moving a magnet through a closed coil of winding did indeed “induce” the flow of an electric current in the wire. Initially, electric induction was a scientific curiosity, the direct current battery which had been invented by Allesandro Volta in 1800, had captured the interest of most of the researchers. It was until later in the 19th century that induction coils became of interest and that was due to the work of several individuals, such as French physists called Armand Hippolyte, Lious Fizeau and A. Apps who improved coil performance. </p><p>The induction coil uses the principle of electromagnetism. It is a corollary of Faraday’s law, together with Ampere’s law and Ohm’s law giving rise to the Lenz’s law. The EMF induced in an electric circuit always act in such a direction that the current it drives around the circuit opposes the change in magnetic flux which produces the EMF.</p><p>The induction coil does not only create an electric field or magnetic field, it also transforms the direct current which is usually of low voltage to high voltage. The induction coils were being used to create electrical discharges in gases at low pressure leading to the discovery of x-rays and real medical breakthroughs. It is often used in automotive ignition systems. Its principle is such that when a direct current is passed through the primary coil, a magnetic field is created which cause an EMF of a very high voltage to be induced in the secondary coil. The high voltage causes a spark to be produced between the two terminals of the secondary winding.</p><p>Due to this spark produced across the gap between the two terminals of the secondary winding, the induction coil was also known as the SPARK COIL. The size of the induction coil is determined by the length of spark it could produce (Albert, 1998).</p><p><strong>1.2 &nbsp; SIGNIFICANCE OF THE STUDY</strong></p><p>The study on the construction of an induction coil is significant in automobiles and linear engines. It is used in car ignition to produce a spark at the plug which is used to start car engines.</p><p>It is also seen in operation of some medical equipment. The induction coil produces a spark between the terminals of the secondary coil. This spark creates an electrical discharge in gases at low pressure which lead to the discovery of x-rays and in provision of real medical breakthrough (Breithaupt, (2000).</p><p><strong>1.3 &nbsp; &nbsp; &nbsp;</strong><strong>AIMS OF THE STUDY</strong></p><p>The principle aim of this project is to construct an induction coil, which is capable of inducing 2500volts on the secondary coil which would produce an electric spark at the adjustable gap between the two terminals of the secondary winding as a result of the very high voltage in it when a current is passed through the device.</p><p><strong>1.4 &nbsp; &nbsp; &nbsp;</strong><strong>STATEMENT OF THE RESEARCH PROBLEM</strong></p><p>The beginning of every task is always difficult. The fear of embarking on the project construction was a great challenge and a mantle of discouragement.</p><p>The material and all other components that was used in the construction was not common because the device itself is not common. As a result of this, sourcing for the materials and components was difficult. We had to visit different markets to get them complete.</p><p>The project is a great work and requires money to carry out the construction. Money has been scare and scarcity has been one of its characteristics. The scarcity of fund to finance the project was a big and challenging problem to overcome.</p><p>The unavailability of important books and the non easy access to the internet services made the search of information and knowledge needed for the project construction to be delayed. The challenge of moving outside the usual environment in search of information coupled with the waste of time and stress was quiet an intricate assignment.</p><p>In the packaging of the construction, we found it a bit difficult to source-out for the best and most suitable material for the packaging of the project work.</p><p><strong>1.5 &nbsp; LIMITATIONS OF STUDY</strong></p><p>It is bulky because the winding was done manually.</p> <br><p></p>

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