한국융합학회논문지 (Journal of the Korea Convergence Society)

  • 제11권5호
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  • Pages.159-164
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  • 2020
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  • 2233-4890(pISSN)
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  • 2713-6353(eISSN)
한국융합학회 (Korea Convergence Society)
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자동차에서의 공기의 유입구에 따른 유동해석에 관한 융합 고찰

Convergent Investigation on Flow Analysis According to the Inlet Port of Air at Car

  • 오범석 (공주대학교 기계자동차공학부) ;
  • 조재웅 (공주대학교 기계자동차공학부)
  • Oh, Bum-Suk (Division of Mechanical & Automotive Engineering, Kongju National University) ;
  • Cho, Jae-Ung (Division of Mechanical & Automotive Engineering, Kongju National University)
  • 투고 : 2020.03.04
  • 심사 : 2020.05.20
  • 발행 : 2020.05.28
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초록

본 연구에서는 자동차에서의 공기의 유입구에 따른 자동차 내부에서의 유동 해석을 하였다. 공기가 들어오는 유입구로서 쾌적성이 좋은 조건으로서는 유입구가 자동차의 상단 중간이나 전방위치임을 확인할 수 있었다. 차량 내부에 공기 유동의 고르게 분포가 안되는 경우는 자동차의 하단 위치가 유입구의 모든 조건들 중에서 가장 저조한 조건하다. 본 연구 결과를 통하여 탑승자의 기호나 상황에 맞게 공기의 유입이 되도록 그 유입구의 위치를 조절하므로서 자동차 내부의 상태를 쾌적하게 유지할 수 있는데 도움이 될 것이다. 본 연구의 설계 및 해석 결과는 실제적으로 자동차에서의 공기의 유입구의 위치를 조절하는 데에 효율적으로 적용할 수 있다. 자동차에서의 공기의 유입구에 따른 유동해석을 적용함으로서, 본 논문이 미적인 설계에 부합된 융합 연구라고 보여진다.

In this study, the flow analysis of air in the inner side of vehicle due to the position on inlet port of air at car was carried out. Under the comfortable condition as the inlet port in which the air flows, it was possible to confirm that the inlets became the upper and middle sides or the forward side of the vehicle. If the air flow is not evenly distributed within the vehicle, the lower position of the vehicle is the lowest condition among all conditions. The results of this study will help to keep the inner state of the vehicle pleasant by adjusting the location of the inlet to suit the passenger's taste or situation. The design and analysis results of this study can be effectively applied at adjusting the location of the inlet at car. By applying the flow analysis according to the inlet port of air at car, this paper is seen as the convergence study that conforms to aesthetic design.

키워드

참고문헌

  1. H. C. Lee & J. U. Cho. (2014). A Study on Air Flow Analysis due to the Shape of Automotive Body. Journal of the Korea Convergence Society, 5(2), 19-23. Doi : 10.15207/jkcs.2014.5.2.019
  2. O. B. Suk & J. U. Cho. (2018). A Convergence Study through Flow Analysis due to the Configuration of Automotive Air Breather. Journal of the Korea Convergence Society, 9(10), 265-270. Doi : 10.15207/JKCS.2018.9.10.265
  3. S. H. Jung. (2017). The Control of Spring-Mass-Damper Convergence System using $H{\infty}$ Controller and ${\mu}$-Synthesis Controller. Journal of the Korea Convergence Society, 8(5), 1-11. Doi : 10.15207/JKCS.2017.8.5.001
  4. J. U. Cho. (2014). A Flow Analysis on Wing Shape of Cooling Fan at Automobile. Journal of the Korea Convergence Society, 5(4), 75-79. Doi : 10.15207/jkcs.2014.5.4.075
  5. J. U. Cho. (2015). Study on Convergence Technique through the Flow Analytical Study inside the Faucet for Bathroom. Journal of the Korea Convergence Society, 6(2), 37-42. Doi : 10.15207/JKCS.2015.6.2.037
  6. B. S. Oh & J. U. Cho. (2019). Convergence Study on Durability Analysis of Scooter Seat. Journal of the Korea Convergence Society, 10(6), 165-170. Doi : 10.15207/JKCS.2019.10.6.165
  7. J. H. Lee & J. U. Cho. (2015). Study on Convergence Technique through Flow Analysis at the Flexible Joint of the Pipe Laying. Journal of the Korea Convergence Society, 6(3), 13-18. Doi : 10.15207/JKCS.2015.6.3.013
  8. H. C. Lee & J. U. Cho. (2014). A Study on Air Flow Analysis due to the Shape of Automotive Body. Journal of the Korea Convergence Society, 5(2), 19-23. Doi : 10.15207/JKCS.2014.5.2.019
  9. R. D. Gyeom & L. K. Bock. (2019). Flow Characteristics and Wind Loads on the Solar Panel and Floating System of Floating Solar Generato. Journal of the Korea Academia-Industrial cooperation Society, 20(10), 229-235. Doi : 10.5762/KAIS.2019.20.10.229
  10. D. W. Jeong, Y. S. Won & S. H. Kang. (2019). Comparison Study on Aerodynamic Performance and Wake Flow Field for a MW-Class Wind Turbine Model. Journal of the Korean Society of Visualization, 17(2), 32-38. Doi : 10.5407/jksv.2019.17.2.032
  11. K. C. Ahn, B. H. Kim & C. W. Lee. (2014). Flow Analysis of Flowmeter for High-Viscosity Paint Spraying System. Journal of the Korean Society of Mechanical Technology, 16(4), 1709-1714. Doi : 10.17958/ksmt.16.4.201408.1709
  12. D. R. Lee. (2015). Flow Analysis of a Thermopneumatic Micropump For Different Shapes of PDMS Membrane. Journal of the Korean Society of Mechanical Technology, 17(2), 245-250. Doi : 10.17958/ksmt.17.2.201504.245
  13. H. J. Kim & Y. M. Lee. (2014). Experimental Study on Air Flow Characteristics of Axial Dual-blade Fan. Journal of the Korean Society of Manufacturing Process Engineers, 13(4), 113-120. Doi : 10.14775/ksmpe.2014.13.4.113
  14. C. W. Jun, J. H. Sohn & M. S. Yang. (2017). Comparison of Fluid Modeling Methods Based on SPH and ISPH for a Buoy Design for a Wave Energy Converter. Journal of the Korean Society of Manufacturing Process Engineers, 16(3), 94-99. Doi : 10.14775/ksmpe.2017.16.3.094
  15. S. Y. Lee & S. C. Kim. (2015). Flow Analysis for Optimal Design of Small Gear Pump, Journal of Energy Engineering, 24(1), 88-96. Doi : 10.5855/ENERGY.2015.24.1.088