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Dash, Bhabani Shankar
- A Comparative Study on Performance of a Rotavator in Barren and Fertile Land
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Authors
Affiliations
1 Department of Farm Machinery and Power, Aditya College of Agricultural Engineering and Technology, Beed (M.S.), IN
2 Division of Agricultural Engineering, Indian Agricultural Research Institute, Pusa (New Delhi), IN
1 Department of Farm Machinery and Power, Aditya College of Agricultural Engineering and Technology, Beed (M.S.), IN
2 Division of Agricultural Engineering, Indian Agricultural Research Institute, Pusa (New Delhi), IN
Source
International Journal of Agricultural Engineering, Vol 10, No 1 (2017), Pagination: 72-77Abstract
The mechanisation of agricultural practices has resulted in increased agricultural productivity in India. As a consequence it seems that, rotary tillage implements are now being projected as important tools in obtaining fine tilth in soil. Even the Indian agriculture can be profitable by increasing land under cultivation, timely farm operation, reduction of cost of operation, adoption of tractor drawn rotavator etc. The rotavator was tested in terms of width and depth of cut, speed of operation, fuel consumption, theoretical and effective field capacity. Also soil parameters like soil moisture content, type of soil, bulk density etc. were studied. The performance of rotavator was evaluated for medium black and trashy soil. The cost of operation of fertile land was found to be 1988 Rs./ha and that of cultivated land was 1668 Rs./ha. It is found that the field efficiency for cultivated land was found to be more than barren land.Keywords
Rotavator, Barren Land, Fertile Land, Cost of Operation.References
- Libin, Zhang, Jiandong, Jiang and Yanbiao, Li (2010). Agricultural rotavator power requirement optimization using multi-objective probability parameter optimization. Internat. Agric. Engg. J., 19 (3) : 15-22.
- Mehta, C.R. (2013). Agricultural Mechanization Strategies in India.
- Potekar, J.M. and Tekale, D.D. (2004). Comparative performance of tractor drawn implements tillage system with rotavator tillage system. Karnataka J.Agric.Sci., 17(1) : 7-80.
- Report (2015). Vision 2050, Central Institute of Agricultural Engineering, Indian Council of Agricultural Engineering, Bhopal.
- Singh, Surendra, Singh, R.S. and Singh, S.P. (2014). Farm Power availability on Indian Farms. Agricultural Engineering Today.
- Performance Evaluation of a Modified Offset Rotavator in Guava Orchard
Abstract Views :220 |
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Authors
Affiliations
1 Department of Farm Machinery and Power Engineering, School of Agriculture, ITM University, Gwalior (M.P.), IN
2 Department of Farm Machinery and Power Engineering, College of Technology, Govind Ballabh Pant University of Agriculture and Technology, Pantnagar, U.S. Nagar (Uttarakhand), IN
3 Department of Farm Machinery and Power Engineering, College of Agricultural Engineering and Technology, Punjab Agriculture University, Ludhiana (Punjab), IN
1 Department of Farm Machinery and Power Engineering, School of Agriculture, ITM University, Gwalior (M.P.), IN
2 Department of Farm Machinery and Power Engineering, College of Technology, Govind Ballabh Pant University of Agriculture and Technology, Pantnagar, U.S. Nagar (Uttarakhand), IN
3 Department of Farm Machinery and Power Engineering, College of Agricultural Engineering and Technology, Punjab Agriculture University, Ludhiana (Punjab), IN
Source
International Journal of Agricultural Engineering, Vol 10, No 2 (2017), Pagination: 347-353Abstract
Rotary tillage implements are now projected as important tillage machinery for better seedbed preparation; however, the ordinary rotavator being in line with the tractor center line at the rear cannot be used in orchards due to the hindrance posed by narrow space between the plants. Therefore, the concept of a modified offset rotavator was proposed, which could perform intercultural operation between the plants. The study was conducted to evaluate the performance of the modified offset rotavator in guava orchard of Horticulture Research Center, Pantnagar. It was found that the draft (negative) for the L-shaped blades increased (1203.4 to 1841.4 N) as the forward speed increased (2.0 to 3.0 km/h) with Increase in depth of cut (80 to 120 mm) for the shield kept in the lowered (down) position and fuel consumption was higher 9.93 l/h at given forward speed 3.0 km/h with 120 mm depth of cut. Soil break up (mean mass diameter) resulting from the Impact action of L-shaped blades on soil was found increased (1.05 to 1.95 mm) as the forward speed increased (2.0 to 3.0 km/h). The extent of residue incorporation was the maximum 97.30 % at forward speed 2.0 km/h with 120 mm depth of cut, whereas at higher forward speed 3.0 km/h, field performance index was observed 88.28 %. The minimum area uncovered near the girth was reported 0.143 m2 at higher girth 0.48 m while plant injury at 3.0 km/h resulted due to impact of sensing assembly with plants was found 50 % in form of scratch on the girth.Keywords
Tillage, Modified Offset Rotavator, Field Performance, Guava Orchard.References
- Cakmak, B., Aykas, E., Onal, I. and Cakir, E. (2010). The performance of developed rotary tiller fitted with pneumatic seeder. Bulgarian J. Agric. Sci., 16(6): 801- 810.
- Chertkiattipol, S., Niyamapa, T., Jantaradach, W. and Saensuwan, K. (2008). The performance of rotary power tiller using prototype rotary blades in dry-land field. Maejo Internat. J. Sci. & Technol., ISSN 1905-7873 Available online at www.mijst.mju.ac.th. 1(Special Issue) : 17-26.
- Filipovic, D., Kosutic, S. and Gospodaric, Z. (2004). Energy Efficiency in conventional tillage of clay. In: The Union of Scientists - Rousse: Energy Efficiency & Agric. Engg., 3. - 5. June 2004. Rousse. Bulgaria. pp. 85-91.
- Sahay, C.S., Thomas, E.V. and Satapathy, K.K. (2009). Performance evaluation of a novel power-tiller-operated oscillatory tillage implement for dry land tillage.Bio Sys. Engg., 102(42): 385-391.
- Salokhe, V.M. and Ramalingam, N. (2003). Effect of rotation direction of a rotary tiller on draft and power requirements in a Bangkok clay soil. J. Terramechanics, 39(5): 195-205.
- Sharda, A. and Singh, S. (2004). Effect of selected parameters on field performance of rotary tiller. IE (I) J. Agric. Engg., 85(1): 22-25.
- Zimmer, R., Kosuatic, S., Jurisic, M. and Duvnjak, V. (2004). Comparison of energy consumption and machinery work with various soil tillage practices at soybean production. In: Energy Efficiency and Agricultural Engineering. International Scientific Conference, Rousse, Bulgaria, pp. 80–84.