• Title/Summary/Keyword: Conductive heat input condition

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Evaporation Cooling of Droplet due to Surface Roughness under Radiative Heat Input Condition (복사가열조건에서 표면 거칠기에 따른 액적의 증발 냉각)

  • Bang Chang-Hoon;Kwon Jin-Sun;Yea Yong-Taeg
    • Journal of the Korean Society of Safety
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    • v.19 no.3 s.67
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    • pp.14-19
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    • 2004
  • The objective of the present work is to examine evaporation cooling of droplet due to surface roughness under radiative heat input condition. The surface temperatures varied from $80\~160^{\circ}C$ on aluminum alloy (AL 2024) and surface roughness was $0.18{\mu}m,\;1.36{\mu}m$. The results are as follows; Regardless of surface roughness under radiative heat input condition, as droplet diameter is larger, the in-depth temperature of solid decreases and evaporation time increases. In the case of $0.18{\mu}m\;and\;1.36{\mu}m$ of surface roughness, the larger the surface roughness is, the less the evaporation time is and the larger the temperature within the solid is. In the case of $Ra=0.18{\mu}m$ evaporation time and time averaged heat flux for radiative heat input case is shorter than for the conductive case.

Characteristic of Evaporation Cooling in Water Droplet Impinging on Steel with Various Surface Roughness and Droplet Diameter (강에서 표면조도의 변화와 액적 직경에 따른 충돌 액적 증발 냉각 특성)

  • Jang, C.S.;Sohn, C.H.;Chung, S.W.;Choi, W.S.
    • Journal of the Korean Society for Heat Treatment
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    • v.19 no.3
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    • pp.141-148
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    • 2006
  • An experimental study is presented for water droplet impingement on a steel surface in the process of heat treatment. The objective of the present work is to examine characteristic of evaporation cooling due to surface roughness and droplet diameter under conductive heat input condition. The surface temperatures varied from $80{\sim}155^{\circ}C$, surface roughness was from $R_a=0.12{\mu}m$ to $R_a=1.14{\mu}m$ and droplet diameter was from 2.4 mm to 3.0 mm. The results show that the total evaporation time is shorter for the larger surface roughness and the smaller droplet size, the time average heat flux has maximum value for the larger surface roughness and the smaller droplet size. The total evaporation time has not influence on the nuclear boiling region.

Conjugated heat transfer of the simulated module on the bottom of a inclined channel (경사진 채널 밑면에 부착된 모사모듈의 복합열전달)

  • Lee, Jin-Ho;Cho, Seong-Hoon
    • Proceedings of the KSME Conference
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    • 2001.06d
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    • pp.471-476
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    • 2001
  • The characteristics of conjugated heat transfer in the inclined channel was experimentally investigated. The simulated module is attached to the bottom of the inclined channel and is heated with constant heat flux. The experimental parameters of this study are input power (Q = 3, 7W), inlet air velocity ($V_{i}=0.1{\sim}0.9m/s$) and inclined channel angle (${\varphi}=0{\sim}90^{\circ}$). The results show that input power was most effective parameter on the temperature differences between module and air. As the inclined channel angle increases, the temperatures of the module are increased. And we obtained the best condition on the conductive board when ${\varphi}=0^{\circ}$.

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Effects of Thermal Interaction on Natural Convection From Discrete Heat Sources Mounted on a Vertical Plate (수직평판에 부착된 불연속 열원에 의한 자연대류에서 열원간의 열적 상호간섭에 관한 연구)

  • Park, H.S.;Choo, H.L.;Riu, K.J.
    • Solar Energy
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    • v.18 no.4
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    • pp.39-47
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    • 1998
  • The natural convection heat transfer in a vertical plate with discrete heat sources was studied experimentally. The particular interest was the thermal interaction of the heat sources. In this study, the radiative and conductive heat transfer were considered as heat loss, Thus, the net convective heat transfer rate was presented as adiabatic temperature and thermal wake function. As a results, for non-uniform heating condition, heat input ratio(q1/q2) was most dominant parameter for the thermal wake function. The convective heat transfer rate is decreased with the increasing of channel ratio. For the range of $7.50{\times}10^5<Rac<8.66{\times}10^6$, a useful correlation was proposed as a function of channel Rayleigh number.

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Finite Element Analysis on the Improvement of Residual Deformation of the Part After Pulse Laser Welding of Circular Cover (원형 커버의 펄스 레이저 용접 후 부품 잔류변형 개선에 관한 유한요소해석)

  • Kim, Kwan-Woo;Cho, Hae-Yong
    • Journal of Welding and Joining
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    • v.33 no.6
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    • pp.60-66
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    • 2015
  • Molten zone shape of pulse laser welding is affected by welding conditions such as beam power, beam speed, irradiation time, pulse frequency, etc. and is divided into conduction type and keyhole type. It is necessary to design heat source model for irradiation of laser beam in the pulse laser welding. Shape variables and the maximum energy density value of the heat source model are different depending on the molten zone shape. In this paper, pulse laser welding simulation for joining of cylindrical part and circular cover was carried out. The heat source model for pulse laser beam with circular path was applied to the heat input boundary condition, radiative and conductive heat transfer were considered for the thermal boundary condition. For each phase, thermal and mechanical properties according to temperature were also applied to analysis. Analytical results were in good agreement with the molten zone size of specimen under the same welding conditions. So, the reliability of the welding simulation was verified. Finally, the improvements for reducing residual deformation after cover welding could be reviewed analytically.