Design of Manually Operated Four Rows Rice Seeder
DOI:
https://doi.org/10.54536/ajfst.v1i1.506Keywords:
Design, Rice Seeder, Traditional Seeding, Row seeding, Concept generation, Binary dominance matrixAbstract
In Ethiopia, rice is one of the targeted agricultural products that has received adequate attention in the promotion of agricultural output. It is regarded as the "Millennium Crop" and is anticipated to help ensure food security in the nation. As a result, over the past few years, its production has increased. Despite the growth, there are still a lot of production system issues that need to be resolved, with planting technique leading the list. The farmers continued to use time- and labor-intensive traditional seed-broadcasting techniques, which led to a sharp reduction in output due to an unfavorable plant population. Consequently, in order to maintain the ideal plant density and get around the issues with the conventional method of disseminating the seed on the farm; there was efforts have made to design suitable planting machine for rice. Then depends on the binary dominance matrix traditional seeding techniques (broadcasting), manual planting technique in rows and the newly designed manually operated four rows rice were evaluated and it was found that newly designed seeder was better than manual method in all parameters. The machinability aspect, which comprises installation, simplicity, durability, choice of material, machine, low pricing, and prolonged life span when operated with high utilization with minimal downtime, was properly taken into account in order to achieve this design target and goals.
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References
CSA, (2009). Central Statistical Agency Agricultural Sample Survey
CSA, (2014). Central Statistics Agency. Agricultural Sample Survey time series data for national & regional level from 1995/96 – 2014/15. Report on area and production of major crops (private peasant holdings, Meher season). Addis Ababa, Ethiopia.
Dawe D., (2005). Increasing water productivity in rice-based systems in Asia-past trends, current problems, and future prospects. Plant Prod Sci, 8: 221–230.
De Datta S K., (1986). Technology development and the spread of direct-seeded flooded rice in Southeast Asia. Exp Agric, 22: 417–426.
Devnanai, R.S., (2002a).Technology for pre-germinated paddy seedling. J. Agric.Eng. 39 (2), 1–8.
Devnani, R.S., (2002b). Direct seeding options, equipment developed and their performance on yield of rice crop. Agric. Mech. Asia Africa Latin America 33 (4), 27–33.
FAO-Food and Agriculture Organization (2009). FAOSTAT Database FAO, Rome, www.faostat.fao.org
FAO (2008). Rice production Report for 2007.Food and Agriculture organization of the United Nations, USA.
Flinn, J.C., Mandac, A.M., 1986. Wet Seeding of Rice in Less Favored Rainfed Environments Working Paper. Agricultural Economics Department, International Rice Research Institute, Los Ban˜os, Philippines.
Gebey., 2012. Evaluation of new farming technologies in Ethiopia using the integrated decision support system (IDSS), Volume 180, Part B, 31 January 2017, Pages 267-279, ELSEVIER.
G.V.Prasanna Kumar, BrijeshSrivastava, D.S.Nagesh., 2009. Modelling and optimization of parameters of flow rate of paddy rice grains through the horizontal rotating cylindrical drum of drum seeder. Computers and electronics in agriculture 65, 26-35p.
ITSI-SU, January 26, 2011. Mass, volume and density of regularly and irregularly shaped object Internet:<http://www.pdesas.org/module/content/resources/14756/view.ashx>
Kepner, R.A., Bainer, R., Barger, E.L., 1978. Principles of Farm Machinery, 3rd edition. Inc. AVI Publishing Company, Westport, USA.
Khurmi, R.S. and Gupta, J.K., 2005. A Textbook of Machine Design. Eurasia Publishing House (Pvt.) Ltd., Ram Nagar, New Delhi, India.
Kukal, S.S., Aggarwal, G.C., 2002. Percolation losses of water in relation to puddling intensity and depth in a sandy loam rice (Oryza sativa) field. Agric. Water Manag. 57, 49–59.
Mathankar, S.K., Singh, V.V., 2007. Ridge seeding of pre-germinated rice in puddle fields. ASAE Paper No. 078042. ASABE, St. Joseph, MI.
Math.com. Retrieved 2 July 2012. Area formula. Internet:http://www.math.com/tables/geometry/areas.htm
MoARD (Ministry of Agriculture and Rural Development) (2010). “National Rice Research and Development strategy of Ethiopia,” 1-47p.
Naklang K, Shu F, Nathabut K. Growth of rice cultivars by direct seeding and transplanting under upland and lowland conditions. Field Crop Res, 1996, 48: 115–123.
Prasanna Kumar, G.V., Jhonhas, R., ObedNatso, V., 2004. Flow rate of paddy seeds through sharp-edged orifices on the rotating drum of drum seeder. In: Proceedings of the International Conference on Emerging Trends in Agricultural Engineering (ETAE’04), IIT Kharagpur, India, pp. 9–15.
Pandey, S., Velasco, L., 2005. Trends in crop establishment methods in Asia and research issues. In: Rice is Life: Scientific Perspectives for the 21st Century, Proceedings of the World Rice Research Conference, 4–7 November 2004, Tsukuba, Japan, pp. 178–181.
Pratley, J.E., Flower, R., Heylin, E., Sivapalan, S., 2004. Integrated weed management strategies for the rice weeds Cyperusdifformis and Alismaplantagoaquatica. A report for the Rural Industries Research and Development Corporation (RIRDC) Project No USC 20A.
Raheman H., Singh., 2004.Development of a Manual Drawn Multi-Crop Drum Seeder for Dry Land Rice. Agric. Mech. Asia Africa Latin America 33 (6), 21–33.
Sharma D.N., and Mukesh, S. (2010). Farm Machinery Design Principles and Problems. New Delhi: Jain-Brothers.
Sivakumar, S.S., Manian, R., Kathirvel, K., Raghavan, G.S.V., 2005. Investigation on the influence of machine and operational parameters for the development of a manually drawn rice seeder for direct sowing.Agric. Eng. Int. CIGR E-J. 7, 1–12.
Surendra, et al., 2001. The effect of seeding and tillage methods on productivity of rice–wheat cropping system.Soil Till. Res. 61,125–131.
Tajuddin, A., Rajendran, P., 2002. Devices for inter-cropping green manure in wet seeded rice. Agric. Mech. Asia Africa Latin America 33 (3), 9–10.
Tesfaye et al., 2005. Influence of time of Nitrogen Application on Productivity and Nitrogen use Effiency of Rain fed lowland Rice(oryza Sativa L.) in the Vertisols of Fogera Plain, Northwestern Ethiopia.
Ulrich, K. T. (2020). Product Design and Development Seventh Edition.
WARDA (West African Rice Development Association—Africa Rice Center) (2002). ‘‘Promising Technologies for Rice Production in West and Central Africa,’’ 28p.WARDA Bouake, Coˆte d’Ivoire; FAO, Rome, Italy.
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