This study discussed the thermo-solutal natural convection phenomenon caused by temperature gradient and concentration gradient in a closed container in a geometric shape of double-cylinder through experimental method. The effect of local heat conduction of the outer-cylinder on the flow field in the double-cylinder closed container can be observed in the experiment based on the design of the geometric shape and boundary conditions. This experimental model is designed as one sixth of outer-cylinder and inner cylinder made of copper, and one and two thirds of outercylinder made of acrylate. The flow field pattern in a closed area is discussed according to relevant dimensionless parameters.The experimental work fluid is copper sulfate solution (CuS0 4 +H 2 SO 4 + H 2 O) at a concentration of 0.05M. The temperature gradient is maintained by two constant temperature water tanks at different temperatures, and the concentration gradient is set up by electrochemical system. The limiting current is applied to both ends of outer cylinder and inner cylinder to make them electrodes to result in concentration gradient.The flow field in the double-cylinder closed container is observed by using shadowgraph, and photographed as record for analysis. In order to determine the structure of flow field, the temperature and concentration distributions in the flow field are measured. Finally, the relations between the mass transfer rate Sh value and Gr m , Gr t are analyzed.
Monitoring responsibilities include checking the automated operating system to make judgments and provide solutions. A loss of vigilance will lead to accidents if care is not taken. Therefore, emergency situations need to be quickly detected. The purpose of this study was to develop an intelligent fuzzy control system by using fuzzy sets to evaluate and improve the performance of supervisors. There are two input variables: fuzzy set S, which represents the linguistic notion ''hit'' when supervisor action is needed, and the fuzzy set N ˜, which represents the linguistic notion ''false alarm'' when no action is needed. The evaluation was extended from a two-value logic to a multi-value logic by using membership functions. The experimental results show that the fuzzy control used to evaluate the domain of decision response, i.e., the differences among a Type I error (miss), a Type II error (false alarm) and an appropriate reaction, was effective. Therefore, the traditional two-values logic was expanded to the multiple-values performance evaluation to clearly describe the difference in the judgment needed when monitoring ''also this also other'' work. In addition an alarm signal was produced by the fuzzy system for reminding participant's attention. According to the results, the alarm was adapted to call the operator's attention when a situation needed action to improve the supervisory performance. The results show that the effect of the fuzzy control alarm system for improving supervisory performance is significant. Additionally, the wide interval defined in fuzzy set would be more efficient to call participant's attention and improve performance significantly than narrow.
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