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      KCI등재 SCIE SCOPUS

      Aerodynamic performance optimization for the rotor design of a hovering agricultural unmanned helicopter

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      https://www.riss.kr/link?id=A105079534

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      다국어 초록 (Multilingual Abstract)

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      The importance of using Agriculture unmanned helicopters (AUHs), especially for spraying pesticides and fertilizers on any terrain type to ensure crop yields, has been recently acknowledged. Apart from flying these helicopters at a super-low altitude and low speed, using an efficient and optimum rotor blade ensures a uniform and deep penetration of pesticide and fertilizers over a specified area. Accordingly, this work attempts to optimize the rotor blade of an AUH by using coupling statistics and several numerical techniques, including design of experiments, response surface method, and computational fluid dynamics. The experiments are designed using the central composite design method and by selecting the geometric variables that affect the aerodynamic performance of the rotor blade, including the root chord, tip chord, and angle of attack. The angle at the root and tip is optimized in order for the resulting twist to produce a uniform blade loading, achieve maximum lift, and minimize the required hover power. The required aerodynamic forces and limited availability of engine power are identified as constraints. The blade is optimized only when the helicopter is hovering at a persistent rotational speed, and the hover efficiency of the rotor blade with an optimal twist distribution is significantly higher than the baseline.
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      The importance of using Agriculture unmanned helicopters (AUHs), especially for spraying pesticides and fertilizers on any terrain type to ensure crop yields, has been recently acknowledged. Apart from flying these helicopters at a super-low altitude ...

      The importance of using Agriculture unmanned helicopters (AUHs), especially for spraying pesticides and fertilizers on any terrain type to ensure crop yields, has been recently acknowledged. Apart from flying these helicopters at a super-low altitude and low speed, using an efficient and optimum rotor blade ensures a uniform and deep penetration of pesticide and fertilizers over a specified area. Accordingly, this work attempts to optimize the rotor blade of an AUH by using coupling statistics and several numerical techniques, including design of experiments, response surface method, and computational fluid dynamics. The experiments are designed using the central composite design method and by selecting the geometric variables that affect the aerodynamic performance of the rotor blade, including the root chord, tip chord, and angle of attack. The angle at the root and tip is optimized in order for the resulting twist to produce a uniform blade loading, achieve maximum lift, and minimize the required hover power. The required aerodynamic forces and limited availability of engine power are identified as constraints. The blade is optimized only when the helicopter is hovering at a persistent rotational speed, and the hover efficiency of the rotor blade with an optimal twist distribution is significantly higher than the baseline.

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      참고문헌 (Reference)

      1 선효성, "Wind turbine airfoil design using response surface method" 대한기계학회 25 (25): 1335-1340, 2011

      2 R. C. Amsden, "The use of helicopter in agriculture" 15 : 61-64, 1986

      3 C. Zhang, "The application of small unmanned aerial systems for precision agriculture : A review" 13 : 693-712, 2012

      4 R. H. Myers, "Response surface methodology: Process and product optimization using designed experiments" Wiley 1995

      5 H. Sun, "Response surface approach to aerodynamic optimization design of helicopter rotor blade" 64 : 125-142, 2005

      6 Y. M. Koo, "Performance comparison of two airfoil rotor designs for an agricultural unmanned helicopter" 37 : 2012

      7 E. Adeeb, "Parametric study and optimization of ceiling fan blades for improved aerodynamic performance" 9 : 2905-2916, 2016

      8 K. K. Saijal, "Optimization of helicopter rotor using polynomial and neural network metamodels" 48 : 553-566, 2011

      9 H. M. Adelman, "Integrated multidisciplinary optimization of rotorcraft: A plan for development" NASA 1989

      10 M. Imiela, "High-fidelity optimization framework for helicopter rotors" 23 : 2-16, 2012

      1 선효성, "Wind turbine airfoil design using response surface method" 대한기계학회 25 (25): 1335-1340, 2011

      2 R. C. Amsden, "The use of helicopter in agriculture" 15 : 61-64, 1986

      3 C. Zhang, "The application of small unmanned aerial systems for precision agriculture : A review" 13 : 693-712, 2012

      4 R. H. Myers, "Response surface methodology: Process and product optimization using designed experiments" Wiley 1995

      5 H. Sun, "Response surface approach to aerodynamic optimization design of helicopter rotor blade" 64 : 125-142, 2005

      6 Y. M. Koo, "Performance comparison of two airfoil rotor designs for an agricultural unmanned helicopter" 37 : 2012

      7 E. Adeeb, "Parametric study and optimization of ceiling fan blades for improved aerodynamic performance" 9 : 2905-2916, 2016

      8 K. K. Saijal, "Optimization of helicopter rotor using polynomial and neural network metamodels" 48 : 553-566, 2011

      9 H. M. Adelman, "Integrated multidisciplinary optimization of rotorcraft: A plan for development" NASA 1989

      10 M. Imiela, "High-fidelity optimization framework for helicopter rotors" 23 : 2-16, 2012

      11 T. Meng, "Exploration and practice for the agricultural value of unmanned helicopters" 191-194, 2015

      12 이병언, "Experimental hover performance evaluation on a small-scale rotor using a rotor test stand" 대한기계학회 25 (25): 1449-1456, 2011

      13 F. Caradonna, "Experimental and analytical studies of a model helicopter rotor in hover" NASA 1981

      14 J. Zhou, "Efficacy of unmanned helicopter in rainwater removal from cherry canopies" 124 : 161-167, 2016

      15 Y. M. Koo, "Development of essential mechanical elements for unmanned agricultural helicopter with payload of 20 kg" MOCIE 2009

      16 "Ansys Fluent Release 16.2, ANSYS® Academic Research, Help System, Fluent Theory and User’s Guide"

      17 B. A. Haider, "Aerodynamically efficient rotor design for hovering agricultural unmanned helicopter" 10 : 2017

      18 Y. M. Koo, "Aerial application using a small RF controlled helicopter (III) - lift test and rotor system" 31 : 182-187, 2006

      19 Y. M. Koo, "Aerial application using a small RF controlled helicopter (I)-status and cost analysis" 31 : 95-101, 2006

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      연월일 이력구분 이력상세 등재구분
      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
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      2012-11-05 학술지명변경 한글명 : 대한기계학회 영문 논문집 -> Journal of Mechanical Science and Technology KCI등재
      2010-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2008-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2006-01-19 학술지명변경 한글명 : KSME International Journal -> 대한기계학회 영문 논문집
      외국어명 : KSME International Journal -> Journal of Mechanical Science and Technology      		 KCI등재
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      2004-01-01 평가 등재학술지 유지 (등재유지) KCI등재
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 1.04 0.51 0.84
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.74 0.66 0.369 0.12
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