In case of a low speed gearing in the automatic transmission, since the torque is increased, it is difficult to secure a good feeling on gear shift of transmission. It is possible to improve the shift feeling on transmission by applying a one-way clutch in case of the gear shift from the first stage to the second stage. But in case of the gear shift from the second stage to the third stage, it is difficult to secure a good feeling on gear shift of transmission because the hydraulic components are directly controlled simultaneously. In this study, a shift performance of an automatic transmission was investigated as a basic study to solve these problems. The subjects of this study are 2-3 step upshifting gearing process and the performance data such as the pressure characteristics and torque of the transmission according to the amount of the throttle valve opening are analyzed on basis of experiment with an actual vehicle. As a result, the transient time of the shift is closely related to the amount of the throttle valve, opening and the time point at which the shifting ends is shortened when the throttle valve opening reaches 30% of the opening amount.
Distribution basins are used widely in the water treatment process. Uniform distribution at the distribution basin is an important because it affect precipitation efficiency of sedimentation basin. Generally distribution basin has a free surface water and is consisted of a weir. Study result, when inflow of distribution basin is less, amount of overflow is much at the nearest weir from the inlet. But when inflow is much, amount of overflow is much at the far weir from the inlet. The difference of distribution amount at the pipe is affected by the curvature and length of the pipe. The magnitude of the effect is determined by the relative energy loss and the flow state of the distribution basin. Optimization of the response surface method for minimizing an amount of deviation of the distribution is a very useful technique to determine the optimal ratio of the valve opening.
Flow visualization of Butterfly valve is tested five cases(15°, 30°, 45°, 60° and 90°) of vlave opening angle. Measurement by the PIV(Particle Image Velocimetry) was conducted to investigate the flow characteristics of butterfly valve about discharge of dam.. Flow behaviors such as instantaneous and time-mean velocity vectors are investigated each cases. The results from flow visualization using PIV through the video which do not contain a cavitation phenomenon was confirmed in accordance with the valve opening. Performs valve opening and the flow properties of the Karman vortex generated by the frequency analysis is 90° was calculated the frequency of the butterfly valve applied to the actual dam. Butterfly valve for the emergency discharge valve is susceptible to cavitation caused by the valve opening 90° and repeat the cycle in the valve side of the vortex emission system is a high possibility of damage due to fatigue.
버터플라이 밸브는 선박에서 냉각수와 유류 계통 등에 범용으로 널리 사용되고 있다. 이 연구에서는 유량조정에 따른 배관계통의 버터플라이밸브 후류 유동특성을 규명하기 위하여 입자영상 유속측정장치를 이용하여 밸브개도에 따른 유선과 속도벡터 분포에 관한 정량적인 데이터를 확보하였다. 또한 밸브 주위 유동장의 압력성분을 고찰하기 위하여 개폐각도를 6가지 경우로 변화시켜 정압을 측정하였다. 그 결과 실험관 벽면에서 측정된 압력의 분포는 디스크가 전개 상태인 0˚에서 45˚까지는 입구 압력은 일정한 상태로 거의 변화하지 않았으나 약 60˚ 이상에서부터 압력 상승과 점차 급격한 변동현상이 나타났다. 특히, 75˚ 부근에서는 상류에서 급격한 압력 상승 경향을 보인 반면 하류 측은 압력변동이 적게 나타났다.