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Development and Performance Evaluation of a Maize Planter

Yıl 2020, Cilt: 4 Sayı: 4, 157 - 164, 28.12.2020

Öz

A self-propelled maize seeding machine was produced with locally available materials to meet the needs and reduce the difficulties in maize farming for rural, small, and medium-sized farmers. The major components of the machine are hopper, reducing gear, pillow bearing, gasoline engine, metering device, furrow opener, furrow closer, shafts, frame support, pulley, belt, casing, side cover, wheels and handle. The machine was powered by a petrol engine and power transmission was by belt and pulley arrangement from the reducing gear to the driving shaft that engages the front wheels with the help of sprocket and chain to transfer the power from the front wheel to the metering mechanism. The planter effectively metered out three seeds per discharge at average planting depth varying from 2.47 cm to 2.60 cm with average percentage seed damage of 8.33%. An average weight varying from 4.44 g to 4.72 g of seeds was discharged by the hopper at a mean planting space range of 48.20 cm to 49.80 cm were also obtained. The field efficiency of 73.7%, machine efficiency of 87.66%, and average field capacity of 0.30 ha/hr were obtained. The production cost of the machine is $150.

Destekleyen Kurum

Federal University of Technology Akure

Teşekkür

Thanks

Kaynakça

  • [1] R. L. Paliwal, G, Granados, H. R, Lafitte, A. D. Violic, and J. P. Marathée, Tropical maize: improvement and production. FAO Plant Production and Protection Series. Volume 28. FAO, Rome, Italy, 2000.
  • [2] J. R. N. Murray, J. Tullberg, and B. B. Basnet, Australian center for international agricultural research (ACIAR) monograph 121, 2006.
  • [3] S. Singh, Design, development, and evaluation of tractor-drawn ridger planter for winter maize. Biennial Report, Department of Farm Power and Machinery, PAU, Ludhiana, India, 1984.
  • [4] L. O. Adekoya, and W. F. Buchele, “A Precision Punch Planter for use in titled and untitled soil”, Journal of Agric-Engineering research, vol. 37, issue 3, pp. 172-178, 1987.
  • [5] A. Lara-Lopez, J. Guillen-Sanchez, and L. Perez-Sobrenlla, “Development of a direct planter for corn and faba beans”, Agricultural Mechanization in Asia, Africa and Latin America, vol. 27, issue 2, pp. 25-28, 1996.
  • [6] O. Oduma, J. C. Ede, and J. E. Igwe, “Development and Performance Evaluation of a manually operated cowpea precision planter”, International Journal of Engineering and Technology, vol. 4, issue 12, pp. 4-7, 2014.
  • [7] S. Ahmmed, K. C. Roy, M. N. Amin, M. A. Wohab, and M. A. Matin, “Design and development of a power tiller operated inclined plate multi-crop planter”, Journal of the Institutions of Engineers Bangladesh, Agril. Engg. Division 31/AE, vol. 1, pp. 89-96, 2004.
  • [8] R. S. Khurmi, and J. K. Gupta, Theory of Machines, Eurasia publishing house (PVT) Ltd. New Delhi, 8th Edition, 2007, pp. 72-81.
  • [9] R. S. Khurmi, and J. K. Gupta Khurmi, A textbook of machine design, 14th edition, New Delhi: Eurasia Publishing House (PVT) Ltd., 2008, pp. 79-89.
  • [10] M. A. Rabbani, M. M. Hossain, J. F. Asha, and N. A. Khan, “Design and development of a low-cost planter for maize establishment”, Journal of Science, Technology and Environment Informatics, vol. 4, issue 1, pp. 270-279, 2016.
  • [11] A. I. Bamgboye, and A. S. Mofolasayo, “Performance evaluation of a Two-row Okra plant” Agricultural Engineering International, The CIGR E-Journal. Manuscript PM 06 002. vol. 8, 2006.
  • [12] R. A. Kepner, R. Bainer, and E. L. Benger, Principles of farm machinery. 3rd Edition.Westport. G. AV, Publishing company Inc. 1978.
  • [13] S. Afzalinia, M. Shaker, and Z. Zare, “Performance evaluation of common drills in Iran”, Canadian bio-system engineering/ Le genie des biosystem es au Canada, vol. 48, issue 2, pp.39- 43, 2006.
  • [14] A. A. Elijah, and D. A. Adejoke, “Development of a self-propelled multi-crop two rows precision planter”, A new design concept for the metering mechanism. International Journal of Mechanical Engineering and Technology, vol. 9, issue10, pp. 349 – 358, 2018.
Yıl 2020, Cilt: 4 Sayı: 4, 157 - 164, 28.12.2020

Öz

Kaynakça

  • [1] R. L. Paliwal, G, Granados, H. R, Lafitte, A. D. Violic, and J. P. Marathée, Tropical maize: improvement and production. FAO Plant Production and Protection Series. Volume 28. FAO, Rome, Italy, 2000.
  • [2] J. R. N. Murray, J. Tullberg, and B. B. Basnet, Australian center for international agricultural research (ACIAR) monograph 121, 2006.
  • [3] S. Singh, Design, development, and evaluation of tractor-drawn ridger planter for winter maize. Biennial Report, Department of Farm Power and Machinery, PAU, Ludhiana, India, 1984.
  • [4] L. O. Adekoya, and W. F. Buchele, “A Precision Punch Planter for use in titled and untitled soil”, Journal of Agric-Engineering research, vol. 37, issue 3, pp. 172-178, 1987.
  • [5] A. Lara-Lopez, J. Guillen-Sanchez, and L. Perez-Sobrenlla, “Development of a direct planter for corn and faba beans”, Agricultural Mechanization in Asia, Africa and Latin America, vol. 27, issue 2, pp. 25-28, 1996.
  • [6] O. Oduma, J. C. Ede, and J. E. Igwe, “Development and Performance Evaluation of a manually operated cowpea precision planter”, International Journal of Engineering and Technology, vol. 4, issue 12, pp. 4-7, 2014.
  • [7] S. Ahmmed, K. C. Roy, M. N. Amin, M. A. Wohab, and M. A. Matin, “Design and development of a power tiller operated inclined plate multi-crop planter”, Journal of the Institutions of Engineers Bangladesh, Agril. Engg. Division 31/AE, vol. 1, pp. 89-96, 2004.
  • [8] R. S. Khurmi, and J. K. Gupta, Theory of Machines, Eurasia publishing house (PVT) Ltd. New Delhi, 8th Edition, 2007, pp. 72-81.
  • [9] R. S. Khurmi, and J. K. Gupta Khurmi, A textbook of machine design, 14th edition, New Delhi: Eurasia Publishing House (PVT) Ltd., 2008, pp. 79-89.
  • [10] M. A. Rabbani, M. M. Hossain, J. F. Asha, and N. A. Khan, “Design and development of a low-cost planter for maize establishment”, Journal of Science, Technology and Environment Informatics, vol. 4, issue 1, pp. 270-279, 2016.
  • [11] A. I. Bamgboye, and A. S. Mofolasayo, “Performance evaluation of a Two-row Okra plant” Agricultural Engineering International, The CIGR E-Journal. Manuscript PM 06 002. vol. 8, 2006.
  • [12] R. A. Kepner, R. Bainer, and E. L. Benger, Principles of farm machinery. 3rd Edition.Westport. G. AV, Publishing company Inc. 1978.
  • [13] S. Afzalinia, M. Shaker, and Z. Zare, “Performance evaluation of common drills in Iran”, Canadian bio-system engineering/ Le genie des biosystem es au Canada, vol. 48, issue 2, pp.39- 43, 2006.
  • [14] A. A. Elijah, and D. A. Adejoke, “Development of a self-propelled multi-crop two rows precision planter”, A new design concept for the metering mechanism. International Journal of Mechanical Engineering and Technology, vol. 9, issue10, pp. 349 – 358, 2018.
Toplam 14 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Articles
Yazarlar

Olufemi Adetola 0000-0002-1328-8213

Victor Akinmade Bu kişi benim

Yayımlanma Tarihi 28 Aralık 2020
Yayımlandığı Sayı Yıl 2020 Cilt: 4 Sayı: 4

Kaynak Göster

IEEE O. Adetola ve V. Akinmade, “Development and Performance Evaluation of a Maize Planter”, IJESA, c. 4, sy. 4, ss. 157–164, 2020.

ISSN 2548-1185
e-ISSN 2587-2176
Period: Quarterly
Founded: 2016
Publisher: Nisantasi University
e-mail:ilhcol@gmail.com