NEWTON RAPHSON SOLUTIONS OF BIOCHEMICAL OXYGEN DEMAND (BOD) KINETICS

• J. O. BABAJIDE

  Department of Civil Engineering, Obafemi Awolowo University, Ile-Ife, Nigeria

• E. O. FEHINTOLA

  Department of Chemistry, Adeyemi Federal University of Education, Ondo, Nigeria;

• T. A. ALADESANMI

  Information Technology and Communications Unit, Obafemi Awolowo University, Ile- Ife, Nigeria

• M. D. IDI

  Land, Air and Water Consulting, F6 Ibrahim Taiwo Estate, Baga Road, Maiduguri, Borno State, Nigeria

• E. A. ADEKUNBI

  Department of Chemistry, Adeyemi Federal University of Education, Ondo, Nigeria;

• I. A. OKE

  Department of Civil Engineering, Obafemi Awolowo University, Ile-Ife, Nigeria

• E. O. OBIJOLE

  Department of Chemistry, Adeyemi College of Education, Ondo

As follow up on our previous studies, this paper evaluated Newton-Raphson method (NRM) solutions of Biochemical Oxygen Demand (BOD) kinetics with the aim of ascertain error free solutions. Non-linear regression, logarithms difference, NRM, least square, daily difference, Thomas, two points, ratio and Fujimoto methods were used to determine constants in BOD kinetics. Microsoft Excel Solver was applied to all the methods. Accuracies of all the methods were evaluated using relative error, Coefficient of Determination (CD), reliability and Model of Selection Criterion (MSC). The study revealed that the values of ultimate BOD and BOD removal rate were in the range of 859 to 1911 mg/l and - 0.140/d to - 0.449 /d respectively. Average total error for the methods were 23.85, 25.7, 74.72, 88.68, 1066.5, 1016.33, 149.12, 78.1 and (61.45 and 59.10) for non-liner regression, logarithms difference, least squares, Thomas, Fujimoto, Ratio, two points, daily difference and NRM ( matrix and graphical).

 Accuracy, validity and good fitness of these methods were in order of non-linear regression (8.16) > Logarithm difference (7.72) > NRM (6.26) > least square (6.03) >daily difference (5.42)> Thomas (5.04)> two points (4.14) > ratio (0.63) and Fujimoto (0.51) on basis of their average MSC values. It was concluded that NRM could be used for BOD kinetics. NRM is among the best options because of their simplicity and flexibility as graphical and numerical solutions.

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