| 摘要 |
Optical flow cells used, for example, for making scattered light measurements on liquid borne samples, are often affected by particulate materials that adhere to the internal optical surfaces. These contaminating particulates can cause distortions of the scattered light signals to be measured from the illuminated samples within the flow cell. Such particulates are difficult to remove, especially while the cell is assembled. A method for dislodging and removing such particulate contaminants is described that consists of attaching externally to the flow cell an ultrasonic generator whose frequency of operation is swept initially over a range that would couple most effectively with the internal structures of the flow cell itself. The optimal frequency is then selected automatically by monitoring the power dissipated and fixing the ultrasonic frequencies of operation at those values corresponding to regions of maximum power dissipation. Such ultrasonic coupling must be accompanied by an impressed flow through the cell that can remove from the cell particulates that have been dislodged.
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