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충돌분류계에서 WIRE MESH를 이용한 열전달 증진에 관한 연구
금성민,김동춘,유지오,이창언,임장순,Kum, S.M.,Kim, D.C.,Yoo, J.O.,Lee, C.E.,Yim, C.S. 한국태양에너지학회 1997 한국태양에너지학회 논문집 Vol.17 No.2
본 연구는 2차원 충돌공기분류계의 포텐셜코어 영역에서 열전달증진을 목적으로 노즐출구와 전열면사이에 메쉬를 설치한후 노즐출구 속도, 메쉬와 전열면사이의 간극, 노즐출구와 전열면사이의 거리를 변화시킬 때의 열전달특성을 메쉬를 설치하지 않은 경우와 비교 검토한 것으로 메쉬를 설치했을 때에는 분류가 전열면에 충돌하면서 소분류로 분할되어 발생하는 난류에 의해 충돌영역에서 열전달성능이 좋아지며, 또한 벽면분류영역으로 진행하면서 홀과 홀사이의 밑부분에서 일어나는 가속으로 인해 열전달성능이 향상된다. 특히 메쉬와 전열면사이의 간극을 변화시켰을 경우 정체점부근에서는 간극이 클수록, 벽면분류영역에서는 간극이 작을수록 전달성능은 향상되며 U=18m/s, H/B=2, C=1인 경우에는 메쉬를 설치하지 않은 평판보다 평균 약 44%의 열전달증진 효과과 있었다. 그리고 본 실험결과를 기존의 난류촉진체를 이용한 연구결과와도 비교 검토하였다. The objective of this research was to investigate the enhancement of heat transfer by wire mesh in impinging air jet system at the potential core region. The first experiment was carried out without mesh between nozzle exit and flat plate and the second experiment was done with mesh between them. When mesh was installed in front of the plate, heat transfer has been Increased due to the acceleration between rectangular halls and divided small jet In case clearances are changed, heat transfer comes to maximum under the condition of C=1mm, irrespective of nozzle exit velocity and H/B. Also the average heat transfer enhancement rate of a flat plate with mesh has been increased about 44% at maximum under the condition of U=18m/s, H/B=2 and C=1mm, compared to the result of a flat plate without mesh.
충돌분류계에서 WIRE MESH를 이용한 열전달 증진에 관한 연구
금성민(S.M.Kum),김동춘(D.C.Kim),유지오(J.O.Yoo),이창언(C.E.Lee),임장순(C.S.Yim) 한국태양에너지학회 1997 한국태양에너지학회 논문집 Vol.17 No.1
본 연구는 2차원 충돌공기분류계의 포텐셜코어 영역에서 열전달증진을 목적으로 노즐출구와 전열면사이에 메쉬를 설치한후 노즐출구 속도, 메쉬와 전열면사이의 간극, 노즐출구와 전열면사이의 거리를 변화시킬 때의 열전달특성을 메쉬를 설치하지 않은 경우와 비교 검토한 것으로 메쉬를 설치했을 때에는 분류가 전열면에 충돌하면서 소분류로 분할되어 발생하는 난류에 의해 충돌영역에서 열전달성능이 좋아지며, 또한 벽면분류영역으로 진행하면서 홀과 홀사이의 밑부분에서 일나는 가속으로 인해 열전달성능이 향상된다. 특히 메쉬와 전열면사이의 간극을 변화시켰을 경우 정체점부근에서는 간극이 클수록, 벽면분류영역에서는 간극이 작을수록 전달성능은 향상되며 U=18m/s, H/B=s, C=1인 경우에는 메쉬를 설치하지 않은 평판보다 평균 약 44%의 열전달증진 효과과 있었다. 그리고 본 실험결과를 기존의 난류촉진체를 이용한 연구결과와도 비교 검토하였다. The objective of this research was to investigate the enhancement of heat transfer by wire mesh in impinging air jet system at the potential core region.<br/> The first experiment was carried out without mesh between nozzle exit and flat plate and the second experiment was done with mesh between them.<br/> When mesh was installed in front of the plate, heat transfer has been increased due to the acceleration between rectangular halls and divided small jet<br/> In case clearances are changed, heat transfer comes to maximum under the condition of C= 1mm, irrespective of nozzle exit velocity and H/B.<br/> Also the average heat transfer enhancement rate of a flat plate with mesh has been increased about 44% at maximum under the condition of U=18m/s, H/B=2 and C=l mm, compared to the result of a flat plate without mesh.
난류 확산화염의 난류강도가 Thermal NOx 생성에 미치는 영향
이창언(C.E.Lee),김종호(J.H.Kim) 한국자동차공학회 1997 한국자동차공학회 춘 추계 학술대회 논문집 Vol.1997 No.6_1
An experimental investigation was conducted on the thermal NOx formation characteristics of hydrogen jet diffusion flames. NOx measurement was carried out for two flames, one is a conventional jet diffusion flame and the other is a jet diffusion flame which is varied turbulence intensity of the air jet. The increase of turbulence intensity reduces the Thermal NOx conspicuousely but increases the conversion rate of NO to NO2.<br/>
CH₄ 연료의 중간 생성물이 확산화염의 NO 생성에 미치는 영향
오창보(C.B.Oh),이창언(C.E.Lee) 한국자동차공학회 1997 한국자동차공학회 춘 추계 학술대회 논문집 Vol.1997 No.6_1
Numerical analysis was performed with detailed reaction mechanism to investigate the role of thermal and prompt NO mechanism in CH₄-Air jet diffusion flame. The results show that the peak of Full NO concentration is higher than that of Thermal NO, but Prompt NO concentration is very low compared with Thermal NO. Especially, in the fuel region of jet upstream, Full NO concentration is lower than that of Thermal NO. because Full Mechanism contributes to negative formation by attack of intermediate products of CH₄ fuel. It is believed that this NO reduction mechanism can be used for effective NO reduction technique.<br/>
$CO_2$ 첨가가 $CH_4$-공기 대향류 확산화염의 구조 및 NOx 생성에 미치는 영향
이승로,한지웅,이창언,Lee, S.R.,Han, J.W.,Lee, C.E. 한국연소학회 1999 한국연소학회지 Vol.4 No.2
This numerical study was to investigate the effect of $CO_2$ addition on the structures and NOx formation characteristics in $CH_4$ counterflow diffusion flame. The importance of radiation effect was identified and $CO_2$ addition effect was investigated in terms of thermal and chemical reaction effect. Also the causes of NOx reduction were clarified by separation method of each formation mechanisms. The results were as follows : The radiation effect was intensified by $CO_2$ addition. Thermal effect mainly contributed to the changes in flame structure and the amount of NO formation but the chemical reaction effect also cannot be neglected. The reduction of thermal NO was dominant with respect to reduction rate, but that of prompt NO was dominant with respect to total amount.