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Prediction the Performance Rate of Chain Type Trenching Machine

Year 2021, Volume: 2 Issue: 2, 390 - 402, 31.12.2021

Abstract

The mathematical analysis for estimating the performance rate "RP" of chain-type trenching machine was studied. The mathematical analysis ended with an equation for this type. This mathematical equation was checked under different operating conditions. The practical study of the performance rate showed that the deviation of the theoretical performance rate from the actual performance rate ranged from -3.4 to +2% only for the 150.7 cm and 120.7 cm trench depth respectively. The machine field efficiency ranged from 46.7 to 57% for the 150.7 cm and 120.7 cm depth respectively. It also showed an increase in machine field efficiency by decreasing the trench depth.

References

  • Day DA (1973). Construction equipment guide. John Wiley and Sons.,Inc., N. Y., USA, 206-208.
  • Diep DD (2017). Analysis the Factors Affecting Conveyance Rate of Unbucket Chain Trenching Machine. Agricultural, Forest and Transport Machinery and Technologies, 4(1): 38-44.
  • Donahue RL, Miller RW and Shickluna GC (1985). Soil an introduction to soil and plant growth. 4th Ed. Prentice Hall, Inc., Englewood cliffs, New Jersey, USA. 98-106.
  • Du Y, Dorneich MC and Steward B (2016). Virtual operator modeling method for excavator trenching. Automation in Construction, 70: 14-25.‏
  • i-bidder.com 2015. Barth holland k171 trencher. [Online] Available from: https://www.i-bidder.com/en-gb/auction-catalogues/ml/catalogue-id-morris10019/lot-dd3f8267-bddc-47be-ab61-a50900a797df. (Accessed November 24, 2021).
  • Jia J, Jia and Schmidt (2018). Soil dynamics and foundation modeling. Springer, New York.‏
  • Kovalenko P, Rokochinskiy A, Mazhayskiy Y, Volk P, Volk L and Chernikova O (2020). Construction and agricultural drainage parameter optimization considering economic and environmental requirements. Engineering for Rural Development, 19: 1009-1017.
  • Peurifoy RL (1970). Construction planning, equipment, and methods. 2nd ed. McGraw, Hill Kogakusha, Ltd., Tokyo, Japan, pp 695.
  • Reddy Y and Shailesh P (2018). Design and analysis of excavator bucket tooth. International Journal of Modern Trends in Engineering and Research, 5(4): 79-86.
  • Shady AM (1989). Irrigation drainage and flood control in Canada. Canadian international development agency, Quebec, Canada.
  • Schaufelberger JE and Migliaccio GC (2019). Construction equipment management. Routledge.
  • Schwab GO, Frevert RK, Edminster TW and Barnes KK (1982). Soil and water conservation engineering. Soil Science, 134(2): 146.
  • Sitorus PE, Ko JH and Kwon OS (2016). Parameter study of chain trenching machines of Underwater Construction Robots via analytical model. In OCEANS 2016 MTS/IEEE Monterey (pp. 1-6). IEEE.‏
  • Spencer A, Machin J and Jackson E (2007). Rock cutting With the T750 super trenching. Unmanned Intervention, New Orleans, LA, 30.
  • Vlotman WF, Smedema LK and Rycroft DW (2020). Modern land drainage: Planning, design and management of agricultural drainage systems. CRC Press.‏ ‏
Year 2021, Volume: 2 Issue: 2, 390 - 402, 31.12.2021

Abstract

References

  • Day DA (1973). Construction equipment guide. John Wiley and Sons.,Inc., N. Y., USA, 206-208.
  • Diep DD (2017). Analysis the Factors Affecting Conveyance Rate of Unbucket Chain Trenching Machine. Agricultural, Forest and Transport Machinery and Technologies, 4(1): 38-44.
  • Donahue RL, Miller RW and Shickluna GC (1985). Soil an introduction to soil and plant growth. 4th Ed. Prentice Hall, Inc., Englewood cliffs, New Jersey, USA. 98-106.
  • Du Y, Dorneich MC and Steward B (2016). Virtual operator modeling method for excavator trenching. Automation in Construction, 70: 14-25.‏
  • i-bidder.com 2015. Barth holland k171 trencher. [Online] Available from: https://www.i-bidder.com/en-gb/auction-catalogues/ml/catalogue-id-morris10019/lot-dd3f8267-bddc-47be-ab61-a50900a797df. (Accessed November 24, 2021).
  • Jia J, Jia and Schmidt (2018). Soil dynamics and foundation modeling. Springer, New York.‏
  • Kovalenko P, Rokochinskiy A, Mazhayskiy Y, Volk P, Volk L and Chernikova O (2020). Construction and agricultural drainage parameter optimization considering economic and environmental requirements. Engineering for Rural Development, 19: 1009-1017.
  • Peurifoy RL (1970). Construction planning, equipment, and methods. 2nd ed. McGraw, Hill Kogakusha, Ltd., Tokyo, Japan, pp 695.
  • Reddy Y and Shailesh P (2018). Design and analysis of excavator bucket tooth. International Journal of Modern Trends in Engineering and Research, 5(4): 79-86.
  • Shady AM (1989). Irrigation drainage and flood control in Canada. Canadian international development agency, Quebec, Canada.
  • Schaufelberger JE and Migliaccio GC (2019). Construction equipment management. Routledge.
  • Schwab GO, Frevert RK, Edminster TW and Barnes KK (1982). Soil and water conservation engineering. Soil Science, 134(2): 146.
  • Sitorus PE, Ko JH and Kwon OS (2016). Parameter study of chain trenching machines of Underwater Construction Robots via analytical model. In OCEANS 2016 MTS/IEEE Monterey (pp. 1-6). IEEE.‏
  • Spencer A, Machin J and Jackson E (2007). Rock cutting With the T750 super trenching. Unmanned Intervention, New Orleans, LA, 30.
  • Vlotman WF, Smedema LK and Rycroft DW (2020). Modern land drainage: Planning, design and management of agricultural drainage systems. CRC Press.‏ ‏
There are 15 citations in total.

Details

Primary Language English
Subjects Agricultural Engineering
Journal Section Research Articles
Authors

Mohamed Ghonimy 0000-0002-4887-3658

Publication Date December 31, 2021
Submission Date September 23, 2021
Acceptance Date November 26, 2021
Published in Issue Year 2021 Volume: 2 Issue: 2

Cite

APA Ghonimy, M. (2021). Prediction the Performance Rate of Chain Type Trenching Machine. Turkish Journal of Agricultural Engineering Research, 2(2), 390-402.

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