This paper explains preparation of activated carbon from empty fruit bunch (EFB) using steam activation under optimum conditions; activation temperature of 765°C and activation time of 77min and analyzes their physical and chemical properties using proximate and ultimate analysis, fourier transform infrared (FT-IR) analysis, x-ray diffraction (XRD) analysis, nitrogen adsorption-desorption analysis and scanning electron microscopy (SEM) analysis. Results show activated carbon EFB consists of 68.32 wt% carbon, 3.12 wt% hydrogen, 2.12 wt% nitrogen and 26.44 wt% oxygen content. FT-IR spectroscopy result indicate that raw EFB was successfully converted to carbon after activation process and was proven by spectra of commercial activated carbon. The XRD study confirms the presence of some crystalline (graphite) phase around peaks 26oand 43o. Characterization by using BET and SEM analysis showed that activated carbon produced from EFB has good properties with high surface area (720.0 m2/g) and well developed pores.
Objective and Background:
Synergistic extraction was introduced to replace single
extraction due to enhanced extraction efficiency of heavy metal.
Methodology:
In order to improve extraction efficiency, di-(2-ethylhexyl) phosphoric acid
(D2EHPA) was mixed with isodecanol to provide a synergistic effect together with leaching
solution which is thiourea. From the single extraction system, the optimum temperature is
found at 30°C producing the highest yield of %E of 91.30%. The single extraction also happened
better with the presence of Fe(III) solution and thiourea as the %E is at 91.23%.
Results and Conclusion:
It was found that the synergistic D2EHPA-isodecanol extraction is
successful as it yields higher %E than the single D2EHPA extraction.
Coal Bottom Ash (CBA) is normally associated as a by-product from the thermal power plants. Due to the current situation where the power plant is facing an increase in the production of CBA at an alarming rate reaching up to hundreds of thousands of tonnes in Malaysia alone, without known economic value CBA commonly ends up in ash ponds. As sustainable solid waste management has become a growing concern, this research present the recent development achieved on the utilization of CBA as partial replacement of cement in concrete bricks manufacturing. The influence of different amount of CBA on the water absorption, compressive strength performances and UPV test on bricks are presented. With the addition of CBA as a partial replacement of cement also causes an increase in physical performance compared to regular bricks. As a conclusion, the bricks produced passed the required value of typical commercial bricks for water absorption, ultrasonic pulse velocity (UPV) and compressive strength test for industrial purposes. Hence, incorporating CBA in construction materials will significantly reduce the dumping of the by-products in landfills and thus reduce the adverse effect towards the environmental.
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