Penjerap kos rendah berasaskan Kitosan telah berjaya diubah suai dengan 3-(Triethoxysilyl)-Propylamine (TESPA) dan ia digunakan untuk mengkaji prestasi penjerapan karbon dioksida (CO2) dalam sistem penjerapan lajur lapisan tetap. Struktur mofologikal dan kumpulan berfungsi hadir di bahan penjerap dianalisis menggunakan Fouriere Transform Infrared Analysis (FTIR) dan Scanning Electron Microscopy (SEM). Parameter pengubahsuaian komposit bahan penjerap seperti nisbah-nisbah Chitosan:tanah liat Bleaching Earth dan muatan TESPA juga disiasat. Keputusan menunjukkan bahawa nisbah 1:4 dan pemuatan TESPA 7.86 berat. % menhasilkan keupayaan jerapan CO2 yang terbaik. Kemudian kesan kepekatan kemasukan CO2 dan suhu penjerapan lajur telah disiasat melalui eksperimen penjerapan. Kajian mendedahkan bahawa kepekatan CO2 18% dan suhu penjerapan lajur 35oC ialah keadaan kendalian optimum yang memberi keupayaan jerapan tertinggi 82.31 mg CO2 / bahan penjerap g. Ujian kitaran jerapan CO2 menunjukkan bahawa ia boleh digunakan semula untuk beberapa kali sebelum prestasi penjerapan berkurangan.
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A chitosan based adsorbent was successfully modified with 3-(Triethoxysilyl)-Propylamine (TESPA) and used for the investigation of carbon dioxide (CO2) adsorption performance in fixed-bed column adsorption system. Morphological structure and functional groups present in the adsorbent were analysed using scanning electron microscopy (SEM) and Fourier transform infrared analysis (FTIR). The adsorbent composite modification parameter such as Chitosan:Bleaching Earth clay ratios and TESPA loadings were also investigated. The results showed that a ratio of 1:4 and TESPA loading of 7.86 wt. % provided the best CO2 adsorption capacity. In addition, the effects of CO2 feed concentration in the feed and column adsorption temperature were investigated in the adsorption experiment. The study revealed that CO2 feed concentration of 18% and column adsorption temperature of 35oC were the optimum operating conditions which gave the highest adsorption capacity of 82.31 mg CO2/ g adsorbent. The chitosan based adsorbent multi-cycle CO2 adorption test revealed that it can be reused for several times before the adsorption performance reduced.