Papers by Keyword: Ultrasonic Standing Wave

Abstract: As a renewable, clear and inexhaustible energy, solar energy receives much more attention and has partly substituted traditional energies in many fields. Multi-crystalline silicon plays an important role for its low cost, abundant reserves and excellent photoelectric conversion in solar cells. Mixed acid etching is an effectively method to texture the morphology on the surface of mc-Si, While stochastic etching between silicon and acids results in irregular texturing and high reflectivity. In this paper, ultrasonic standing wave is introduced into acid solution, which aid wet etching to texture on the surface of mc-Si by controlling distribution of atoms of acids. Scanning electron microscope experiment shows that the morphology on the surface of mc-Si textured by this method is similar to that of mono-crystalline silicon. And the average reflectivity is 8%, much lower than mixed acid etching.

Abstract: This paper presents the theory, design, and evaluation of a smart device for the enhanced separation of particles mixed in fluid. The smart device takes advantage of the ultrasonic standing wave, which was generated by the operation of a piezoceramic PZT patch installed in the smart device. The details of the device design including the electro-acoustical modelling for separation and PZT transducer are described at first. Based on this design, the separation device was fabricated and evaluated. In the experiments, an optical camera with a zoom lens was used to monitor the position of particles within the separation channel layer in the device. The electric impedance of the PZT patch bonded on the separation device was measured .The device shows a strong levitation and separation force against 50μm diameter particles mixed with water at the separation channel in the device. Experimental results also showed that the device can work at both heavy and light sand particles mixed with water due to the generated standing wave field in the separation channel.