بررسی اثر سرعت پیشروی، عمق کار و همپوشانی شاخه خاک‌ورز بر توان مصرفی و نیروی کشش

نوع مقاله : مقاله پژوهشی

نویسندگان

1 دانشجوی دکتری/ گروه مهندسی مکانیک بیوسیستم/ واحد بناب/دانشگاه آزاد اسلامی/بناب/ایران.

2 استادیار / گروه مهندسی مکانیک بیوسیستم / واحد بناب / دانشگاه آزاد اسلامی /بناب/ ایران

3 دانشیار/ گروه مهندسی مکانیک بیوسیستم/دانشگاه ارومیه/ارومیه /ایران.

4 استادیار/ گروه مهندسی مکانیک بیوسیستم/واحد بناب/دانشگاه آزاد اسلامی/بناب/ایران.

چکیده

بیشتر هزینه­های کشاورزی طی خاک‌ورزی مربوط به تأمین نیروی لازم جهت خاک‌ورزی است. در این پژوهش بررسی توان مصرفی طی سطوح سرعت ، عمق و هم‌پوشانی شاخه خاک‌ورز  انجام گرفت. آزمایش در انباره خاک در سه سطح سرعت 5/0، 2/1 و 2 متر بر ثانیه برای سطوح عمق 10 ،20 و 30 سانتی‌متر با فاصله عرضی 0، 10و 20 سانتی‌متر شاخه خاک‌ورز  انجام شد. بررسی آماری داده­ها نشان داد اثر سرعت بر نیروی کشش در دو سطح عمق 20 و 30 سانتی­متر در سطح 5% معنی دار و در عمق 10 سانتی متر معنی دار نمی­باشد. عمق کار در سطح 5% بر نیروی کشش در همه سطوح هم پوشانی معنی‌دار است. تغییرات شاخص مخروط در عمق کمتر از 10 سانتی‌متر برای سطوح مختلف ناچیز است.  تاثیر عمق بر مقاومت کششی تیغه به صورت نمایی مشاهده شد. همچنین کاهش توان مصرفی در هم­پوشانی بیشتر مشاهده شده است.

کلیدواژه‌ها

موضوعات

عنوان مقاله [English]

Effect of Forward Speed, Working Depth and Overlay Parameters of Cultivator Tillage on Power Consumption and Draft Force

نویسندگان [English]

  • measuom salahloo 1
  • Behzad Mohammadi Alasti 2
  • aref mardani 3
  • Mahdi Abbasgholipour 4
1 PhD Student/Department of Mechanical Engineering of Biosystems/Bonab branch/Islamic Azad University/Bonab/Iran.
2 Assistant Professor / Department of Mechanical Engineering of Biosystem / Bonab Branch/ Islamic Azad University /Bonab / Iran
3 Associate Professor/Department of Mechanical Engineering of Biosystems/Urmia University/Urmia/Iran.
4 Assistant Professor/Department of Mechanical Engineering of Biosystems/Bonab branch/Islamic Azad University Bonab/Iran.
چکیده [English]

Most of the agricultural costs during tillage are related to providing the necessary traction for tillage. In this study, the power consumption during the speed levels, depth of work and overlap of a tillage tine was investigated. The experiment was performed in a soil bin at three speed levels of 0.5, 1.2 and 2 m / s for three depth levels of 10, 20 and 30 cm with width interval of 0, 10 and 20 cm of tillage tine. Statistical analysis of the data showed that the effect of speed on draft force at two levels of 20 and 30 cm depth at 5% level was significant and at 10 cm depth was not significant. Also, the effect of work depth at 5% on draft force at all levels of overlap was significant. Conical index changes at depths less than 10 cm are negligible for different levels. The effect of depth on draft force was observed in exponential form. Also, the reduction in power consumption in the overlap has been observed more.

کلیدواژه‌ها [English]

  • "Draft Power"
  • "Tillage Tine"
  • " Overlap". "Speed". "Depth"

مراجع

Abbaspour, G. Fazeli, S. Shahgholi, Gh. & Fazel, Z. (2017). Influence of advance velocity and depth of tillage on fuel consumption and tensile strength. Systems and Mechanization Research, 18(68), 71-88. (In Farsi).
Ahmadi, I. (2016). Development of a chisel plow draft force and power calculator based on some mechanical laws. Iranian Biosystems Engineering, 47(4), 625-632 .(In Farsi).
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 Agricultural and Biological Sciences, 5(3), 247-255.
Al-suhaibani, S. A. & Ghaly, A. E. (2013). Comparative study of the kinetic parameters of three chisel plows operating at different depths and forward speed in a sandy soil. The international journal of engineering and science (IJES), 2(7), 42-59.
Bonari, E. M. Mazzoncini, M. & Peruzzi, A.  (1995). Effect of conservation and minimum tillage on winter oilseed rape in a sand soil. Soil and Tillage Research, 33, 91-108.
Darabi, Sh. (2011). The Role of Tractor Fuel Consumption for Different Depths and Gears Using a Digital Fuel Gauge. Conference on New Agricultural Practices. (In Farsi).
Elmuti, M. Y. & Sharifi, A. (2012). Investigation and determination of the amount of power, fuel required and some physical properties of soil in several tillage methods. Journal of Agricultural Machinery, 2(1), 11-18. (In Farsi).
Filipovic, D. Kosutic, S. Gospodaric, Z. Zimmer, R. & Banaj, D. (2006). The possibilities of fuel saving and the reduction of Co2 emissions in the soil tillage in Croatia Agriculture. Ecosystems an Environment, 115(290), 1-4.
Fulton, J. P. Wells, L. G. Shearer, S. A. & Barnhisel, R. I. (1996). Spatial variation of soil physical properties: a precursor to precision tillage. Presented at the 1996 ASAE Annual International Meeting, pp. 96-112.
Grisso, R. D. Yasin, M. & Kochar, M. F. (1996). Tillage tool forces operating in silty clay loam. Transactions of the ASAE, 39(6), 1977-1982.
Hernanz, J. L. Lopez, R. Navarrete, L. & Sanchez-Giron, V. (2002). Long-term effects of tillage systems and rotations on soil structure stability and organic carbon stratification in semiarid central Spain. Soil and Tillage, 66, 129-141.
Helsel, Z. R. (2007). Fuel requirements and energy saving tips for field operation. New Jersey Agriculture Experiment Station.
Jalali, A. Mahmoudi, A. Valizadeh, M. & Eskandi, I. (2015). Investigating the Effect of Speed and Depth of Conservation Tillage on Field Fuel Consumption. Agricultural Machinery, 5(2), 325-335. (In Farsi).
Moitzi, G. Szalay, T. Schuller, M. Wagentristl, H. Refenner, K. Weingartmann, H. Liebhard, P. Boxberge, J. & Gronauer, A. (2013). Effects of tillage systems and mechanization on work time. fuel and energy consumption for cereal cropping in Austria. Agricultural Engineering International: CIGR Journal, 15(4), 94-101.
Moitzi, G. Wagentristl, H. Refenner, K. Weingartmann, H. Piringer, G. Boxberger, J. & Gronauer, A. (2014). Effects of working depth and wheel slip on fuel consumption of selected tillage implements. Agricultural Engineering International: CIGR Journal, 16(1), 182-190.
O’Brien, P. L. & Daigh, A. L. M. (2019). Tillage practices alter the surface energy balance – A review. Soil and Tillage Research, 195, 1-7.
Reece, A. R. (1965). The fundamental equation of earth-moving mechanics. In: Proceedings of the Institution of Mechanical Engineers, Conference Proceedings, 179(6), pp. 16-22.
Sahu, R. K. & Raheman, H. (2006). An approach for draft prediction of combination tillage implements in sandy clay loam soil. Soil and Tillage Research, 90(1-2), 145-155.
Sessiz, A. T. Sogut, P. A. & Esgici, R. (2008). Tillage effects on sunflower (Helianthus Annuus, L.) emergence, Yield, Quality, and fuel consumption in double cropping system. Journal of Central European Agriculture, 9(40), 697-710.
Terzaghi, K. (1943). Theoretical soil mechanics. New York: Wiley.
 
مهندسی بیوسیستم ایران
دوره 51، شماره 4
اسفند 1399
صفحه 749-756

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  • تاریخ دریافت: 04 اسفند 1398
  • تاریخ بازنگری: 11 آبان 1399
  • تاریخ پذیرش: 02 خرداد 1399

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