Research Article
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Year 2020, , 103 - 112, 20.09.2020
https://doi.org/10.26701/ems.729747

Abstract

References

  • Ikpe, A. E., Orhorhoro, E. K., Erhinyodavwe, O. (2018). Design of a Multi-Purpose Crushing Machine for Processing of Food Grains in Nigeria. International Journal of Research Publications, 9(1): 1-9.
  • Nwakire, J. N., Ugwuishiwu, B. O., Ohagwu, C. J. (2011). Design, Construction and Performance Analysis of a Maize Thresher for Rural Dweller. Nigerian Journal of Technology, 30(2): 49-51.
  • Penuel, B. L., Khan, E. M. and Maitera, M. O. (2013). Properties of Proximate Composition and Elemental Analysis of Citrullus Vulgaris (Guna) Seed. Bulletine of Environment, Pharmacology and Life Sciences, 2(2): 39-46.
  • Umar, K. J., Hassan, L. G. Usman, H. and Wasagu, R. S. U. (2013) Nutritional Composition of the Seeds of Wild Melon Colocynthis Ecirrhosus. Pakistan Journal of Biological Sciences, 16(11): 536-540.
  • Enujuigha, V. N. and Ayodele, O. O. (2003). Evaluation of nutrients and some anti nutrients in lesser-known, underutilized oils seeds. International journal of food science and technology 38(5): 525-528.
  • National Research Council, Policy and Global Affairs, Development, Security and Cooperation (2006). Lost Crops of Africa: Volume II: Vegetables. National Academies Press, ISBN: 9780309103336.
  • Chen, H., Baerdemaeker, J. D., Bellon, V. (1996). Finite Element Study of the Melon for Non-destructive Sensing of Firmness. Transactions of the American Society of Agricultural Engineers, 39(3): 1057-1065.
  • Akubuo, C. O., Odigboh, E. U. (1999). Egusi fruit coring machine. Journal of Agricultural Engineering Research, 74: 121-126.
  • Oluwole, O. O., Adedeji, A. S. (2012). Effect of Moisture Content and Inner Drum Rotation Speed on the Shelling Performance of a Melon Sheller, Science and Technology, 2(2): 21-26.
  • Datsugwai, M. S. S., Aisha, A. and Vincent, B. T. (2019). Microbial Quality and Sensory Characteristics of Instant Nigeria Egusisoups. Annals. Food Science and Technology, 20(3): 494-501.
  • Shittu1 S. K., Ndrika, V. I. O. (2012). Development and performance tests of a melon (Egusi) seed shelling machine 1(2): 1-11.
  • Jolaoso, A. A., Ajayi, J. O., Ogunmuyiwa, S. I. O. and Albert, O. M. (2014). Functional Proximate and Mineral Composition of a lesser known Fermented Legume (Fermented Seeds of Cathormion Altissimum, Oso). Journal of Emerging Trends in Engineering and Applied Sciences, 5(2): 129-134.
  • Norton, G. (1993). Guna seed analysis. Applied Biochemistry and Food Science Department, University of Nottingham, UK.
  • Oyediran, W. O. (2013). Factors affecting melon (Citrullus colocynthis) production in Oyo state, Nigeria. Unpublished M. Agric. Thesis, Department of Agricultural Extension and Rural Development, Federal University of Agriculture Abeokuta, 71-73.
  • Kushwaha, H. L., Strivastava A. P., Singh H. (2006). Development and Performance Evaluation of an okra seed Extractor. Agricultural Engineering International, 7: 1-13.
  • Aviara, N. A., Hague, M. A. (2002). Processing and Storage of Guava Crop. Agricultural Mechanization in Asia, Africa and Latin America, 33(1): 49-54.
  • Jackson, B. A., Adamade, C. A., Azogu, I. I., Oni, K. C. (2013). Melon pod fermentation and its effects on physiochemical characteristics of melon seeds. Scientific Research and Essays, 8(17): 664-669.
  • Oriaku, E. C., Agulanna, C. N., Nwannewuihe, H. U. (2013). Comparative Performance Analysis of Melon (Colocynthis Citrullus L.) De-Husking and Separation Machines by Principles of Impact and Attrition. International Journal of Multidisciplinary Sciences and Engineering, 4(7): 53-59.
  • Nwakuba, N. R. (2016). Performance Testing of a Locally Developed Melon Depodding Machine. International Journal of Agriculture, Environment and Bioresearch, 1(1): 7-25.
  • Oloko, S. A., Agbetoye, L. A. S. (2006). Development and Performance Evaluation of a Melon Depodding Machine. Agricultural Engineering International: the CIGR e-Journal, 8: 1-10.
  • Ikpe A. E. And Owunna, I. B. (2020). Design Analysis of Reciprocating Piston for Single Cylinder Internal Combustion Engine. International Journal of Automotive Science and Technology, 4(2): 30-39.
  • Ikpe A. E. And Owunna, I. B. (2019). Design of Remotely Controlled Hydraulic Bottle Jack for Automobile Applications. International Journal of Engineering Research and Development, 11(1): 124-134.
  • Ikpe A. E. And Owunna, I. B. (2017). Design of Vehicle Compression Springs for Optimum Performance in their Service Condition. International Journal of Engineering Research in Africa, 33, 22-34.
  • Ikpe A. E. And Owunna, I. B. (2020). A 3D Modelling of the In-Cylinder Combustion Dynamics of Two Stroke Internal Combustion Engine in its Service Condition. Nigerian Journal of Technology, 39(1), 161-172.
  • Ikpe, A. E., Ndon, A. E and Adoh, A. U. (2019). Modelling and Simulation of High Density Polyethylene Liner Installation in Engineered Landfill for Optimum Performance. Journal of Applied Science and Environmental Management, 23(3): 449-456.
  • Owunna, I., Ikpe, A. E. and Achebo, J. I. (2018). 3D Finite Element Modelling of Weld Bead Penetration in Tungsten Inert Gas (TIG) Welding of AISI 1020 Low Carbon Steel Plate, European Mechanical Science, 2(3): 96-105.
  • Ikpe, A. E., Owunna, I. (2017). Design of Used PET Bottles Crushing Machine for Small Scale Industrial Applications. International Journal of Engineering Technologies, 3(3): 157-168.
  • Ikpe, A. E., Owunna, I. (2019). Design of Automatic Cooling Power Hacksaw Machine for Multipurpose Applications. International Journal of Engineering Technology and Sciences, 6(1): 1-14.

Design and Fabrication of a Modular Melon Depodding Machine for Optimum Performance in Nigerian Agricultural Sector

Year 2020, , 103 - 112, 20.09.2020
https://doi.org/10.26701/ems.729747

Abstract

The traditional methods of depodding melon pods to extract the edible seeds is a time consuming and tedious process. A melon depodding machine was therefore designed, fabricated and tested for use in Nigeria. The fabricated machine had the following operating units: depodding chamber, power system, feeding hopper, supporting frame, electric motor, gear shaft, discharge unit etc. The average mass of melon pod of 1.671 kg and the average diameter of the melon pod of 139.25 mm were obtained experimentally. From the performance test carried out on the machine, average percentage of depodded seeds of 91.1255%, average percentage of undepodded seeds of 7.2915%, the average percentage of damaged seeds of 1.5835% and the average percentage of useful seeds of 98.4165%. Considering the aforementioned results, the melon depodding machine designed in this study can perform optimally in both domestic and commercial level in Nigeria.

References

  • Ikpe, A. E., Orhorhoro, E. K., Erhinyodavwe, O. (2018). Design of a Multi-Purpose Crushing Machine for Processing of Food Grains in Nigeria. International Journal of Research Publications, 9(1): 1-9.
  • Nwakire, J. N., Ugwuishiwu, B. O., Ohagwu, C. J. (2011). Design, Construction and Performance Analysis of a Maize Thresher for Rural Dweller. Nigerian Journal of Technology, 30(2): 49-51.
  • Penuel, B. L., Khan, E. M. and Maitera, M. O. (2013). Properties of Proximate Composition and Elemental Analysis of Citrullus Vulgaris (Guna) Seed. Bulletine of Environment, Pharmacology and Life Sciences, 2(2): 39-46.
  • Umar, K. J., Hassan, L. G. Usman, H. and Wasagu, R. S. U. (2013) Nutritional Composition of the Seeds of Wild Melon Colocynthis Ecirrhosus. Pakistan Journal of Biological Sciences, 16(11): 536-540.
  • Enujuigha, V. N. and Ayodele, O. O. (2003). Evaluation of nutrients and some anti nutrients in lesser-known, underutilized oils seeds. International journal of food science and technology 38(5): 525-528.
  • National Research Council, Policy and Global Affairs, Development, Security and Cooperation (2006). Lost Crops of Africa: Volume II: Vegetables. National Academies Press, ISBN: 9780309103336.
  • Chen, H., Baerdemaeker, J. D., Bellon, V. (1996). Finite Element Study of the Melon for Non-destructive Sensing of Firmness. Transactions of the American Society of Agricultural Engineers, 39(3): 1057-1065.
  • Akubuo, C. O., Odigboh, E. U. (1999). Egusi fruit coring machine. Journal of Agricultural Engineering Research, 74: 121-126.
  • Oluwole, O. O., Adedeji, A. S. (2012). Effect of Moisture Content and Inner Drum Rotation Speed on the Shelling Performance of a Melon Sheller, Science and Technology, 2(2): 21-26.
  • Datsugwai, M. S. S., Aisha, A. and Vincent, B. T. (2019). Microbial Quality and Sensory Characteristics of Instant Nigeria Egusisoups. Annals. Food Science and Technology, 20(3): 494-501.
  • Shittu1 S. K., Ndrika, V. I. O. (2012). Development and performance tests of a melon (Egusi) seed shelling machine 1(2): 1-11.
  • Jolaoso, A. A., Ajayi, J. O., Ogunmuyiwa, S. I. O. and Albert, O. M. (2014). Functional Proximate and Mineral Composition of a lesser known Fermented Legume (Fermented Seeds of Cathormion Altissimum, Oso). Journal of Emerging Trends in Engineering and Applied Sciences, 5(2): 129-134.
  • Norton, G. (1993). Guna seed analysis. Applied Biochemistry and Food Science Department, University of Nottingham, UK.
  • Oyediran, W. O. (2013). Factors affecting melon (Citrullus colocynthis) production in Oyo state, Nigeria. Unpublished M. Agric. Thesis, Department of Agricultural Extension and Rural Development, Federal University of Agriculture Abeokuta, 71-73.
  • Kushwaha, H. L., Strivastava A. P., Singh H. (2006). Development and Performance Evaluation of an okra seed Extractor. Agricultural Engineering International, 7: 1-13.
  • Aviara, N. A., Hague, M. A. (2002). Processing and Storage of Guava Crop. Agricultural Mechanization in Asia, Africa and Latin America, 33(1): 49-54.
  • Jackson, B. A., Adamade, C. A., Azogu, I. I., Oni, K. C. (2013). Melon pod fermentation and its effects on physiochemical characteristics of melon seeds. Scientific Research and Essays, 8(17): 664-669.
  • Oriaku, E. C., Agulanna, C. N., Nwannewuihe, H. U. (2013). Comparative Performance Analysis of Melon (Colocynthis Citrullus L.) De-Husking and Separation Machines by Principles of Impact and Attrition. International Journal of Multidisciplinary Sciences and Engineering, 4(7): 53-59.
  • Nwakuba, N. R. (2016). Performance Testing of a Locally Developed Melon Depodding Machine. International Journal of Agriculture, Environment and Bioresearch, 1(1): 7-25.
  • Oloko, S. A., Agbetoye, L. A. S. (2006). Development and Performance Evaluation of a Melon Depodding Machine. Agricultural Engineering International: the CIGR e-Journal, 8: 1-10.
  • Ikpe A. E. And Owunna, I. B. (2020). Design Analysis of Reciprocating Piston for Single Cylinder Internal Combustion Engine. International Journal of Automotive Science and Technology, 4(2): 30-39.
  • Ikpe A. E. And Owunna, I. B. (2019). Design of Remotely Controlled Hydraulic Bottle Jack for Automobile Applications. International Journal of Engineering Research and Development, 11(1): 124-134.
  • Ikpe A. E. And Owunna, I. B. (2017). Design of Vehicle Compression Springs for Optimum Performance in their Service Condition. International Journal of Engineering Research in Africa, 33, 22-34.
  • Ikpe A. E. And Owunna, I. B. (2020). A 3D Modelling of the In-Cylinder Combustion Dynamics of Two Stroke Internal Combustion Engine in its Service Condition. Nigerian Journal of Technology, 39(1), 161-172.
  • Ikpe, A. E., Ndon, A. E and Adoh, A. U. (2019). Modelling and Simulation of High Density Polyethylene Liner Installation in Engineered Landfill for Optimum Performance. Journal of Applied Science and Environmental Management, 23(3): 449-456.
  • Owunna, I., Ikpe, A. E. and Achebo, J. I. (2018). 3D Finite Element Modelling of Weld Bead Penetration in Tungsten Inert Gas (TIG) Welding of AISI 1020 Low Carbon Steel Plate, European Mechanical Science, 2(3): 96-105.
  • Ikpe, A. E., Owunna, I. (2017). Design of Used PET Bottles Crushing Machine for Small Scale Industrial Applications. International Journal of Engineering Technologies, 3(3): 157-168.
  • Ikpe, A. E., Owunna, I. (2019). Design of Automatic Cooling Power Hacksaw Machine for Multipurpose Applications. International Journal of Engineering Technology and Sciences, 6(1): 1-14.
There are 28 citations in total.

Details

Primary Language English
Subjects Mechanical Engineering
Journal Section Research Article
Authors

Osasumwen Ogiemudia This is me 0000-0003-3899-1690

Aniekan Ikpe 0000-0001-9069-9676

Lucky Chughıefe This is me 0000-0002-6630-7422

Publication Date September 20, 2020
Acceptance Date May 8, 2020
Published in Issue Year 2020

Cite

APA Ogiemudia, O., Ikpe, A., & Chughıefe, L. (2020). Design and Fabrication of a Modular Melon Depodding Machine for Optimum Performance in Nigerian Agricultural Sector. European Mechanical Science, 4(3), 103-112. https://doi.org/10.26701/ems.729747

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