SINTESIS ZEOLIT A DARI ABU DASAR BATUBARA DAN APLIKASINYA SEBAGAI ADSORBEN ION Ni(II)

Zeolite A was successfully synthesized from coal bottom ash of PLTU Paiton East Java. Zeolite A was synthesized from bottom ash using the method of alkaline fusion, continued with hydrothermal treatment. The fusion was done at 750�C for 1 hour, and the hydrothermal process was done with the temperature variation of 100, 110, and 120�C for 3 hours. Bottom ash and the solid product of synthesis were characterized by infrared spectrometry, X-ray diffraction, scanning electron microscopy and gas N2 physisorption method based on the BET equation. The synthesized zeolite A and bottom ash were applied as adsorbents of Ni2+ at various pH, interaction time, and concentration of Ni2+. Characterization using FTIR spectroscopy showed the presence of O-Si-O and O-Al-O groups in bottom ash, sodium silicate and sodium aluminate in the result of the fusion of bottom ash, and the vibration characteristic of zeolite A at solid the product of synthesis. Both the XRD pattern showed hydrothermal treatment at 100�C for 3 hours resulted by zeolite A with the highest crystallicity. The result of SEM showed the changes of shape that was more homogen on the product of zeolite A. The result of physisorption analysis with BET method, showed that surface area of zeolite A was higher than bottom ash. The optimum condition of ion Ni2+ adsorption on synthetic zeolite A and bottom ash was observed at pH 4, interaction time of 90 minutes. Adsorption of ion Ni2+ continually increased up to 50 ppm for synthetic zeolite A, and 40 ppm for bottom ash. The adsorption kinetics study of Ni2+ on synthetic zeolite A and bottom ash can followed the first order kinetic from Langmuir-Heinshelwood or Santosa modification (2007). The synthetic zeolite A had greater adsorption capacity that was 18.3 x 10-5 mol/g, compared with bottom ash which only 25.5 x 10-6 mol/g. The adsorption of Ni2+ continued chemically with adsorption energy of Ni2+ was 29.29 kJ/mol for the sinthetic zeolite A, and 24.59 kJ/mol for bottom ash. The result of the study showed that the modification of coal bottom ash becames zeolite A can increase the adsorption of capacity for Ni2+.