中南大学学报(自然科学版)
中南大學學報(自然科學版)
중남대학학보(자연과학판)
JOURNAL OF CENTRAL SOUTH UNIVERSITY
2009年
5期
1194-1198
,共5页
空调客车%气流组织%温度场%热舒适
空調客車%氣流組織%溫度場%熱舒適
공조객차%기류조직%온도장%열서괄
air conditioning vehicle%air organization%temperature field%thermal comfort
采用k-ε湍流模型和贴体坐标,应用整体求解法计算车室内气固耦合传热问题,应用Monte Carlo法分析计算太阳辐射在车室内固体表面引起的附加热流变化,研究空调客车室内空气流动速度和温度分布规律及热舒适评价指标(Predicted mean vote-predicted percentage of dissatisfied, 即V_P和P_D)分布状况.研究结果表明:靠窗侧座椅区V_P绝对值较小,但P_D较大,有吹冷风感, 从热舒适性出发,空调送风速度不应大于2 m/s;车室内靠走廊座椅区和走廊区的VP的绝对值小于0.5,而PD小于10%,能满足大部分乘客的热舒适性要求;车厢前部区域温度偏高,对人体热舒适不利.
採用k-ε湍流模型和貼體坐標,應用整體求解法計算車室內氣固耦閤傳熱問題,應用Monte Carlo法分析計算太暘輻射在車室內固體錶麵引起的附加熱流變化,研究空調客車室內空氣流動速度和溫度分佈規律及熱舒適評價指標(Predicted mean vote-predicted percentage of dissatisfied, 即V_P和P_D)分佈狀況.研究結果錶明:靠窗側座椅區V_P絕對值較小,但P_D較大,有吹冷風感, 從熱舒適性齣髮,空調送風速度不應大于2 m/s;車室內靠走廊座椅區和走廊區的VP的絕對值小于0.5,而PD小于10%,能滿足大部分乘客的熱舒適性要求;車廂前部區域溫度偏高,對人體熱舒適不利.
채용k-ε단류모형화첩체좌표,응용정체구해법계산차실내기고우합전열문제,응용Monte Carlo법분석계산태양복사재차실내고체표면인기적부가열류변화,연구공조객차실내공기류동속도화온도분포규률급열서괄평개지표(Predicted mean vote-predicted percentage of dissatisfied, 즉V_P화P_D)분포상황.연구결과표명:고창측좌의구V_P절대치교소,단P_D교대,유취랭풍감, 종열서괄성출발,공조송풍속도불응대우2 m/s;차실내고주랑좌의구화주랑구적VP적절대치소우0.5,이PD소우10%,능만족대부분승객적열서괄성요구;차상전부구역온도편고,대인체열서괄불리.
Using body fitted coordinate and k-ε turbulence model, the indoor air/solids fluid flow and heat transfer conjugated problems were resolved with the method. The effect of solar radiation was taken into accout by means of the Monte Carlo method and this auxiliary heat flow on the faces of the indoor solids is the source term of the energy equation. The airflow field and temperature field in the chamber were numerically simulated. The results indicate that V_P (Predicted mean vote) index in window seat zone is a little smaller and P_D (Predicted percentage of dissatisfied) index is a little larger, passengers feel a cold bit. The absolute value of V_P index in the aisle and aisle seat zone is less than 0.5, P_D index is less than 10%, which can agree with passenger's thermal comfort. The temperature around the front of vehicle is higher than that of other zones, which hurts passenger's thermal comfort.