UI Postgraduate College

GROUNDWATER DEFLUORIDATION IN BATCH SYSTEMS USING ACTIVATED CARBON DERIVED FROM RAFFIA PALM (RAPHIA HOOKERI G. MANN & H. WENDL) SHELLS

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dc.contributor.author IWAR, RAPHAEL TERUNGWA
dc.date.accessioned 2024-05-23T07:34:52Z
dc.date.available 2024-05-23T07:34:52Z
dc.date.issued 2022-11
dc.identifier.uri http://hdl.handle.net/123456789/2254
dc.description.abstract Groundwater contamination with elevated levels of fluoride has been an age-long environmental problem in many countries including Nigeria. Adsorption is an effective defluoridation technique; however, most of the effective adsorbents are not readily available. It is therefore necessary to explore the adsorptive potentials of local materials such as Raffia Palm Shells (RPS) for fluoride containment in groundwater. This study was designed to produce and characterise activated carbon from RPS for groundwater defluoridation. Fluoride contents of groundwater in Makurdi, Nigeria, were determined using 63 samples collected from boreholes in 21 locations following standard procedures. The USEPA Hazard Quotient (HQ) was used to evaluate the human health risk potentials in relation to fluoride contamination for infants, children, teenagers and adults. The RPS were sourced from Ugbema market in Benue state and processed into activated carbon using phosphoric acid as activating agent. Response Surface Methodology (RSM) was used to optimise the quality (Specific Surface Area (SSA) and Carbon Yield (CY)) of Raffia Palm Shell Activated Carbon (RPSAC). The surface of RPSAC was coated with aluminium hydroxide to produce Aluminium-oxideCoated-RPSAC (ACRPSAC) using functionalization principle. Physical characteristics (Brunauer-Emmett-Teller Surface Area (BETSA), Bulk Density (BD), Moisture Content (MC), Total Pore Volume (TPV), Average Pore Diameter (APD) and pHpzc) of the adsorbents were determined using standard methods. Adsorbents’ surface compositions were determined by SEM/EDX, FTIR and XRD analyses. Groundwater defluoridation potentials of the adsorbents were evaluated using batch adsorption method in comparison with a Commercial Activated Carbon (CAC). Linear regression and ANOVA at α0.05 were used to analyse the data sets. The fluoride contents in the water exceeded the WHO limit of 1.5 mg/L in 33.3 % of the samples and ranged from 0.32 – 2.06 mg/L (mean=1.26±0.41). The HQ exceeded the threshold value of 1 in 66.7, 71.4, 52.4 and 9.5 % of the water samples for infants, children, teenagers and adults, respectively. Optimum conditions for the synthesis of RPSAC were 524 oC, 77.0 %, 4.00 g/mL and 104 minutes for temperature, concentration, impregnation ratio and time, respectively. The optimized values of SSA and CY were 1762.93 m2/g and 78.0 %, respectively. The physical characteristics of RPSAC and ACRPSAC were 456.1 and 715.8 m2/g, 0.45 and 0.37 g/cm3, 18.5 and 4.2 %, 0.25 and 0.47 cm3/g, 2.13 and 1.85 nm, 2.10 and 4.05 for BETSA, BD, MC, TPV, APD and pHpzc respectively. The SEM/EDX showed that the adsorbents had both micro and meso-porosities. The abundance of hydroxyl functional groups on the adsorbents’ surface was evident. The RPSAC was found to be amorphous, while the ACRPSAC was microcrystalline due to the formation of graphite-like structures. Batch fluoride adsorption performances of the adsorbents were in the order of ACRPSAC > RPSAC > CAC (removal efficiency= 80.0–99.0%) and were significantly different. Fluoride removal obeyed the Langmuir (R2=0.8802–0.9751) and Pseudo second order (R2=0.9974–0.9999) models which signified that its adsorption by the adsorbents was chemisorption-controlled. Aluminium-oxide-coated raffia palm shell activated carbon is a suitable adsorbent for groundwater defluoridation in batch systems. en_US
dc.language.iso en en_US
dc.subject Batch adsorption, Defluoridation, Groundwater contamination, Raffia activated carbon. en_US
dc.title GROUNDWATER DEFLUORIDATION IN BATCH SYSTEMS USING ACTIVATED CARBON DERIVED FROM RAFFIA PALM (RAPHIA HOOKERI G. MANN & H. WENDL) SHELLS en_US
dc.type Thesis en_US


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