Imaging Of Solid Flow In Air Using Dual Modality Tomography
DOI:
https://doi.org/10.11113/jt.v54.822Abstract
Matlamat keseluruhan projek ini ialah untuk menyelidiki manfaat yang boleh diperoleh daripada sistem tomografi dwi ragam (optik dan elektrodinamik) untuk mengukur imej tomografi terhadap aliran pepejal. Penyelidikan ini melibatkan kajian ke atas pengagihan manikmanik plastik yang dialirkan dalam sebuah paip dengan memasang penderia–penderia optik dan elektrodinamik di sekeliling paip tanpa mengganggu aliran di dalam paip. Sistem tomografi dwi raga mini dibahagikan kepada dua bahagian, yang terdiri dari perkakasan dan perisian. Perkakasan optik direka bentuk menggunakan 32 BPX65 penderia foto diod yang bertindak sebagai penerima dan dua lampu halogen yang bertindak sebagai pemancar cahaya. Penderia–penderia ini diatur sebagai dua projeksi selari. Penderia–penderia elektrodinamik direka bentuk menggunakan 16 elektrod yang dipasang pada jarak yang sama di sekeliling dinding paip. Sistem tomografi ini mampu memaparkan agihan kepekatan objek di dalam paip. Kata kunci: Profil kepekatan; aliran dwi fasa; tomografi optic; infra–merah; aliran pepejal The overall aim of this project is to investigate the benefits of dual modality (optical and electrodynamics) tomography system for the measurement of tomographic images of solids flow. This research will investigate the distribution of conveying plastic beads in a conveying pipe by placing optical and electrodynamics sensors around the pipe without interrupting the flow inside the pipe. The dual modality tomography system is divided into two main parts, which are the development of hardware and software. Optical hardware is designed using 32 BPX65 photodiode sensors acting as receivers and two halogen bulbs acting as light transmitters. The sensors are arranged as two parallel projections. The electrodynamics sensors are designed using 16 electrodes positioned equidistantly around the periphery of the pipe wall. The tomography system is able to display the concentration profile of the objects inside the pipe. Key words: Concentration profiles; two phase flow; optical tomography; infra–red; solid flowDownloads
Published
2012-03-08
Issue
Section
Science and Engineering
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Copyright of articles that appear in Jurnal Teknologi belongs exclusively to Penerbit Universiti Teknologi Malaysia (Penerbit UTM Press). This copyright covers the rights to reproduce the article, including reprints, electronic reproductions, or any other reproductions of similar nature.
How to Cite
Imaging Of Solid Flow In Air Using Dual Modality Tomography. (2012). Jurnal Teknologi, 54(1), 371–379. https://doi.org/10.11113/jt.v54.822
