Development of stripper harvester for paddy
##plugins.themes.bootstrap3.article.main##
Abstract
Konkan is the coastal part of Maharashtra between Western Ghat and Arabian seacoast. Rice is a major crop grown over 3.86 lakh hectares. Stripper harvesting technology, which strips only seeds and keeps straw erect-ed in the field present bright prospect for the development of small, light, efficient mechanism by reducing number of operation with increased capacity and lesser power compared to conventional cutter bar combine harvester. The big machines like combine harvester and high capacity threshers for harvesting and threshing have limitations. A proto-type of paddy stripper harvester was developed considering the limitation of Konkan like small, fragmented land, hilly, terrace farming and high rainfall. It consisted of stripping mechanism, grain tank, hydraulic system, steering system, gear box, engine, cage wheel and chassis. The arrangement of V-belt and set of pulleys were made to transmit power from gear box to stripper rotor. The effect of forward speed and peripheral speed on shattered and un-stripped grain loss was studied. The shattered grain loss was decreased with increase in forward speed whereas decreased initially and then increased with increase in peripheral speed. The un-stripped grain loss was decreased with increase in forward and peripheral speed. The performance of the developed prototype was found better at forward speed of 2.25 km/h and peripheral speed of 19.78 m/s. During final testing of prototype, shattered and un-stripped grain loss was found 5.95 and 1.89 %, respectively. The average field capacity and field efficiency of paddy stripper harvester machine was found 0.14 ha/h and 69.38 per cent respectively.
##plugins.themes.bootstrap3.article.details##
##plugins.themes.bootstrap3.article.details##
Grain loss, Harvester, Stripper, Stripping element
Anonymous (2015a). Rice market monitor, FAO, 18(1).
Anonymous (2015c). www.Mahaagri.gov.in, Crop Statistics - Cropwise, Districtwise Area Production and Productivity.
Anonymous (2013b). Maharashtra water resource regulatory authority report, Water Resource Deparment Government of Maharashtra.
Aslam, M.M., M., Zeeshan, A. Irum, M.U. Hassan, S. Ali, R. Hussain, P.M.A. Ramzani, and M.F. Rashid. (2015). Influence of seedling age and nitrogen rates on productivity of Rice (Oryza sativa L.): A Review. American Journal of Plant Sciences, 6: 1361-1369.
Chegini, G.R. and S.V. Mirnezami. (2012). Analysis and comparison of wheat losses in two harvesting methods. Agric. Engg. Inter. CIGR Journal. 14(3): 91-98.
Doutwaite, B., Quick, G.R., and C.J.M. Tado. (1993). The stripper gatherer system for small-area rice harvesting. International Agriculture Engineering Journal, 2(4): 183-194.
Mehta, C.R., N.S. Chandel, T. Sentilkumar and K.K. Singh. (2014). Trends of agricultural mechanization in India. Policy brief, ESCAP CSAM. Issue 2.
Peiris, R.T.C. (1990). Development and evaluation of a rice stripping header system. Tropical Agril. Research. 2: 123-141.
Tado, C.J.M., P. Wacker, H.D. Kutzbach and D.C. Suministrado. (1998). Development of stripper harvesters: A Review. J. Agric. Engg. Res. 71: 103-112.
Tado, C. J. M. (2002). Influence on the performance of the stripper rotor in rice. Published Ph. D Dissertation, Institute of Agricultural Engineering, University of Hohenheim, Germany.
Yuan J. and Y. Lan. (2007). Development of a cereal stripping harvester. Agril. Engg. Inter.: the CIGR E-journal. Manuscript PM 07 009. Vol. IX. September
This work is licensed under Attribution-NonCommercial 4.0 International (CC BY-NC 4.0) © Author (s)
