Tese
Processos adsortivos aplicados à desfluoretação de água subterrânea para abastecimento humano
Fecha
2019-04-26Autor
Oliveira, Robson Alves de
Institución
Resumen
Fluoride (Fˉ) is an element that is commonly present in groundwater, and that in excessive
concentrations may make it unfit for consumption. Contamination of groundwater by fluoride
ions may occur through natural processes or due to anthropic activity, with the release of
fluoride-containing industrial waste. Excessive intake of fluoride may, in the long run, cause
so-called dental and skeletal fluorosis. In addition, ingestion of excess fluoride can also, in
severe cases, lead to neurological damage, Alzheimer's disease and cancer. That is why it is
fundamental to the de-watering of groundwater for human supply. Adsorption is a prominent
technique among the available methodologies for water defluoride, being one of the most
efficient in terms of cost, design and operation. In this sense, the main goal of the present study
was the application of adsorption to groundwater defluoride for human supply in the State of
Rio Grande do Sul. Preliminary tests were carried out for the removal of fluoride from synthetic
solutions 5 mg L-1, in which several adsorbent, commercial and alternative. A process of
ultrasonic assisted synthesis of an adsorbent based on activated alumina modified with ZnCl2
(AA-ZnCl2) has been proposed. In the characterization step, the adsorbents adsorbents
adsorbents adsorbents commercial powder without chemical modification (AACP) and AAZnCl2
were obtained, and BET, EDS scanning electron microscopy, diffraction analysis of Xrays
and FT-IR. A procedure was performed to obtain the ideal conditions of the fluoride
adsorption process with AA-ZnCl2, using a Central Compound Design for two factors (pH and
adsorbent dosage) with response surface methodology. Kinetic and isothermal adsorption tests
of fluoride were carried out for AACP and AA-ZnCl2, and the optimum adsorbent conditions
proposed for adsorption of groundwater fluoride were obtained. In the preliminary tests AACP
it presented fluoride removal efficiencies of 65.4 and 66% for synthetic solutions, and only
38.6% for groundwater. The adsorbent presented the best percentage of removal for both
synthetic solutions (> 98%) and groundwater (55.4%). The analysis of the residual
concentrations of fluoride, chloride, nitrate, sulfate and phosphate obtained for the synthetic
solution of fluoride showed that these parameters meet the maximum permitted value stipulated
by the Brazilian standard regulation of potability (Portaria de Consolidação nº 5/2017). The
results of the procedure to obtain the ideal conditions of the fluoride adsorption process showed
that the two variables, pH and adsorbent dosage, and their interactions on the adsorption
capacity are significant at the level of significance adopted. The AA-ZnCl2 exhibited fluoride
adsorption property in the pH range of 4 to 10, and the dosage defined as the ideal for the
following experiments was 3 g L-1. The results of adsorption kinetics tests showed that AAZnCl2
presented an extremely fast and efficient adsorption. For an initial fluoride concentration
of 5 mg L-1, a removal efficiency of 97.4% was achieved with only 5 minutes of contact time,
and a fluoride residual of only 0.133 mg L-1 was obtained. The kinetic model of pseudo-second
order was the one that most adequately described the kinetics of fluoride adsorption, presenting
values of R2 ≥ 0.99. The results of the fluoride adsorption isotherms tests indicated that the
Freundlich isotherm model fitted better to the experimental data than the Langmuir isotherm
model. After the tests to obtain the optimum adsorbent conditions for adsorption of groundwater
fluoride, it is concluded that the ideal dosage, sufficient to reduce the fluoride concentration to
the limit established by Annex XX of “Portaria de Consolidação nº 5/2017”, was that of 5 g L-
1. The results showed that the adsorption with ZnCl2-modified activated alumina via ultrasonic
assisted synthesis is efficient for the groundwater defluoration for human supply.