تعداد نشریات | 161 |
تعداد شمارهها | 6,532 |
تعداد مقالات | 70,504 |
تعداد مشاهده مقاله | 124,123,795 |
تعداد دریافت فایل اصل مقاله | 97,231,962 |
بررسی اثر سرعت پیشروی، عمق کار و افزودن باله بر تقابل گاوآهن پارا و خاک | ||
مهندسی بیوسیستم ایران | ||
مقاله 14، دوره 50، شماره 1، فروردین 1398، صفحه 169-178 اصل مقاله (618.16 K) | ||
نوع مقاله: مقاله پژوهشی | ||
شناسه دیجیتال (DOI): 10.22059/ijbse.2018.243672.664998 | ||
نویسندگان | ||
محمد عسکری* 1؛ غلامحسین شاهقلی2؛ جواد جنت خواه3؛ داود کلانتری4 | ||
1پژوهشگر پسادکتری مکانیک ماشینهای کشاورزی، گروه مهندسی بیوسیستم، دانشکده کشاورزی و منابع طبیعی، دانشگاه محقق اردبیلی | ||
2دانشیار، گروه مهندسی بیوسیستم، دانشکده کشاورزی و منابع طبیعی، دانشگاه محقق اردبیلی، اردبیل، ایران | ||
3دانشجوی دکتری، گروه مهندسی بیوسیستم، دانشکده کشاورزی و منابع طبیعی، دانشگاه محقق اردبیلی، اردبیل، ایران | ||
4استادیار، گروه مهندسی بیوسیستم، دانشکده مهندسی زراعی، دانشگاه علوم کشاورزی و منابع طبیعی ساری، ساری، ایران | ||
چکیده | ||
در این تحقیق، اثر سرعت پیشروی در چهار سطح (8/1، 3/2، 9/2 و 5/3 کیلومتر بر ساعت)، عمق خاکورزی در سه سطح (30، 40 و 50 سانتیمتر) و باله در دو سطح (بدون باله و بالهدار) بر نیروی کششی، سطح مقطع شیار ایجاد شده در خاک و مقاومت ویژه گاوآهن پارا بررسی شد. نتایج نشان داد که تأثیر باله و عمق بر پارامترها به طور معنیداری بیشتر از سرعت پیشروی است. افزایش سرعت به افزایش نیروی کششی و مقاومت ویژه اما کاهش سطح مقطع شیار انجامید. افزایش عمق و افزودن باله به افزایش نیروی کششی، سطح مقطع شیار و مقاومت ویژه منجر شد. انتقال گاوآهن پارای بالهدار به حداقل عمق زیر سختلایه به طور معنیداری موجب کاهش مقاومت ویژه گردید. نتایج توصیه میکند که از سرعت کمتر، کمترین عمقی که بتوان سختلایه را شکست و باله استفاده شود. مدل رگرسیونی شامل سرعت، عمق و عرض باله به منظور پیشبینی نیروی کششی ارائه گردید. | ||
کلیدواژهها | ||
باله؛ خاک ورزی؛ دینامومتر؛ زیرشکن | ||
عنوان مقاله [English] | ||
Investigating the effect of forward speed, operation depth and adding wing on the interaction between the paraplow and soil | ||
نویسندگان [English] | ||
mohammad askari1؛ Gholamhossein Shahgholi2؛ Javad Jannatkhah3؛ Davood Kalantari4 | ||
1Post Doc researcher of mechanics of agricultural machinery, Faculty of agriculture and natural resources, University of Mohaghegh Ardabili | ||
2Associate Professor, Mechanics of Agricultural Machinery, Faculty of Agriculture and Natural Resources, University of Mohaghegh Ardabili, Ardebil, Iran | ||
3PhD Student, Mechanics of Agricultural Machinery, Faculty of Agriculture and Natural Resources, University of Mohaghegh Ardabili, Ardebil, Iran | ||
4Assistant Professor, Department of Farm Machinery, Faculty of Agricultural Engineering, Sari Agricultural Sciences and Natural Resources university, Sari, Iran | ||
چکیده [English] | ||
In this research, the effect of forward speed at four levels (1.8, 2.3, 2.9 and 3.5 km/h), tillage depth at three levels (30, 40 and 50 cm) and wing at two levels (winged and no-winged tines) were investigated on the draft requirement, soil disturbance area and specific draft of Paraplow. The results revealed that the effect of depth and wing was more than forward speed on the studied parameters, significantly. Increasing forward speed increased draft requirement and specific draft but decreased disturbance area. Increasing depth and adding wing led to increase draft requirement, disturbance area and specific draft. Transfering winged paraplow to under the hardpan decreased specific draft, significantly. The results recommended that using lower speed, minimum depth for hardpan breakage and wing will be better. A regression model included the speed, depth and wing width was developed to predict the draft requirement. | ||
کلیدواژهها [English] | ||
Wing, tillage, dynamometer, subsoiler | ||
مراجع | ||
Abbaspour-Gilandeh, Y. & Khanramaki, M. (2013). Design, construction and calibration of a triaxial dynamometer for measuring forces and moments applied on tillage implements in field conditions. Journal of metrology Society of India, 28(2), 119-127. Ahmed, M. H. & Godwin, R. J. (1983). The influence of wing position on subsoiler penetration and soil disturbance. Journal of Agricultural Engineering Research, 28(5), 489-492. Al-Suhaibani, S. A., Al-Janobi, A. A. & Al-Majhadi, Y. N. (2006). Tractors and tillage implements performance. In: Proceedings of CSBE/SCGAB 2006 Annual Conference, Edmonton, Canada. Al-Suhaibani, S. A. & Ghaly, A. E. (2010). Effect of plowing depth of tillage and forward speed on the performance of a medium size chisel plow operating in a sandy soil. American Journal of Agriculture and Biology Science, 5(3), 247-255. Arvidsson, J., Trautner, A., van den Akker, J. J. H. & Schjønning, P. (2001). Subsoil compaction caused by heavy sugarbeat harvesters in southern Sweden. II. Soil displacement during wheeling and model computations of compaction. Soil and Tillage Research, 60(2), 79-89. ASABE Standards (2011). ASAE D497.7, Agricultural machinery management data. Available at www.asabe.org. Ashrafi Zadeh, S. R. (2006). Modelling of energy requirements by a narrow tillage tool. Ph. D. dissertation, University of Saskatchewan, USA. Askari, M., Komarizade, M. H. & Nobakht, N. (2011). Deasign, construction and test of three-point hitch dynamometer. Journal of Agricultural Machinery Engineering, 1(2), 54-61 (In Farsi). Askari, M., Shahgholi, Gh., Abbaspour-Gilandeh, Y. & Tash-Shamsabadi, H. (2016). Effect of forward speed and tillage depth on tractor-subsoiler performance. Journal of Engineering Research in Agricultural Mechanization and Systems, 6(5), 109-128 (In Farsi). Chen, Y. (2002). A liquid manure injection tool adapted to different soil conditions. Transactions of ASAE, 45(6), 1729-1736. Harrison, H. P. (1988). Soil reacting forces for a bentleg plow. Transactions of ASAE, 31(1), 47-51. Ismail, W. I. W. & Burkhardt, T. H. (1993). Draft and fuel requirements measurement using tractor on-board data acquisition system. Pertanika Journal of Science and Technology, 1(1), 51-64. Moeenifar, A. M., Kalantari, D. & Mousavi Seyedi, S. R. (2013). Application of dimensional analysis in determination of traction force acting on a narrow blade. International Journal of Agriculture and Crop Science, 5(9), 1034-1039. Olatunji, O. M. & Davies, R. M. (2009). Effect of weight and draught on the performance of disc plough on sandy-loam soil. Research Journal of Applied Science, Engineering and Technology, 1(1), 22-26. Radford, B. J., Yule, D. F., McGarry, D. & Playford, C. (2001). Crop responses to applied soil compaction and to compaction repair treatments. Soil and Tillage Research, 61(3), 157–166. Ramadhan, M. N. (2011). Field study to evaluate the mechanical performance of the double tines longitudinally arranged subsoiler and its effect on some growth characteristics of barley hordeum vulgare L. Ms. C. dissertation, Basrah University, Iraq. Ramadhan, M. N. (2014). Developmenet and performance evaluation of the double tines subsoiler in silty clay soil part1: draft force, disturbed area and specific resistance. Mesopotamia Journal of Agriculture, 42(1), 293-313. Ranjbarian, S., Askari, M. & Jannatkhah, J. (2017). Performance of tractor and tillage implements in clay soil. Journal of Saudi Society of Agricultural Science, 16(2), 154-162. Raper, R. L. (2002). The influence of implement type, tillage depth and tillage timing on residue burial. Transactions of ASAE, 45(5), 1281–1286. Raper, R. L. (2005). Force requirements and soil disruption of straight and bentleg subsoilers for conservation tillage system. Applied Engineering in Agriculture, 21(5), 787-794. Sahu, R. K. & Raheman, H. (2006). Draught prediction of agricultural implements using reference tillage tools in sandy clay loam soil. Biosystems Engineering, 94(2), 275–284. Shahi, N., Shahgholi, G. & Biranvand, M. (2010). Modelling of soil-blade interaction and effect of speed and depth on subsoiler performance using discrete element method (DEM). In: Proceedings of 6th National Conference on Agricultural Machinary Engineering and Mechanization, University of Tehran, Karaj, Iran (In Farsi). Spoor, G. & Godwin, R. J. (1978). An experimental investigation into the deep loosening of soil by rigid tines. Journal of Agricultural Engineering Research, 2(3), 243-259. | ||
آمار تعداد مشاهده مقاله: 447 تعداد دریافت فایل اصل مقاله: 318 |