Advancing the Engineering Approach to Improving the Quality Cracking Efficiency of Palm Nut Crackiing Machine

Authors

DOI:

https://doi.org/10.24925/turjaf.v12i2.125-131.5815

Keywords:

Effective, configuration, optimum, machine, performance

Abstract

A Palm Nut cracking machine with an improved beater configuration was developed to effectively crack Palm Nuts of various species and sizes. This research aim at improving the quality of the Palm kernel recovered at relatively low cost during Palm kernel oil production. Durable materials were acquired locally to fabricate the machine for ease of usage and maintenance, also to make it affordable for small and large scale processors. Basic features of the machine are; hopper, electric motor (prime mower), cracking chamber, cracking beater and discharge outlet. The design of the cracking drum and beater configuration was based on the impact force required to crack the Palm Nut which is a function of Palm Nut shear strength. A 5 hp electric motor was selected based on the power required to effectively operate the machine. The machine was tested with “Tenera” varieties, three nut sizes (14.5, 22.15 and 29.43mm) and five speeds (970, 1200, 1450, 1750 and 2430rpm). Result shows that the change in machine speed significantly (P<0.05) affects all the machine performance irrespective of the Palm Nut size and variety, which agrees with the report of several other researchers. The obtained optimum machine performance values are 14,874 nuts/h, 89.5%, 98% for the machine capacity, quality performance efficiency and cracking efficiency for Tenera variety. The best crop and machine parameter for the optimum performance of the Palm Nutcracker are 29.43 mm and 970 rpm, nut size and machine speed.  It was concluded that the overall performance of this developed Palm Nut cracking beater was effective because it fell within the range of 80 to 98% efficiency.

References

Adejugbe I. T., Oyegunwa O.A., Iliya D. D., Aigbogun J. O., Oyelami A. T. and Olusunle S.O.O. (2017). Design and development of an improved palm kernel shelling machine and separator. Physical Science International Journal. 14(3): 1-9.

Amoah, F. and Bobobee, E. (2018). Development and performance evaluation of a motorized jatropha curcas seed cracker-winnower. International Journal of Agricultural and Biosystems Engineering. 3(5): 103-111.

Asibeluo, S. and Abu, L. (2015). Design and Construction of a Palm Kernel Cracker and Separator. International Journal of Engineering Trends and Technology. 20(1): 159-169 doi: 10.14445/22315381/ijett-v20p229.

Bangale, R. A., Jha A., Turbatmath, P. A. and R. V. (2018). Performance Evaluation of Power Operated Medicinal Nut Sheller for Ritha Nuts (Sapindus mukorossi). International Journal of Current Microbiology and Applied Sciences. 7 (5), ISSN: 2319-7706 . https://doi.org/10.20546/ijcmas.2018.705.256

Ezeoha, S. I., Akubuo, C. O. and Ani, A. O. (2012). Indigenous design and manufacture of palm kernel oil screw press in Nigeria: problems and prospects. International Journal of Applied Agricultural Research. 7(2): 67-82.

Food and Agriculture organization FAO. (2002). Small-scale palm oil processing in Africa. Agricultural Services Bulletin 148: 1-23.

Ghafari, A., Chegini, G. R., Khazaei, J., and Vahdati, K. (2011). Design, construction and performance evaluation of the walnut cracking machine. International Journal of Nuts and Related Sciences. 2(1): 11-16.

Idowu, D. I., Tamba, J., Rotimi, E. S., Olive, S., Onyema, J. O., and Williams, K. K., (2016). Design and performance evaluation of horizontal-shaft palm kernel cracking machine. Third International Conference on African Development Issues. 337- 341.

Jimoh M.O and Olukunle, O.J (2012)Effect of Heat Treatment During Mechanical Cracking Using Varieties of Palm Nut, Agric. Engr. Int. CIGR Journal 14(3), 2012, 168-174.

Kilanko, O., Ojolo, S. J., Inegbenebor, A. O., Ilori, T. A., Leramo, R. O., Babalola, P.O. and Sunday, olayinka oyedepo (2018). Design and performance evaluation of centrifugal cashew nut sheller for improving the whole kernel recovery. Cigr Journal. (20)1:163-170

Ogunsina, B. S. (2013). Crackability and chemical composition of pre-treated cashew nuts using a hand-operated knife cutter. CIGR Journal of Agric Engineering International, 15(2): 275-283.

Okokon F. B., Okoko, P., Akanga, A., Umani, K., and Obot, N. (2015). Effect of rotor speeds of centrifugal palm nut cracker on the characteristics of the constituents of the crack mixture. International Journal of Agricultural Policy and Research. 3 (8): 323-327.

Olaoye, J. O. and Adekanye, T. A. (2018). Properties influencing cracking and separation of palm nuts in a mechanical cracker cum separator. Croatian Journal of Food Science and Technology, Journal homepage: www.ptfos.unios.hr/cjfst/. Doi:10.17508/CJFST. 2018.10.1.07

Omoruyi, A., and Ugwu, K. C. (2015). Optimization and Performance Evaluation of Palm Nut Cracking Machine. International Journal of Science and Research (IJSR). 4 (7). ISSN: 2319-7064

Oyebanji, J. A., Oyedepo, S. O. and Adekeye. (2012). Performance evaluation of two palm kernel nut cracker machines. ICCEM. 211 – 223.

Solanki, C., Mridula, D., Aleksha, S. K., and Gupta R. K (2018). Optimization of dehulling parameters using indigenous oat dehulling machine. International Journal of Chemical Studies. 6 (6): 169-175.

Udo, S. B., Adejuyigbe, S. B., Ismaila, S. O and Adisa, A. F. (2015). Performance evaluation of a palm kernel nut cracking machine. Journal of natural science engineering and technology. 14(1): 111-116.

Downloads

Published

25.02.2024

How to Cite

Oluwatobi Israel, O., Olawale John, O., Oluwafemi Adeyemi, A., & Waleola, A. (2024). Advancing the Engineering Approach to Improving the Quality Cracking Efficiency of Palm Nut Crackiing Machine. Turkish Journal of Agriculture - Food Science and Technology, 12(2), 125–131. https://doi.org/10.24925/turjaf.v12i2.125-131.5815

Issue

Section

Research Paper