Di dalam kajian ini, karbon teraktif berasaskan hampas padi (KTHP) dibuat untuk menyingkirkan pewarna metilena biru (MB). Hampas padi telah digunakan untuk membuat KTHP melalui kaedah pengaktifan fizikal yang melibatkan sinaran gelombang mikro dan penggasan karbon dioksida (CO2). Kesan kepekatan awal pewarna (25-500 mg/L), masa (1-24 jam) dan suhu larutan (30-60°C) telah dikaji. Keadaan penyediaan optimum didapati pada kuasa sinaran 440 W dan masa pengaktifan 4.28 minit yang menghasilkan penyingkiran MB sebanyak 83.93% dan hasilan KTHP sebanyak 32.55%. Sampel KTHP yang optimum mempunyai luas permukaan 668.30 m2/g, isipadu liang 0.348 cm3/g dan kandungan karbon tetap 70.34%. Liang KTHP tergolong dalam kategori mesoliang dengan purata diameter liang 4.42 nm. Data keseimbangan penjerapan dipadankan kepada tiga model garis sesuhu iaitu Langmuir, Freundlich and Temkin. Penjerapan pewarna MB pada KTHP adalah terbaik dipadankan oleh garis model sesuhu Freundlich dan juga adalah terbaik dihuraikan oleh model kinetic pseudo tertib kedua. Berdasarkan kajian termodinamik, penjerapan MB ke atas KTHP adalah secara endotermik dan proses spontan.
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In this study, rice husk based activated carbon (RHAC) was prepared for the removal of methylene blue (MB) dye. Rice husk was used to prepare RHAC through physical activation process which involved microwave irradiation and carbon dioxide (CO2) gasification. The effect of initial dye concentration (25-500 mg/L), contact time (1-24 h) and solution temperature (30-60°C) were evaluated. The optimum preparation conditions were obtained from response surface methodology (RSM) at radiation power of 440 W and activation time of 4.28 minutes which have resulted in 83.93% MB removal and 32.55% RHAC yield. Optimized RHAC sample has surface area of 668.30 m2/g, pore volume of 0.348 cm3/g and fixed carbon content of 70.34. The pore of RHAC was mesoporous type with average pore diameter of 4.42 nm. The adsorption equilibrium data is to be fitted into three isotherm models which are Langmuir, Freundlich and Temkin. Adsorption equilibrium and kinetic of MB on RHAC were best fitted by Freundlich isotherm and pseudo-second order kinetic models. From thermodynamic study, the adsorption process of MB onto RHAC was endothermic in nature and spontaneous process.