Investigating the Effect of Field and Crop Conditions on Combine Performance in Wheat Harvesting

Document Type : Research Paper

Authors

1 Assistant Professor, Department of Agricultural Machinery and Mechanization Engineering, Agricultural Sciences and Natural Resources University of Khuzestan, Ahvaz, Iran

2 Master of Science (MSc), Department of Agricultural Machinery and Mechanization Engineering, Agricultural Sciences and Natural Resources University of Khuzestan, Ahvaz, Iran

3 Associate Professor, Department of Agricultural Economics, Agricultural Sciences and Natural Resources University of Khuzestan, Ahvaz, Iran

Abstract

Using Combine is the common method to harvest wheat in Iran. Since harvesting operations as the most sensitive stage of production affected by combine harvester performance, therefore investigating the combine harvester performance has a special importance and it’s necessary to evaluate. In this study, the effect of field and crop conditions on combine harvester performance in wheat harvesting has been investigated. For this purpose, an experiment was conducted in a completely randomized experimental with an unbalanced 2 x 3 factorial designs and covariance analysis using a New Holland combine harvester (TC 5070 model 2014) in Shahid Beheshti’s agro industry company farms in the town of  Dezful, in 2016. Independent factors included three planting patterns (uniform row planting and furrow planting) and three levels of grain moisture contents (6-8, 8-10, 10 12 %), and dependent factors involved field capacity, field efficiency and the losses by combine. Furthermore, yield, percent of lodging and farm length were defined as covariant. The results indicated the effect of planting pattern on combine field capacity, combine field efficiency and combine losses have been significant (p value ≤ 0.01). The combine field capacity in the farms with uniform row planting pattern was 7.26 ton ha−1, while in farms with furrow planting pattern was 6.73 ton ha−1. The combine field efficiency in the farms with uniform row planting pattern was 83.70%, while in farms with furrow planting pattern was 82.42%. The losses by combine in the farms with uniform row planting pattern was 24.2 ton ha−1, while in farms with furrow planting pattern was 23.7 ton ha−1.

Keywords

Main Subjects

References

Abdi, R. and Jalali, A. (2013). Mathematical model for prediction combine harvester header losses. International Journal of Agriculture and Crop Sciences. 5 (5): 549-552.
Abo EL-Naga, M.H.M., M.A. Shetawy and Sh.F El-Hammed A. (2010). Evaluating the performance of a locally combine for harvest wheat crop. Misr Journal Agricultural Engineering. 27 (1): 104 – 121.
Ahmadi Chenarbon, H. Ebrahimzadeh, M.R. and Rohy R. (2009). The study of wheat losses combine harvesting in varamin areaPlant and Ecosystem. 5(17): 57-70. (In Farsi).
Ahmadvand, M. R. and Najafpour Z. (2010). Study of the level of cultivation, production and supportive policies of wheat during first to fourth development plans. Journal of Economic Research and Policies. 17(53):59-76. (In Farsi).
Anonymous. (2015a). Agricultural statistics. Ministry of Jihad-e- agriculture of Iran Volume I, crops, crop year 2013-14. Office of Agricultural Jihad Statistics and Technology. (In Farsi).
Anonymous. (2015b). Guidance on planting, harvesting and harvesting of wheat in Khuzestan province. Agricultural and Natural Resources Research Center of Khuzestan. Faculty Members of Agricultural Research Center for Natural Resources of Khuzestan. Autumn 2012. www.aeri.ir/WebFiles/WebGenerator/Files/9604.pdf. (In Farsi).
Bawatharani R., Jayatissa, D.N., Dharmasena, D.A.N. and Bandara, M. H. M. A. (2015). Field performance of a conventional combine harvester in harvesting Bg-300 paddy variety in Batticaloa, Srilanka. International Journal of Engineering Research. 4 (1): 33–35.
Bougari, E., Zaki Dizaj, H. and Khorasani, M. E. (2013a). Evaluation some affecting factors on John Deere combine 955 series losses during harvest by mathematical models (case study Ahvaz city). Elixir Agriculture 58: 15209-15213.
Bougari, E., Zaki Dizaj, H., Khorasani, M. E. and Mirshekali, S. (2013b). Assessment Wheat harvest losses in New Holland TC56 and JD955 combines (Case study in Ahwaz city). The National Conference of Strategic Research in Iran Agriculture. Islamic Azad University of Takestan Branch. Pp: 77-72. (In Farsi).
El-Yamani, A.E., El-Shazly, A. E. and El-Metwally, W. F. (2014). Development of a combine harvester for Mexican teosinte crop. Egyptian Journal of Agricultural Research. 92 (3): 1077-1093.
Farajian Mashhadi M.A., Kafi M., and Nezami A. (2013). Intercropping of kochia (Kochia Scoparia l.) With blue panic grass (Panicum antidoTALE Retz.) under irrigation with saline water. Agroecology, 5(2): 153-160. (In Farsi).
Golpira, H. and Shahoei, S. S. (2011). The work quality evaluation of the combine harvesters in Kurdistan province, Iran. Efficient and Safe Production processes in Sustainable Agriculture and forestry. CIGR Conference, Austria, Vienna. Pp: 269-271.
Hunt D. and Wilson D. (2015). Farm power and machinery management. Eleventh Edition. Waveland Press, Inc. ISBN 13: 978-1-4786-2696-1. Pp: 360.
Ismail, Z.E.; M.M. Ibrahim and Embaby, S. A. (2009). Economic evaluation and selection of farm machinery. Misr Journal Agricultural Engineering, 26(4): 746-757.
Kafi, M., Borzoei, A., Salehi, M., Kamandy, A., Masoomi, A., and Nabati, J. (2009). Physiology of Environmental Stresses in Plants. Jihad Daneshgahi Mashhad Press, Mashhad, Iran 502 pp. (In Persian)
Kholief, R. M., Sayed-Ahmed, I. F. and EL-Haddad, W. Z. (2009). Quantification of mechanical losses on oilseed rape harvesting. Journal of Agriculture Science Mansoura University. 34(4): 2971-2983.
Mostofi Sarkari, M. R. (2011). Investigation and technical comparison of new and conventional wheat combines performance to improve and modification. CIGR Journal. 13(3). Manuscript No. 1510.
Mostofi Sarkari, M., Valiahdi, M., and Ranjbar, I. (2014). Field evaluation of cereal combine harvesters processing losses on JD-955 and JD-1165 combines equipped with grain loss monitor. Journal of Agricultural Machinery, 4(2), 335-343. doi:10.22067/jam.v4i2.29077. (In Farsi).
Nazmi, M. W., Chen, G. and Zare, D. (2010). The effect of different climatic conditions on wheat harvesting strategy and return. Biosystems Engineering, 106. 493 – 502.
Patel, S. K. and Varshney. (2014). Effect of operational speed and moisture content of wheat crop on plot combine harvest. Agricultural Mechanization in Asia, Africa and Latin America, 38 (4): 51-55.
Rahama, A. M. and Ali. M. E. (1990). On farm evaluation combain harvester losses in the gomin in Sudan. Agricultural Mechanization in Asia, Africa and Latin America, 20(2): 27-31.
Rahimi, H. and Khosravani, A. (2005). Determination of wheat losses harvesting process and investigating same factors affecting it in Fars province. Pajouhesh and Sazandegi. 67: 50-59. (In Farsi).
Sayed Omran, M. (2008). A Comparative study of the most widely harvesting systems for wheat crop in Egypt. Misr Journal Agricultural Engineering. 25(3): 804-823.
Sereen, F.A.M., M.E. Badawy and M.H. M. Abo EL-Naga. (2014). Comparision between the most common mechanical methods and rice combine modified for harvesting wheat crop in the egyption fields. Egyptian Journal of Agricultural Research. 92 (2):675-692.
Sheikh Davoodi, M. J. and Houshyar, E. (2010). Evaluation of wheat loss using New Holland combine harvester in Iran. American-Eurasian Journal Agricultural and Environmental Science. 8(1): 104-108.
Soerensen, C.G. (2003). Workability and Machinery Sizing for Combine Harvesting. Journal of Scientific Research and Development. 5: 28-36.
Tabatabaei, R., Aghagolzadeh, H., and Bakhshi, B. (2012). Test and and evaluation of self-propelled combine harvested Rice (Model 4LZ-2A). 7th National conference on agriculture. Machinery engineering and mechanization (NCAMEM07), Shiraz, Iran. (In Farsi).
Witney, B. (1995). Choosing and using farm machines. UK: Longman Scientific and Technical. WMO. 1974. Manual on Codes. Vol I. World Meteorological Organization, No. 306. Geneva, Switzerland: WMO. Pp: 412.
Iranian Journal of Biosystems Engineering
Volume 49, Issue 3
November 2018
Pages 513-524

Files

History

  • Receive Date: 28 January 2018
  • Revise Date: 05 April 2018
  • Accept Date: 08 April 2018

Share

How to cite

Statistics