ABSTRACT
Shelling of groundnut pods (Arachis hypegea) by hand is tedious, laborious and unhygienic with low efficiencies. As a result farmer get low income due to amount of broken kernels and a lot of time is lost in the tedious shelling operation. To overcome this problem, pertinent parameters that influence shelling efficiency of pedal operated groundnut decorticator were identified. Pedal operated decorticator were designed and fabricated with chain and sprocket of bicycle and aluminum spike tooth is used and evaluation was done in the department of Agricultural and Bio-Environmental Engineering Technology, Kwara State Polytechnic, Ilorin because it was affordable and locally fabricated. A rotary motion mechanism was employed to drive the decorticating drum while concave screen was fixed. The selection of the screen aperture was based on the size and shape of the groundnut seed. The factors considered in this project work were feed rate and operators characteristics (height, weight and knuckle lengths). The evaluation of machine was conducted while time was taken for each tests. The result of the pedal operated groundnut decorticator revealed that operator III has the maximum shelling efficiency of 65% was achieved at 9minutes, 16 seconds and breakage of 9% and throughput capacity of 15.3kg/hr. Operator II was the optimum shelling efficiency of 56% at 12 minutes 44 seconds and breakage of 8% and throughput capacity of 14kg/hr. Operator I has the minimum shelling efficiency of 47% at 11 minutes 44 seconds and breakage of 16% and throughput capacity of 15kg/hr. The total amount used for the fabrication of the pedal operated groundnut decorticator was totaled to Ninety-two Thousand and Seven Hundred Naira only (N92,700.00). The result of the fabricator implies that the characteristics of Operator III is recommended to farmers who shell for seed can now obtained more seed shelled with low breakage and will get more income.
TABLE OF CONTENTS
Cover Page i
Title Page ii
Certification iii
Dedication iv
Acknowledgements v
Abstractvi
Table of Contents vii
List of Tables xi
List of Figures xii
List of Plates xiii
CHAPTER ONE: INTRODUCTION 1
1.1 Background to the Study 1
1.2 Statement of the Problems 2
1.3 Objective of the Project2
1.4 Justification of the Project3
1.5 Scope of the Study 3
CHAPTER TWO: LITERATURE REVIEW 4
2.1 Physical Properties of Groundnut4
2.1.1 Determination of Size 4
2.1.2 Determination of Coefficient of Friction 5
2.1.3 Determination of Moisture Content5
2.1.4 Angle of Repose 6
2.1.5 Porosity 6
2.1.6 Surface Area 6
2.2 History of Groundnut in Nigeria 6
2.3 Agronomy of Groundnut7
2.4 Post Harvest Losses of Groundnut Seeds 8
2.5 Economic Importance of Groundnut Seed 9
2.6 Factor Affecting Shelling Operation 11
2.6.1 Cylinder-Concave Clearance 11
2.6.2 Sieve Shake 12
2.7 Description of some Threshing Equipment12
2.7.1 Maize Sheller12
2.7.2 Maize Dehusker-cum Sheller:13
2.7.3: Hand Maize Sheller13
2.7.4 Groundnut Striper14
2.7.5: Groundnut Thresher15
2.7.6: Groundnut Decorticator Manually Operated 16
2.7.7 Power Operated Groundnut Decorticator17
2.7.8 Pedal Operated Thresher (Paddy Thresher):18
2.8 Terminology Related to Thresher18
2.8.1 Feed Rate 18
2.8.2 Clean Grain 19
2.8.3 Concave Clearance 19
2.8.4 Cleaning Efficiency 19
2.8.5 Threshing Efficiency 19
2.9 Review of Existing work 19
CHAPTER THREE: MATERIAL AND METHODS
3.1 Physical Properties of Biological Materials 23
3.1.1 Sample Preparation 23
3.1.2 Determination of Size and Shape 24
3.1.3 Determination of Moisture Content24
3.1.4 Determination of Mass, Volume and Density 25
3.1.5 Determination of Coefficient of Static Friction 25
3.1.6 Determination of Angle of Repose 25
3.2 Description of the Groundnut Pedal Operated Machine 26
3.3 Design Consideration 28
3.4 Design Calculation and Analysis 28
3.4.1 Design for Hopper28
3.4.2. Design for Decorticating Unit29
3.4.3 Design of Chain Drive 32
3.4.3.1 Determination of Chain Length between the Pedal and Idler Shaft32
3.4.3.2 Determination of Chain Length Between the Idler Shaft and Decorticating Shaft33
3.4.3.3 Determination of Chain Length Between the Idler Shaft and Blower Shaft33
3.5 Material Selection 34
3.6 Fabrication Procedure and Assembly 34
3.6.1 Fabrication of Main Frame 34
3.6.2 Fabrication of Hopper35
3.6.3 Fabrication of Bicycle Pedal and Chain Drive 35
3.6.4 Fabrication of Decorticating Drum 35
3.6.5 Decorticating Screen 35
3.6.6 Operator Seat36
3.6.7 Aluminum Spike Tooth 36
3.7 Principle of Operation of the Machine 36
3.8 Cost Analysis 37
3.9 Performance Evaluation 38
3.9.1 Sourcing of Experimental Material38
3.9.2 Sample Preparation 38
3.9.3 Experimental Procedure 38
3.9.4 Instrumentation Used for the Experiment39
3.9.5 Design Layout42
3.9.6 Output Parameter42
CHAPTER FOUR: RESULTS AND DISCUSSION
4.0 Results And Discussion 45
4.1 Results 45
4.2. Discussion 46
4.2.1 Physical Properties of Groundnut Pods 46
4.2.2 Effect of Operator Parameter Threshing Efficiency 47
CHAPTER FIVE: CONCLUSIONS AND RECOMMENDATIONS
5.1 Conclusions 48
5.2 Recommendations 48
References 49
Appendix A 52
Appendix B 59
A., B (2022). Design, Fabrication and Performance Evaluation of Pedal Operated Groundnut Decorticator. Afribary. Retrieved from https://tracking.afribary.com/works/design-fabrication-and-performance-evaluation-of-pedal-operated-groundnut-decorticator
A., BOLADALE "Design, Fabrication and Performance Evaluation of Pedal Operated Groundnut Decorticator" Afribary. Afribary, 08 Jan. 2022, https://tracking.afribary.com/works/design-fabrication-and-performance-evaluation-of-pedal-operated-groundnut-decorticator. Accessed 21 Nov. 2024.
A., BOLADALE . "Design, Fabrication and Performance Evaluation of Pedal Operated Groundnut Decorticator". Afribary, Afribary, 08 Jan. 2022. Web. 21 Nov. 2024. < https://tracking.afribary.com/works/design-fabrication-and-performance-evaluation-of-pedal-operated-groundnut-decorticator >.
A., BOLADALE . "Design, Fabrication and Performance Evaluation of Pedal Operated Groundnut Decorticator" Afribary (2022). Accessed November 21, 2024. https://tracking.afribary.com/works/design-fabrication-and-performance-evaluation-of-pedal-operated-groundnut-decorticator