Penjerapan di dalam turus lapisan tetap telah dicadangkan sebagai kaedah yang berkesan untuk rawatan air kumbahan daripada bidang perindustrian. Kajian ini bertujuan untuk mengkaji keberkesanan penyingkiran pewarna Asid Kuning 17 (AY 17) menggunakan butiran karbon teraktif berasaskan tempurung kelapa (GCSAC) di dalam turus lapisan tetap. Kesan parameter penting seperti kepekatan awal pewarna (10-50 mg/L), kadar kelajuan aliran (10-30 mL/min) dan ketinggian butiran karbon teraktif berasaskan tempurung kelapa (2-4 cm) di dalam turus lapisan tetap terhadap lengkung bulus dan prestasi penjerapan disiasat. Hasilnya menunjukkan bahawa lengkung bulus bergantung kepada kepekatan awal pewarna, kadar kelajuan aliran AY 17 dan ketinggian lapisan. Kapasiti penjerapan direkod pada kadar kelajuan aliran terendah, kepekatan pewarna awal tertinggi dan ketinggian tertinggi didapati sebanyak 5.58 mg/g. Model Thomas, Adams-Bohart, Yoon-Nelson, Wolborska dan BDST dipilih untuk menganalisis prestasi penjerapan di dalam turus lapisan tetap. Kapasiti penjerapan, kadar pemalar dan kadar penentuan bukan linear (r2) bagi setiap model telah dikira. Model Thomas, Yoon-Nelson dan BDST damat serasi dengan data penjerapan berbanding model Adams-Bohart atau Wolborska. Hasilnya menunjukkan bahawa GCSAC adalah penjerap yang sesuai untuk penjerapan pewarna AY 17 di dalam turus lapisan tetap.
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The continuous fixed bed adsorption has been proposed as an effective method for the removal of pollutants from the waste water in industrial applications. In this work, the real intention of the study was to investigate the effectiveness of Acid Yellow 17 (AY 17) dye removal onto non-modified granular coconut shell activated carbon (GCSAC) in fixed-bed column. The influence of important parameters such as initial dye concentration (10-50 mg/L), feed flow rate (10-30 mL/min) and bed height (2-4 cm) on the behaviour of the breakthrough curves and adsorption performance was studied. The results indicated that the breakthrough curves were dependent on initial concentration, feed flow rates of AY 17 dye solution and bed height. The adsorption capacity was recorded at lowest flow rate, highest initial concentration and bed height and was found to be 5.58 mg/g. Thomas, Adams-Bohart, Yoon-Nelson, Wolborska and BDST model were selected to analyse the performance of the column adsorption. The adsorption capacity, rate constant and non-linear coefficient of determination (r2) of each model was calculated. Thomas, Yoon-Nelson and BDST model fitted well the adsorption data compared to Adams-Bohart or Wolborska model. The results indicated that the GCSAC was shown to be suitable adsorbent for adsorption of AY 17 dye using fixed-bed adsorption column.