ABSTRACT
This study deals with the design, construction and performance evaluation of 1000W (1KVA) fuelless power generating set to serve as an alternative source of energy. The materials used for the project work included c motor, alternator, connecting shaft, coupling, 12V/75Ah battery, charging panel (Transformer, diode, and capacitor), and frame. The methods involved fabrication of a connecting rod with boring of a reasonable hole that was conveniently fitted into the DC motor with threaded hole for bolting. The crank casing of the alternator was inserted and the armature of the alternator was fixed. The generator frame was then constructed to provide support and rigidity. The diode was connected to green cables and capacitors to the yellow cable. The terminal of the DC motor was connected to the battery, with red cables to the mains as output. The machine consists of five different units; the power supply, conversion, control, output and charging units. The components parts includes 12V battery, D.C motor, alternator, connecting shaft, bolts and nuts, transformer, diode, and noise damper. The result of the performance evaluation of the fuel-less power generating set shows that the machine has an average efficiency of 56.43% at load of 600W for continuous operation. The peak efficiency of the constructed fuel-less power generating set was 89.1% at load of 100W. For comparison, the result obtained from Power inverter, has clearly confirmed that the highest efficiency recorded is at 96.27% which is more than that of the fuel-less power generating set which is at 89.1%, at a load of 100W respectively.
TABLE OF CONTENTS
Title
page i
Dedication
ii
Certification
iii
Acknowledgement
iv
Table
of contents v
List
of Tables ix
List
of Figures ix
Abstracts
x
CHAPTER 1:
INTRODUCTION 1
1.1
Background
to the Study 1
1.2
Statement
of Problem 2
1.3
Aims
and Objective of the Study 3
1.4
Scope
of the Study 3
1.5
Justification
of the Study 3
CHAPTER 2:
LITERATURE REVIEW
2.1 Introduction 4
2.2 History of Generators 6
2.3 Electromagnetism 7
2.4 Chemical Reaction in car battery 8
2.5 Direct current Generators 9
2.5.1 Evolution of dynamos 9
2.6 Alternating Current generators 10
2.7 Early developments of fuel less generators 11
2.8 Empirical Review 12
CHAPTER 3:
MATERIAL AND METHODS
3.1 Method 15
3.2 Fuel less power generating set component
units 16
3.2.1 The power supply unit 16
3.2.2 Conversion unit 16
3.2.3 Control unit 16
3.2.4 Crankshaft 16
3.2.5 Output unit 17
3.3 constructional features 17
3.3.1 The frame 17
3.3.2 The motor seat 18
3.3.3 Alternator seat 18
3.3.4 Battery and charging panel seat 18
3.3.5 Alternator 18
3.3.6 D.C Motor 19
3.4 Construction (Design) procedures 19
3.5
Fuel less engine process 20
3.5.1 Mechanical model 20
3.5.2 Electrical model 20
CHAPTER 4:
RESULTS AND DISCUSSION
4.1 Introduction 24
4.2 Testing 25
4.3
Output Efficiency for fuel less power generator 26
4.4 Exploitation possibilities 28
4.5 D.C Motor Developments 29
4.6 Potentials of fuel less engine 29
CHAPTER 5:
CONCLUSION AND RECOMMENDATIONS
5.1 Conclusion 30
5.2 Recommendations 31
References 33
LIST OF TABLES
Table
1: Bill of Engineering Management and Evaluation 22
Table
2: Performance Evaluation of fuel less power generating set 24
Table
3: Output Efficiency of fuel less generator 25
LIST OF FIGURES
Fig.
3.1: Fuel less generator construction diagram 15
Fig.
3.2: Alternator 23
Fig.
3.3: Battery 23
Fig.
3.4: Battery cable 23
Fig.
3.5: Crankshaft 23
Fig.
3.6: D.C.Motor 23
Fig.
3.7: Diode 23
Fig.
3.8: Fuel less Generator 23
Fig.
4.1: Input and output power of Fuel less generator 27
EKE, S (2023). Design, Construction And Performance Evaluation Of A Mini Power(1KVA) Fuel –Less Generator As An Alternative Power For Low Power Consumption . Mouau.afribary.org: Retrieved Dec 22, 2024, from https://repository.mouau.edu.ng/work/view/design-construction-and-performance-evaluation-of-a-mini-power1kva-fuel-less-generator-as-an-alternative-power-for-low-power-consumption-7-2
SAMUEL, EKE. "Design, Construction And Performance Evaluation Of A Mini Power(1KVA) Fuel –Less Generator As An Alternative Power For Low Power Consumption " Mouau.afribary.org. Mouau.afribary.org, 15 Aug. 2023, https://repository.mouau.edu.ng/work/view/design-construction-and-performance-evaluation-of-a-mini-power1kva-fuel-less-generator-as-an-alternative-power-for-low-power-consumption-7-2. Accessed 22 Dec. 2024.
SAMUEL, EKE. "Design, Construction And Performance Evaluation Of A Mini Power(1KVA) Fuel –Less Generator As An Alternative Power For Low Power Consumption ". Mouau.afribary.org, Mouau.afribary.org, 15 Aug. 2023. Web. 22 Dec. 2024. < https://repository.mouau.edu.ng/work/view/design-construction-and-performance-evaluation-of-a-mini-power1kva-fuel-less-generator-as-an-alternative-power-for-low-power-consumption-7-2 >.
SAMUEL, EKE. "Design, Construction And Performance Evaluation Of A Mini Power(1KVA) Fuel –Less Generator As An Alternative Power For Low Power Consumption " Mouau.afribary.org (2023). Accessed 22 Dec. 2024. https://repository.mouau.edu.ng/work/view/design-construction-and-performance-evaluation-of-a-mini-power1kva-fuel-less-generator-as-an-alternative-power-for-low-power-consumption-7-2