J. Kou scite author profile

Saylor

2009

Presented here is an effective low-cost method for the temperature calibration of infrared cameras, for applications in the 0-100 degrees C range. The calibration of image gray level intensity to temperature is achieved by imaging an upwelling flow of water, the temperature of which is measured with a thermistor probe. The upwelling flow is created by a diffuser located below the water surface of a constant temperature water bath. The thermistor probe is kept immediately below the surface, and the distance from the diffuser outlet to the surface is adjusted so that the deformation of the water surface on account of the flow is small, yet the difference between the surface temperature seen by the camera and the bulk temperature measured by the thermistor is also small. The benefit of this method compared to typical calibration procedures is that, without sacrificing the quality of the calibration, relatively expensive commercial blackbodies are replaced by water as the radiative source (epsilon approximately 0.98 for the wavelengths considered here). A heat transfer analysis is provided, which improves the accuracy of the calibration method and also provides the user with guidance to further increases in accuracy of the method.

The temperature statistics of a surfactant-covered air/water interface during mixed convection heat transfer and evaporation

International Journal of Heat and Mass Transfer

Judd

Saylor

2011

Numerical Simulation of New Axial Flow Gas-Liquid Separator

2021

Processes

At present, most of the incoming liquids from the oilfield combined stations are not pre-separated for natural gas, which makes the subsequent process of oil-water separation less effective. Therefore, it is necessary to carry out gas-liquid separation. A new type of axial flow gas-liquid separator was proposed in this paper. The numerical simulation was carried out by CFD FLUENT software, and the changes of concentration field, velocity field and pressure field in the axial flow gas-liquid separator were analyzed. It was found that there were gas-liquid separation developments and stabilization segments in the inner cylinder of the separator. The axial velocity will form a zero-speed envelope in the inner cylinder, and the direction of the velocity in front of and behind the zero-speed envelope was opposite. The tangential velocity showed a “W” shape distribution in the radial position of the inner cylinder. The pressure on the left wall of the guide vane was higher than that on the right side. Therefore, the left wall was more likely to be damaged than the right wall.

A method for removing surfactants from an air/water interface

Saylor

2008

The study of heat, mass, and momentum transport across an air/water interface is an aspect of fluid mechanics where the presence of surfactant monolayers can play a significant role. Experimental studies of air/water transport typically require a method for cleaning the air/water interface so that it is free from any contaminating surfactant monolayer. This may be for the sake of running an experiment under clean surface conditions, or to clean the surface prior to deposition of a known surfactant. Herein a method is described for maintaining a clean air/water interface during conditions of finite air flow over the water surface. The unique aspect of this method is its ability to maintain clean surfaces while experiments are conducted.

Research of Valve-Less Pumps With Changeable Cone Angle Nozzle/Diffuser Elements

Zhang

Lai

et al. 2005

When it comes to the researches of valve-less pumps with nozzle/diffuser elements of different cone angles, they were usually achieved by manufacturing plural pumps, and the number of the pumps is determined by the accuracy of experiments required. However, the traditional way in which finite pumps of different cone angles were used to simulate the changeable cone angle and it would probably conceal some properties of the nozzle/diffuser elements. Meanwhile, many parameters of the nozzle/diffuser elements other than cone angle can not be kept in consistency. In the research, a new kind of 2-Dimensional nozzle/diffuser elements whose cone angles are changeable is created, and the cone angle of the new nozzle/diffuser elements can be adjusted through adjusting the position of the changeable flow passage. Furthermore, when liquid flow through nozzle/diffuser element, the nozzle/diffuser elements could make consecutive loss coefficient, which makes the changes of flux and flow direction. And the kind of pump with the new structure was developed in the research; the effectiveness and usefulness are also demonstrated and proved in the experiments.