Design And Construction Of A Free Energy Generator

This research work on “Design And Construction Of A Free Energy Generator” is available in PDF/DOC. Click the below button to request or download the complete material

Abstract

This paper explores the utilization of a flywheel system for generating free energy. The flywheel’s energy storage capacity is harnessed to produce additional free energy, which is subsequently used to power other electrical appliances. The system involves a half-horsepower AC motor driving a series of belt and pulley mechanisms that form a gear-train, resulting in a significant increase in RPM at the alternator shaft.

A notable aspect of this setup is its ability to obtain greater electrical output power from the alternator than the apparent input power drawn by the motor. This phenomenon is facilitated by the integration of a gravity wheel, also known as a flywheel, which augments the gear-train to generate additional free energy.

The study comprehensively investigates various parameters of the flywheel to optimize the generation of free energy from the system, emphasizing the cost-free nature of this energy source

Chapter One

1.0 INTRODUCTION
This chapter introduces the Design And Construction Of A Free Energy Generator and its relevance, states the research problems, research questions, and objectives, provides a background of the study, and should also include the research hypothesis.

Table of Contents

Cover page
Title page
Approval page
Dedication
Acknoweldgement
Abstract

Chapter one
Introduction
1.1 background of the project
1.2 Objectives of the project
1.3 Significance of the project
1.4 Advantages of the project
1.5 Aim of the project
1.6 Scope of the project
1.7 Benefit of the project
1.8 Limitation of the project
1.9 Methodology
1.10 Project organisation

Chapter two
Literature review
2.1 Literature survey of the study
2.2 The evolution of the free energy option
2.3 Review of free energy technology
2.4 Cost of constructing free energy generators for domestic use
2.5 History of flywheel

Chapter three
System methodology
3.1 working principle
3.1 System layout
3.2 Design calculation

Chapter four
4.1 Construction procedure and testing analysis
4.2 Assembling of sections
4.3 Testing of system operation

Chapter five
5.1 Conclusion
5.2 Recommendation
5.3 References