Res. Agr. Eng., 2017, 63(4):160-167 | DOI: 10.17221/4/2016-RAE

The effect of tine, wing, operating depth and speed on the draft requirement of subsoil tillage tinesOriginal Paper

Mohammad Askari*, Gholamhossein Shahgholi, Yousef Abbaspour-Gilandeh
Department of Agricultural Machinery, Faculty of Agriculture and Natural Resources, University of Mohaghegh Ardabili, Ardabil, Iran

In this study, the effect of tine type, adding wing, operating depth and forward speed on the draft requirement of subsoil tillage tines was investigated in clay loam soil. Three subsoil tillage tines (subsoiler, bentleg and paraplow), four levels of forward speed (1.8, 2.3, 2.9 and 3.5 km/h), three levels of depth (30, 40 and 50 cm) and winged and no-wing tines were examined with the exception of bentleg as it would not be winged. It was revealed that draft of the tines is less affected by forward speed but is much affected by tine type, depth and wing. It was observed that an increase of speed and depth plus adding wing results in an increase of draft in all tines. Additionally, it was found that in all depths and speeds, subsoiler required more draft than paraplow and paraplow required more draft than bentleg. Multiple regression models including the studied parameters were developed to predict the draft requirements for each tine with high accuracy.

Keywords: 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, 282: 119-127. Abo Al-Kheer A., Kharmanda M.G., El Hami A., Mouazen A.M. (2011): Estimating the variability of tillage forces on a chisel plough shank by modeling the variability of tillage system parameters. Computers and Electronics in Agriculture, 781: 61-70. Ahmed M.H., Godwin R.J. (1983): The influence of wing position on subsoiler penetration and soil disturbance. Journal of Agricultural Engineering Research, 281: 489-492. Alimardani R., Fazel Z., Akram A., Mahmoudi A., Varnamkhasti M.G. (2008): Design and development of a three-point hitch dynamometer. Journal of Agricultural Technology, 43: 37-52. Al-Suhaibani A.S., Al-Jnobi A.A., Al-Majhadi Y.N. (2006): Tractors and tillage implements performance. In: Proceedings from the Canadian Society for Bio Engineering (CSBE-SCGAB) Annual Conference. Paper No. 06-129. July 16-19, 2006. Edmonton, Alberta. Arvidsson J., Keller T., Gustafsson K. (2004): Specific draught for mouldboard plough, chisel plough and disc harrow at different water contents. Soil and Tillage Research, 792: 221-231. ASABE Standards (2009): ASAE D497.6, Agricultural machinery management data. Available at www.asabe.org ASAE Standard (2000): ASAE D497.4. Agricultural Machinery Management Data. St. Joseph, ASAE. Askari M., Komarizade M.H., Nikbakht A.M., Nobakht N., Teimourlou R.F. (2011): A novel three-point hitch dynamometer to measure the draft requirement of mounted implements. Research in Agricultural Engineering, 574: 128-136. Bashford L.L., Byerly D.V., Grisso R.D. (1991): Draft and energy requirements of agricultural implements in semi-arid regions of Morocco. Agricultural Mechanization in Asia, Africa and Latin America, 223: 79-82. Buston M.J., Rackham D.H. (1981): Vibratory soil cutting-II, and improved mathematical models. Journal of Agricultural Engineering Research, 265: 419-439. Celik A., Raper R.L. (2012): Design and evaluation of ground-driven rotary subsoilers. Soil and Tillage Research, 124: 203-210. Desbiolles J.M.A., Godwin R.J., Kilgour J., Blackmore B.S. (1997): A novel approach to the prediction of tillage tool draught using a standard tine. Journal of Agricultural Engineering Research, 662: 295-309. Di Prinzio A.P., Ayala C.D., Magdalena J.C. (1997): Energy evaluation of different techniques and subsoiling effects on soil bulk density. Agro-Science, 131: 61-67. Durairaj C.D., Balasubramanian M. (1997). Influence of tool angles and speed on the soil reactions of a bentleg plough in two soils. Soil and Tillage Research, 442: 137-150. Esehaghbeygi A., Tabatabaeefar A., Raoufat M.H., Keyhani A.R. (2002): Development and field evaluation of an oblique blade subsoiler and comparison of performance with a conventional L-shape subsoiler. Agricultural Sciences, 123: 67-81. Glancey J.L., Upadhyaya S.K., Chancellor W.J., Rumsey J.W. (1996): Prediction of agricultural implement draft using an instrumented analog tillage tool. Soil and Tillage Research, 373: 47-65. Godwin R.J., Spoor G., Leeds-Harrison P. (1981): An experimental investigation into the force mechanics and resulting soil disturbance of mole ploughs. Journal of Agricultural Engineering Research, 262: 477-497. Page Harrison H. (1988): Soil Reacting Forces for a Bentleg Plow. Transactions of the ASAE, 31: 47-51. Harison H.P. (1982): Soil reaction from laboratory studies with an inclined blade. Transactions of ASAE, 251: 7-12. Kheiralla A.F., Azmi Y., Zohadie M., Ishak W. (2004): Modeling of power and energy forces for tillage implements operating in Serdang sandy clay loam, Malaysia. Soil and Tillage Research, 78: 21-34. Manuwa S.I., Ademosun O.C. (2007): Draught and soil disturbance of model tillage tines under varying soil parameters. Agricultural Engineering International: The CIGR journal, 154: 1-18. Manuwa S.I. (2009): Performance evaluation of tillage tines operating under different depths in a sandy clay loam soil. Soil and Tillage Research, 103: 399-405. Moeenifar A., Mousavi-Seyedi S.R., Kalantari D. (2014): Influence of tillage depth, penetration angle and forward speed on the soil/thin-blade interaction force. Agricultural Engineering International: The CIGR Journal, 161: 69-74. Ramadhan M.N. (2014): Development and performance evaluation of the double tines subsoiler in silty clay soil part1: draft force, disturbed area and specific resistance. Mesopotamia Journal of Agriculture, 421: 293-313. 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.[MSc. Thesis.] College of Agriculture, Basrah University, Iraq. Ranjbarian S., Askari M., Jannatkhah J. (2017): Performance of tractor and tillage implements in clay soil. Journal of Saudi Society of Agricultural Sciences, 16: 152-164. Raper R.L. (2005): Agricultural traffic effects on soil. Journal of Terramechanics, 423: 259-280. Sahu R.K., Raheman H. (2006): Draft prediction of agricultural implements using reference tillage tools in sandy clay loam soil. Biosystems Engineering, 942: 275-284. Spoor G., Godwin R.J. (1978): An experimental investigation into the deep loosening of soil by rigid tines. Journal of Agricultural Engineering Research, 231: 243-252. Summers J.D., Khalilian A., Batchelder D.G. (1986): Draft relationships for primary tillage in Oklahoma soils. Transactions of ASAE, 291: 37-39. Thake J.R. (1981): Measurement of the forces acting on a paraplow tine. [MSc.Thesis.] National College of Agricultural engineering, Cranfield institute of technology, Australia.

Published: December 31, 2017  Show citation

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Askari M, Shahgholi G, Abbaspour-Gilandeh Y. The effect of tine, wing, operating depth and speed on the draft requirement of subsoil tillage tines. Res. Agr. Eng. 2017;63(4):160-167. doi: 10.17221/4/2016-RAE.
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References

  1. 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, 282: 119-127. Go to original source...
  2. Abo Al-Kheer A., Kharmanda M.G., El Hami A., Mouazen A.M. (2011): Estimating the variability of tillage forces on a chisel plough shank by modeling the variability of tillage system parameters. Computers and Electronics in Agriculture, 781: 61-70. Go to original source...
  3. Ahmed M.H., Godwin R.J. (1983): The influence of wing position on subsoiler penetration and soil disturbance. Journal of Agricultural Engineering Research, 281: 489-492. Go to original source...
  4. Alimardani R., Fazel Z., Akram A., Mahmoudi A., Varnamkhasti M.G. (2008): Design and development of a three-point hitch dynamometer. Journal of Agricultural Technology, 43: 37-52.
  5. Al-Suhaibani A.S., Al-Jnobi A.A., Al-Majhadi Y.N. (2006): Tractors and tillage implements performance. In: Proceedings from the Canadian Society for Bio Engineering (CSBE-SCGAB) Annual Conference. Paper No. 06-129. July 16-19, 2006. Edmonton, Alberta.
  6. Arvidsson J., Keller T., Gustafsson K. (2004): Specific draught for mouldboard plough, chisel plough and disc harrow at different water contents. Soil and Tillage Research, 792: 221-231. Go to original source...
  7. ASABE Standards (2009): ASAE D497.6, Agricultural machinery management data. Available at www.asabe.org
  8. ASAE Standard (2000): ASAE D497.4. Agricultural Machinery Management Data. St. Joseph, ASAE.
  9. Askari M., Komarizade M.H., Nikbakht A.M., Nobakht N., Teimourlou R.F. (2011): A novel three-point hitch dynamometer to measure the draft requirement of mounted implements. Research in Agricultural Engineering, 574: 128-136. Go to original source...
  10. Bashford L.L., Byerly D.V., Grisso R.D. (1991): Draft and energy requirements of agricultural implements in semi-arid regions of Morocco. Agricultural Mechanization in Asia, Africa and Latin America, 223: 79-82.
  11. Buston M.J., Rackham D.H. (1981): Vibratory soil cutting-II, and improved mathematical models. Journal of Agricultural Engineering Research, 265: 419-439. Go to original source...
  12. Celik A., Raper R.L. (2012): Design and evaluation of grounddriven rotary subsoilers. Soil and Tillage Research, 124: 203-210. Go to original source...
  13. Desbiolles J.M.A., Godwin R.J., Kilgour J., Blackmore B.S. (1997): A novel approach to the prediction of tillage tool draught using a standard tine. Journal of Agricultural Engineering Research, 662: 295-309. Go to original source...
  14. Di Prinzio A.P., Ayala C.D., Magdalena J.C. (1997): Energy evaluation of different techniques and subsoiling effects on soil bulk density. Agro-Science, 131: 61-67.
  15. Durairaj C.D., Balasubramanian M. (1997). Influence of tool angles and speed on the soil reactions of a bentleg plough in two soils. Soil and Tillage Research, 442: 137-150. Go to original source...
  16. Esehaghbeygi A., Tabatabaeefar A., Raoufat M.H., Keyhani A.R. (2002): Development and field evaluation of an oblique blade subsoiler and comparison of performance with a conventional L-shape subsoiler. Agricultural Sciences, 123: 67-81.
  17. Glancey J.L., Upadhyaya S.K., Chancellor W.J., Rumsey J.W. (1996): Prediction of agricultural implement draft using an instrumented analog tillage tool. Soil and Tillage Research, 373: 47-65. Go to original source...
  18. Godwin R.J., Spoor G., Leeds-Harrison P. (1981): An experimental investigation into the force mechanics and resulting soil disturbance of mole ploughs. Journal of Agricultural Engineering Research, 262: 477-497. Go to original source...
  19. Page Harrison H. (1988): Soil Reacting Forces for a Bentleg Plow. Transactions of the ASAE, 31: 47-51. Go to original source...
  20. Harison H.P. (1982): Soil reaction from laboratory studies with an inclined blade. Transactions of ASAE, 251: 7-12. Go to original source...
  21. Kheiralla A.F., Azmi Y., Zohadie M., Ishak W. (2004): Modeling of power and energy forces for tillage implements operating in Serdang sandy clay loam, Malaysia. Soil and Tillage Research, 78: 21-34. Go to original source...
  22. Manuwa S.I., Ademosun O.C. (2007): Draught and soil disturbance of model tillage tines under varying soil parameters. Agricultural Engineering International: The CIGR journal, 154: 1-18.
  23. Manuwa S.I. (2009): Performance evaluation of tillage tines operating under different depths in a sandy clay loam soil. Soil and Tillage Research, 103: 399-405. Go to original source...
  24. Moeenifar A., Mousavi-Seyedi S.R., Kalantari D. (2014): Influence of tillage depth, penetration angle and forward speed on the soil/thin-blade interaction force. Agricultural Engineering International: The CIGR Journal, 161: 69-74.
  25. Ramadhan M.N. (2014): Development and performance evaluation of the double tines subsoiler in silty clay soil part1: draft force, disturbed area and specific resistance. Mesopotamia Journal of Agriculture, 421: 293-313. Go to original source...
  26. 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. [MSc. Thesis.] College of Agriculture, Basrah University, Iraq.
  27. Ranjbarian S., Askari M., Jannatkhah J. (2017): Performance of tractor and tillage implements in clay soil. Journal of Saudi Society of Agricultural Sciences, 16: 152-164. Go to original source...
  28. Raper R.L. (2005): Agricultural traffic effects on soil. Journal of Terramechanics, 423: 259-280. Go to original source...
  29. Sahu R.K., Raheman H. (2006): Draft prediction of agricultural implements using reference tillage tools in sandy clay loam soil. Biosystems Engineering, 942: 275-284. Go to original source...
  30. Spoor G., Godwin R.J. (1978): An experimental investigation into the deep loosening of soil by rigid tines. Journal of Agricultural Engineering Research, 231: 243-252. Go to original source...
  31. Summers J.D., Khalilian A., Batchelder D.G. (1986): Draft relationships for primary tillage in Oklahoma soils. Transactions of ASAE, 291: 37-39. Go to original source...
  32. Thake J.R. (1981): Measurement of the forces acting on a paraplow tine. [MSc.Thesis.] National College of Agricultural engineering, Cranfield institute of technology, Australia.

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