Rice is becoming increasingly an important crop in Ethiopia. Owed to the post harvest losses, evaluation and demonstration of an imported pedal thresher was conducted. In addition, a proto type was developed using reverse engineering. Data was collected using structured data sheet and analyzed using descriptive statistics and parametric tests. Duncan and Tukey mean tests showed the absence of significant mean threshing output difference between the pedal type (127.5kg/hr) and the modified (120kg/hr) one. The result showed statistically different threshing output using these technologies as compared to the traditional method (92kg/hr). The financial analysis showed that an average Fogera farmer (0.35ha rice land) could thresh his annual rice yield within 9.25hrs and 8.68hrs using modified and pedal threshers with a cost reduction of ETB 320.58 compared to the traditional system. The low awareness of the farmers on the consequences and advantages of threshing on quality of rice and subsequently on preference and marketing resulted in low priority for adoption. Hence, large scale awareness creation activities should be done and the technology ought to be promoted widely in order to contribute for the government’s aim as a millennium crop and benefit from the market opportunity reassuring in the country.
| Published in | American Journal of Mechanics and Applications (Volume 3, Issue 4) |
| DOI | 10.11648/j.ajma.20150304.11 |
| Page(s) | 27-32 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
Pedal Rice Thresher, Modified Thresher, Traditional Threshing, Duncan, Tukey Test
| [1] | Gebey, T., Berhe, K., Hoekstra, D. and Alemu, B. 2012. Rice Value chain development in Fogera Woreda based on the IPMS Experience. Nairobi, Kenya: ILRI. |
| [2] | Tilahun Tadesse, Nigussie Dechassa, Wondimu Bayu, Setegn Gebeyehu, 2013. Impact of Rainwater Management on Growth and Yield of Rain fed Lowland Rice. Wudpecker Journal of Agricultural Research, 2 (4): 108–114. |
| [3] | Yayeh Bitew and Fekremariam Asargew, 2014. Rice (Oryza Sativa) and Chickpea (Cicer aritinum L) Relay Intercropping Systems in an Additive Series Experiment in Rain Fed Lowland Ecosystem of Fogera Vertisols. Journal of Science Research, 2 (6): 179-184. |
| [4] | Tilahun T., Alemayehu A., Minale L., and Zelalem T. 2008. Effect of Seed Soaking and Incubation on the emergence, Growth and Yield of Rice. In: Ermias A., Akalu T., Alemayehu A. G., Melaku W., Tilahun T., and Wondimu B. (eds). 2008. Procceedings of the 2nd Annual Regional Conference on Completed Crop Research Activities, 18-21 Sep. 2007. Amhara Regional Agricultural Research Institute. B. D., Ethiopia. Pp. 36-40. |
| [5] | Ethiopian Institute of Agricultural (EIAR), 2011. Empowering Farmers' Innovation, Series No. 2: Challenges and Opportunities of Rice in Ethiopian Agricultural Development, Addis Ababa, Ethiopia. |
| [6] | Kebebew Assefa, Dawit Alemu, Kiyoshi Shiratori and Abebe Kirub, 2011. Challenges and Opportunities of Rice in Ethiopian Agricultural Development. FRG II Project Empowering Farmers' Innovation. Series No. 2. EIAR – JICA Cooperation. |
| [7] | Zewdu Ayalew, Abebe Fanta and Solomon Abera, 2013. Effect of Parboiling Treatment on the Milling Quality of Selected Rice Varieties. Journal of Postharvest Technology, 01 (01): 060-068. |
| [8] | Appiah F, Guisse R. and Dartey P. K., 2011. Post Harvest Losses of Rice from Harvesting to Milling in Ghana. Journal of Stored Products and Postharvest Research, 2 (4): 64-71. |
| [9] | Yemane Asmelash, 2014. Determinants of adoption of upland rice varieties in Fogera district, South Gondar, Ethiopia. Journal of Agricultural Extension and Rural Development, 8 (12): 332-338. |
| [10] | Teshome Negussie and Dawit Alemu, 2011. An Overview of the National Rice Research and Development Strategy and its Implementation. In the Challenges and Opportunities of Rice in Ethiopian Agricultural Development. FRG II Project Empowering Farmers' Innovation Series No. 2. |
| [11] | Manful J, Fofana M (2010). Postharvest practices and the quality of rice in West Africa. CORAF/WECARD. 2nd Science Week. 24-29 May, 2010, Cotounou, Benin. |
| [12] | African Post Harvest Losses Information Systems (APHLIS), 2015. Rice Loss Tables Ethiopia: Estimated post harvest losses for 2003-2014. Accessed at www.aphlis.net/?form=losses_estimates&co_id=19&c_id=327 on 24/07/2015. |
| [13] | Azouma, Y., Porosi M., and Yamaguchi K., 2009. Design of Throw-In Type Rice Thresher for Small Scale Farmers. Indian Journal of Science and Technology, 2 (9): 10-14. |
| [14] | Selco Foundation, 2013. Testing of Small Scale Threshing Machines in Rural Karnataka. Accessed at www.selcofoundation.org/wp.../05/Threshing-Testing-Final-Report.pdf on 24/07/2015. |
| [15] | Abdul Shakoor Khan and M. Salin, 2005. Rice Harvesting and Threshing. Pakistan Journal of Food Science, 15 (1-2): 45-52. |
| [16] | FAO, 2015. Grain Storage Techniques: Evolution and Trends in Developing Countries. Accessed at www.fao.org/docrep/t1838e/T1838E0r.htm on 8/11/2015. |
| [17] | Astewul Takele, 2010. Analysis of Rice Profitability and Marketing Chain: The Case of Fogera Woreda, South Gondar Zone, Amhara National Regional State, Ethiopia. An MSC Thesis Submitted To Haramaya University. |
APA Style
Dagninet Amare, Negese Yayu, Asmamaw Endeblihatu. (2016). Development and Evaluation of Pedal Thresher for Threshing of Rice. American Journal of Mechanics and Applications, 3(4), 27-32. https://doi.org/10.11648/j.ajma.20150304.11
ACS Style
Dagninet Amare; Negese Yayu; Asmamaw Endeblihatu. Development and Evaluation of Pedal Thresher for Threshing of Rice. Am. J. Mech. Appl. 2016, 3(4), 27-32. doi: 10.11648/j.ajma.20150304.11
AMA Style
Dagninet Amare, Negese Yayu, Asmamaw Endeblihatu. Development and Evaluation of Pedal Thresher for Threshing of Rice. Am J Mech Appl. 2016;3(4):27-32. doi: 10.11648/j.ajma.20150304.11
Share This Article
Twitter
Linked In
Facebook
Copy
Download@article{10.11648/j.ajma.20150304.11,
author = {Dagninet Amare and Negese Yayu and Asmamaw Endeblihatu},
title = {Development and Evaluation of Pedal Thresher for Threshing of Rice},
journal = {American Journal of Mechanics and Applications},
volume = {3},
number = {4},
pages = {27-32},
doi = {10.11648/j.ajma.20150304.11},
url = {https://doi.org/10.11648/j.ajma.20150304.11},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajma.20150304.11},
abstract = {Rice is becoming increasingly an important crop in Ethiopia. Owed to the post harvest losses, evaluation and demonstration of an imported pedal thresher was conducted. In addition, a proto type was developed using reverse engineering. Data was collected using structured data sheet and analyzed using descriptive statistics and parametric tests. Duncan and Tukey mean tests showed the absence of significant mean threshing output difference between the pedal type (127.5kg/hr) and the modified (120kg/hr) one. The result showed statistically different threshing output using these technologies as compared to the traditional method (92kg/hr). The financial analysis showed that an average Fogera farmer (0.35ha rice land) could thresh his annual rice yield within 9.25hrs and 8.68hrs using modified and pedal threshers with a cost reduction of ETB 320.58 compared to the traditional system. The low awareness of the farmers on the consequences and advantages of threshing on quality of rice and subsequently on preference and marketing resulted in low priority for adoption. Hence, large scale awareness creation activities should be done and the technology ought to be promoted widely in order to contribute for the government’s aim as a millennium crop and benefit from the market opportunity reassuring in the country.},
year = {2016}
}
TY - JOUR T1 - Development and Evaluation of Pedal Thresher for Threshing of Rice AU - Dagninet Amare AU - Negese Yayu AU - Asmamaw Endeblihatu Y1 - 2016/01/25 PY - 2016 N1 - https://doi.org/10.11648/j.ajma.20150304.11 DO - 10.11648/j.ajma.20150304.11 T2 - American Journal of Mechanics and Applications JF - American Journal of Mechanics and Applications JO - American Journal of Mechanics and Applications SP - 27 EP - 32 PB - Science Publishing Group SN - 2376-6131 UR - https://doi.org/10.11648/j.ajma.20150304.11 AB - Rice is becoming increasingly an important crop in Ethiopia. Owed to the post harvest losses, evaluation and demonstration of an imported pedal thresher was conducted. In addition, a proto type was developed using reverse engineering. Data was collected using structured data sheet and analyzed using descriptive statistics and parametric tests. Duncan and Tukey mean tests showed the absence of significant mean threshing output difference between the pedal type (127.5kg/hr) and the modified (120kg/hr) one. The result showed statistically different threshing output using these technologies as compared to the traditional method (92kg/hr). The financial analysis showed that an average Fogera farmer (0.35ha rice land) could thresh his annual rice yield within 9.25hrs and 8.68hrs using modified and pedal threshers with a cost reduction of ETB 320.58 compared to the traditional system. The low awareness of the farmers on the consequences and advantages of threshing on quality of rice and subsequently on preference and marketing resulted in low priority for adoption. Hence, large scale awareness creation activities should be done and the technology ought to be promoted widely in order to contribute for the government’s aim as a millennium crop and benefit from the market opportunity reassuring in the country. VL - 3 IS - 4 ER -
Information
Email: