QUANTIFICAÇÃO DE PARÂMETROS CINÉTICOS DE NITROGÊNIO E OXIGÊNIO EM ÁGUAS SUPERFICIAIS PARA APLICAÇÃO EM MODELOS MATEMÁTICOS DE QUALIDADE DA ÁGUA. ESTUDO DE CASO: RIO MEIA PONTE, GOIÁS.
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2008-06-16
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Universidade Federal de Goiás
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Mathematical models are gaining ever greater importance in the evaluation and comparison of management alternatives for natural water bodies. One of the difficulties in the use of water quality models for nitrogen and oxygen is the absence of kinetic parameter data about reactions in biochemical processes. The data in the current literature refer to foreign bodies of water, mainly in countries with a temperate climate. The objective of this study was to evaluate the processes of nitrogen and oxygen transformation in water. The Meia Ponte River, one of the principal rivers of Goiás, was the object of the study. The water samples were collected in an urban area of the municipality of Goiânia, Bairro Novo Goiânia 2, which presents apparent man-made interference with the natural environment. The study involved field work and laboratory experiments, as well as the analysis of historical flow data from the Goiânia River Flow Measurement Station. The reaeration coefficients (Ka) in dry and rainy periods, which ranged from 1.17 to 2.34 d-1 and from 0.63 to 2.01 d-1, respectively, were estimated on the basis of historical flow data from 1975 to 2005. The flow reading obtained at the River Flow Measurement Station cited above varied from 13.38 to 48.65 m3.s-1 in the rainy season and from 2.89 to 10,63 m3.s-1 in the dry season, an approximately sixteenfold variation. Samples were collected and taken to the laboratory. In the laboratory, the characterization parameters which deviated from the norms established by CONAMA resolution n° 357 - 2005 were (ranges of variation): (1) OD 0.74 to 5.04 mg.L-1; it was (2) true color 58.00 to 203 mg Pt.L-1; (3) total ammoniacal nitrogen from 0.56 to 3.27 L-1. Kinetic tests in turbulent conditions were carried out using modified Jar Test equipment. The reaeration coefficient (Ka20) was determined experimentally. The Ka20 varied between 3.60 and 11.51 d-1 with minimum-to-maximum rotation tests. The minimum rotation of the equipment was used for the nitrogen experiments to most closely approximate river conditions. Water samples were collected at regular intervals for nitrogen analysis. The ammonification and nitrification processes were monitored. A study of deoxygenation, DBO, was also carried out, and it varied from 4.11 to 21.24 mg.L-1. During the process of biological oxidation, the ranges of coefficient variation were: (1) deoxygenation (Kd20) 0.12 to 1.05 d-1; (2) ammonification (KNH4+20) and the coefficient of the disappearance of total ammoniacal nitrogen (KNH4 20) 0.01 to 0.12 d-1; (3) nitritation (KNO2+20) 0.15 to 0.76 d-1; (4) nitrite disappearance coefficient (KNO2 20)0.19 to 3.36 d-1; and (5) nitration (KNO3+20) 0.08 to 0.17 d-1. Under the same conditions as for nitrogen, nitrifying bacteria were monitored. The Nitrosomonas varied between 11 and ≥2400 NMP/100mL, presenting the same behavior profile as the concentration of nitrite, which varied from 0.04 to 5.60 mg.L-1. The Nitrobacter varied from 4 to 1386 NMP/100mL, presenting the same behavior profile as the concentration of nitrate, which varied from 0.82 to 3.99 mg.L-1. The biochemical kinetic coefficients that were obtained were corrected for the standard temperature of 20°C. An increase in organic matter was observed in the dry period, reflecting an increase in the concentration of most of the parameters measured. There was a positive correlation between the nitritation coefficients and flow, although the quantity of Nitrosomonas was greater during the dry period. The results obtained for reaeration, ammonification, and nitrification may be useful in the modeling of bodies of water under experimental conditions similar to those of the present study.
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BRANDELERO, Suzi Mari. Quantification of kinetics parameter of nitrogen and oxigen on surfaces water to aplication in mathematicians models of water quality. 2008. 131 f. Dissertação (Mestrado em Engenharias) - Universidade Federal de Goiás, Goiânia, 2008.