Adewale SEDARA, Roseline LANWO, Oluwadunsin SEDARA

Development of a Low Cost Two- Row Groundnut Planter

The groundnut seed composed of approximately equal weight of fatty and non-fatty oil. The groundnut cake (kulikuli- Hausa name in Nigeria) contains concentrated protein, minerals, and vitamins in addition research finding revealed that no part of the nut is a waste. The kernel without the nuts can be used as hay to feed animals like, horse or ash manure. Planting machine or planter that is normally required to produce more food is beyond the buying capacity of smallholder’s farmers, which result in low productivity especially in the production of grains. An improved manual two-row groundnut planter was developed and evaluated for its performance using locally sourced materials which can be adapted for gardens and smallholder farmers. The machine has the following parts which are furrow opener, handle, frame, hopper, discharge tube, metering unit, and roller housing. The machine was evaluated for field capacity and metering efficiency (3 hole metering devices) at different forward speeds. It was observed that the machine field capacity efficiency of was 82%. Using standard error bars the highest metering efficiency of 92% was observed at 0.7 m s-1 machine speed. The ANOVA (analysis of variance) shows that speed as significant effect on metering efficiency with a p-value of 5.44E-18. The planter could plant an average of five seeds per point. It is simple, cheap and the ergonomics of the machine was considered which makes it easy to operate.

Keywords:

groundnut, planter metering efficiency, field efficiency, planting efficiency,

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Abdalla, A. N. O. (2007). Comparison of two row planting machine performance as effected by forward speed under two soil condition.M.SC. Thesis University of Khartoum.
Ani, O. A., Uzoejinwa, B. B., and Anochili, N. F., (2016). “Design, construction and evaluation of a vertical plate maize seed planter for gardens and small holder farmers. Nigerian Journaal of Technology, Vol. 35, No. 3, pp. 647-655.
Ashoka, H.G., Jayanthi, B. and Prashantha, G.M. (2012). Performance evaluation of power drawn six row groundnut planter. International Journal of Agricultural Engineering, 5(2): 123-126.
Desmae, H. and Sones. H. (2017). Groundnut cropping guide.
Food and Agricultural Organizations of the United Nations FAOSATAT (2018). Statistical Data Base. Food and Agricultural Organizations of the United Nations: Rome, Italy.
Hunt, D. R. (1995). Farm power and machinery management seventh ed. Iowa state university press Amis. U.S.A. Pp. 82-90.
Khurmi, R. S., and Gupta, J. K. (2005). "A Textbook of Machine Design” 14th revised Russnogle, J., (2009). "World's Largest Planter: John Deere's DB120". Corn & Soybean Digest.
Kyada, A. R. and Patel, D. B. (2014). “Design and Development of Manually Operated Seed Planter Machine” of Lecture 5th International and 26th All India Manufacturing Technology, Design and Research Conference (AIMTDR 2014), IIT Guwahati, Assam, India. Vol 2.
Mohammed, K., Afutu, E. Odong, T. Okello, D. Nuwamanya, E. Grigon, O. Rubaihayo P. and Okori. P. (2018). Assessment of Groundnut (Arachis hypogaea L.) Genotypes for Yield and Resistance to Late Leaf Spot and Rosette Diseases. Journal of Experimental Agriculture International, 21: 1-13.
Sugri, I. (2020). Prevalence, Perception and Participatory Management of Aflatoxins in Groundnut with Emphasis on Northern Ghana. Acta Scientific Nutritional Health, 4: 01-10.edition. Chapters 2, 14 and 18.
Thakur, V. K., M. K. Thakur and Gupta R. K (2013). Rapid synthesis of graft copolymers from natural cellulose fibers. Carbohydrate polymers, 98: 820-828.
Zongo, A., Konate A. K., Koïta, K, Sawadogo, M., Sankara, P., Ntare B. R. and Desmae H. (2019). Dialy Analysis of Early Leaf Spot (Cercospora arachidicola Hori) Disease Resistance in Groundnut. Agronomy, 9: 15.