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Kumar, Devesh
- Studies and Performance of a Garlic Planter in Uttar Pradesh
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Authors
Affiliations
1 Department of Farm Machinery and Power Engineering, Sam Higginbottom University of Agriculture Technology and Sciences, Allahabad (U.P.), IN
2 J.L.N. Polytechnic College, Mahmudabad, Sitapur (U.P.), IN
3 Agricultural Engineering, Chandra Shekhar Azad Agriculture University, Kanpur (U.P.), IN
1 Department of Farm Machinery and Power Engineering, Sam Higginbottom University of Agriculture Technology and Sciences, Allahabad (U.P.), IN
2 J.L.N. Polytechnic College, Mahmudabad, Sitapur (U.P.), IN
3 Agricultural Engineering, Chandra Shekhar Azad Agriculture University, Kanpur (U.P.), IN
Source
International Journal of Agricultural Engineering, Vol 10, No 1 (2017), Pagination: 228-233Abstract
The main concept of design and development of garlic planter is fabrication, the drilling planter and its metering device are simple in their structure and easy to manufacture. This study followed research after the 3 types of garlic planter was fabricated in 2001 which included; 1) inclined metering plate garlic planter, 2) vertical metering plate garlic planter and 3) spring plate garlic planter. In this study, 2 model were constructed which included; 1) The vertical metering plate with triangular grooves and 2) The bucket type garlic planter. The uniformity of metering system test for the 2 models, the bucket type garlic planter presented the most impressive results. The percentage of broken was very low, about 0.25 per cent. The new prototype garlic planter had 10 rows and was attached to 5 HP power tiller. The garlic planter was tested under actual field conditions at meeting district, Allahabad. The result indicated that the optimum width of garlic planter was 0.9 meter or 9 rows. The suitable soil condition was dry soil. Farmer should apply water after planting. The maximum forward speed was 3 km/hr and wheel skid was high about 24.34 per cent. The average depth and width of planting was 2.65 cm. and 4.68 cm. Time for turning at head land was 39 seconds. The field capacity was 0.32 ha/hr and there were three operators. Hence, the capacity of planter was 0.84 ha./man/day.Keywords
Garlic Planter, Drill Planter, Metering Device, Bucket Metering, Hopper, Measuring Instruments.References
- Huntdonnell (1995). Farm power and machinery management, 9th Ed., Iowa State University Press, AMES,, PP.263-269.
- Jiraporn Benjaphrakairat et al. (2001). Studies on factors affecting design of mechanized planting of garlic blubs. Proceedings of the 39th Annual Conference of Kasetsart university.
- Jiraporn Benjaphrakairat et al. (2002). Final report “ Design and Development of Garlic Planter attached to 5 HP power tiller.” Project. Department of Agricultural Engineering, Faculty of Engineering, King Mongkut’s Institute of Technology Ladkrabang,Thailand.(Mimeographed).
- Kampanart Wisetudomsak et al. (2000). The development of garlic planter Bachelor’s Thesis King Mongkut’s Institute of Technology Ladkrabang,Thailand.
- Kaysorn Chunkratoke et al. (1999). Garlic planter. Bachelor’s Thesis King Mongkut’s Institute of Technology Ladkrabang, Thailand.
- Kumar, D. et al. (2017). Studies and performance of a garlic planter in utter Pradesh a review paper.
- Ryu, I.H. andKim,K.U. (1998). Design of roller type metering device for precision planting. Trans. ASAE, 41 (4) : 923-930
- Wilson, J.M. (1980). The effect of release errors and the release point on the design of precision seed drills. J. Agric Engg. Res.,25 : 407-419.
- A Study on the Performance on Productivity of Sugarcane Crop with Different Combination of Tillage Operations
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Authors
Affiliations
1 Department of Farm Machinery and Power Engineering, Vaugh Institute of Agricultural Engineering and Technology, Sam Higginbottom University of Agriculture, Technology and Sciences, Allahabad (U.P.), IN
2 Department of Renewable Energy Engineering, Vaugh Institute of Agricultural Engineering and Technology, Sam Higginbottom University of Agriculture, Technology and Sciences, Allahabad (U.P.), IN
1 Department of Farm Machinery and Power Engineering, Vaugh Institute of Agricultural Engineering and Technology, Sam Higginbottom University of Agriculture, Technology and Sciences, Allahabad (U.P.), IN
2 Department of Renewable Energy Engineering, Vaugh Institute of Agricultural Engineering and Technology, Sam Higginbottom University of Agriculture, Technology and Sciences, Allahabad (U.P.), IN
Source
International Journal of Agricultural Engineering, Vol 10, No 2 (2017), Pagination: 340-346Abstract
A field experiment was conducted to test the intensification and productivity of sugarcane (Saccharum officinarum L.) for two consecutive years (2014-15 to 2015-16) at Amroha district of Uttar Pradesh, India. Different sugarcane planter and conservative tillage practices were taken as different variables for experiments. Two irrigation treatment I1 (Pre planting irrigation) and I2 (Post planting irrigation); two tillage treatment T1 (Conventional tillage) and T2 (Rotavator) followed by five planting treatment P0 (Conventional practice), P1 (Disc type sugarcane planter), P2 (Slit type sugarcane planter), P3 (Ridger type sugarcane planter) P4 (Furrower type sugarcane planter) were performed and tested under RBD (Factorial 2 x 5 x 2) with three replications. Pre irrigation treatments showed better results as compared to post irrigation with most promising with conventional method of tillage. Although treatment T7 (I1P3T1) yields with the highest values of bud germinations (50.37 and 51.71%) at 60 DAP, cane girth (9.31 and 9.67 cm), single cane weight (1.72 and 1.96 kg), cane yield (1074.67 and 1235.53 q/h-1). It was concluded that the mechanized planting system requires less labour and is more frugal than the conventional one.Keywords
Sugarcane, Irrigation, Tillage, Cane Yield, Planter.References
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- Study of the Effect of Pre and Post Irrigation on Different Tillage Treatments for Different Planter on Soil’s Physical Properties
Abstract Views :154 |
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Authors
Affiliations
1 Department of Farm Machinery and Power Engineering, Vaugh Institute of Agricultural Engineering and Technology, Sam Higginbottom University of Agriculture, Technology and Sciences, Allahabad (U.P.), IN
1 Department of Farm Machinery and Power Engineering, Vaugh Institute of Agricultural Engineering and Technology, Sam Higginbottom University of Agriculture, Technology and Sciences, Allahabad (U.P.), IN
Source
International Journal of Agricultural Engineering, Vol 10, No 2 (2017), Pagination: 409-415Abstract
Sugarcane is a most important cash crop of India. It involves less risk and farmers are assured upto some extent about return even in adverse condition. In agriculture sector, sugarcane shared 7% of the total value of agriculture output and occupied 2.6% of India’s gross cropped area during 2006-07. Sugarcane provides raw material for the second largest agro-based industry after textile. About 527 working sugar factories were located in the country during 2010- 11 with total crushing capacity of about 242 lakh tonnes. The sugar industry is an instrumental in generating the sizable employment in the rural sector directly and through its ancillary units. It is estimated that about 50 million farmers and their dependents are engaged in the cultivation of sugarcane and about 0.5 million skilled and unskilled workers are engaged in sugar factories and its allied industries. Wheat-sugarcane-raton cropping system is followed in whole of western Uttar Pradesh and lower parts of Uttrakhand where sugarcane is the main cash crop and wheat is the major cereal. The system accounts for more than 60% of the total cultivated area in the region. However, lower average yield of planted cane (50 tonnes/ha) recorded in this. The reduction in cane yield owing to delayed planting cannot be compensated by additional inputs viz., frequent irrigations, extra fertilizers and inter culture operations. Planting of sugarcane involves a number of operations viz., cutting of canes into pieces called setts, opening of furrows, placement of fertilizer in the opened furrows, laying setts and covering these with a blanket of soil. The whole process of sugarcane planting is very labour and time intensive. In order to achieve uniform crop stand, correct seed rate, appropriate depth of setts placements and uniformity of setts with required overlapping are important. These, however can better be achieved by using tractor-drawn sugarcane cutter planter apart from economising labour and energy. Also there is a need to evolve proper tillage techniques for early planting of sugarcane in wheat-sugarcane crop sequence. In this paper study conducted on the performance of the effect of pre and post irrigation on different tillage treatments on soil’s physical properties on the different types of sugarcane cutter planters.Keywords
Wheat Harvesting, Pre and Post Irrigation, Sugarcane Cutter Planters, Rigid, Slit, Disc and Furrower Planter.References
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