Browse > Article
http://dx.doi.org/10.15435/JILASSKR.2011.16.2.090

Effect of Internal Flow inside Recirculation Chamber Nozzle for Automative Head Lamp on Cleaning Spray  

Shin, J.H. (한국항공대학교 항공우주 및 기계공학과 대학원)
Lee, I.C. (한국항공대학교 항공우주 및 기계공학과 대학원)
Kang, Y.S. ((주)한화 항공우주/기계연구소)
Kim, J.H. (동양공업전문대학 기계설계과)
Koo, J.S. ((주)현대모비스 램프설계팀)
Koo, J.Y. (한국항공대학교 항공우주 및 기계공학부)
Publication Information
Journal of ILASS-Korea / v.16, no.2, 2011 , pp. 90-96 More about this Journal
Abstract
Atomized liquid jets from the washing nozzle which configured with recirculation chamber for cleaning hot-zone area are accelerated and impinged on the head lamp surface. Cleaning efficiency of head lamp can be increased with injecting washing fluids into the hot-zone area. Experimental and numerical studies with various design parameters were executed to reveal the relations between internal geometry and internal flow in the washing nozzle. Spray structures were fitted with each of the head lamp surfaces and spray nozzles were optimized to the spray pattern. The recirculation chamber induces a recirculation flow and can be decreased the pressures perturbation inside the chamber. Orifice determines the mass flow rate. When the diameter of orifice is excessively large, it showed an unstable spray pattern. As a nozzle exit angle increases, density distributions are separated with two section. Also, as a protrusion length of nozzle exit increases, spray patterns are spread into a large area and density distributions showed unstable trend.
Keywords
Head lamp; Recirculation chamber nozzle; Spray cross section; Hot-Zone;
Citations & Related Records
연도 인용수 순위
  • Reference
1 김진우, 김훈, "배광패턴을 고려한 차량용 헤드램프 반사갓의 광학설계 알고리즘 개발", 한국조명.전기 설비학회 추계학술대회논문집, pp. 19-23, 2003.
2 Hella(社) Washer System for Head Lamps and Windows Technical Information.
3 D. H. Han, V. Orozco, M. G. Mungal, "Gross-Entrainment Behavior of Turbulent Jets Injected Obliquely into a Uniform Crossflow", AIAA Journal, Vol. 38, No. 9. September, pp. 1643-1649, 2000   DOI
4 FLUENT 6.1 User'ss Guide, Setp. 2006.
5 R. P. Fuller, P. K. Wu and K. A. Kirkendall, "Effects of Injection Angle on the Breakup Processes of Liquid Jets in Subsonic Crossflow", 33rd, AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit, pp. 1-12, 1997.
6 Z. Farago and N. Chigier, "Morphological Classification of Disintegration of Round Liquid Jets in a Coaxial Air Stream", Atomization and Sprays, Vol. 2, pp. 137-153, 1992.   DOI
7 이인철, 김도헌, 구자예, "액체 중심 전단 동축 인젝터의 저압 상태 액주 분열 과정 및 미립화 특성 연구", 한국항공우주학회 춘계학술발표회 논문집, pp. 312-315, 2011.