Research Journal of Applied Sciences
92 - 95
Development of Overhead Gantry as Complementary Equipment to Indoor Soil Bin Facility
Ademosun, O.C., 1990. The design and operation of a soil-tillage dynamics equipment. J. Nig. Eng., 25: 51-57.
Ademosun, O.C., S.I. Manuwa and A.S. Ogunlowo, 2006. Development of an in door soil bin facility for soil tillage dynamics research. FUTAJEET, 5: 31-36.
Adewale, S.A., 2005. Development of a rotary tiller for indoor Soil bin. PG.D. Thesis, Department of Agricultural Engineering, The Federal University of Technology of Technology, Akure, Nigeria.
Ajisafe, A.A., 2008. Development and operation of overhead gantry for soil dynamics research. M. Eng. Thesis, Department of Agricultural Engineering, The Federal University of Technology, Akure.
Kepner, R.A., R. Bainer and E.L. Barger, 1978. Principles of Farm Machinery. 3rd Edn., AVI Publishing Company Inc., Westport, Connecticut, USA.
Manuwa, S.I. and A.S. Ogunlowo, 2005. The influence of speed and rake angle on draught of tillage tools. J. Sci. Technol. Res., 4: 51-56.
Manuwa, S.I. and O.C. Ademosun, 2004. Effect of shape of tillage blades on soil disturbance and draught. Nig. J.Eng. Res. Dev., 3: 1-9.
Manuwa, S.I. and O.C. Ademosun, 2007. Draught and soil disturbance of model tillage tines under varying soil parameters. Agric. Eng. Int. CIGR J., 9: 1-18.Direct Link |
Manuwa, S.I., 2002. Development of an equipment for soil tillage dynamics and evaluation of tillage parameters. Ph.D. Thesis, Federal University of Technical, Akure, Ondo State, Nigeria, pp: 346.