SENSITIVITY ANALYSIS OF THE INTRINSIC GROWTH RATE PARAMETER VALUE OF VOLATILE ORGANIC COMPOUND EMITTED FROM OIL SPILLED ON RELATIVE HUMIDITY ON THE ENVIRONMENT USING NUMERICAL COMPUTATIONAL METHOD
Abstract
Interacting environmental mathematical model for studying the qualitative characteristic of the Emission of Volatile Organic Compound from oil spillage and its interaction with Meteorological variable was developed and used in the study of the Sensitivity Analysis of the Intrinsic Growth Rate Parameter Value of Volatile Organic Compound Emitted from Oil Spilled on Relative Humidity on the Environment using Computational Method. One of the key achievements was aimed at developing a numerical data base for the relative abundance of the VOC and Relative Humidity for a time interval of 0(30)360 months indexed by MATLAB ODE45 Runge-Kutta numerical scheme. Moreso, due to a 150% percentage variation, we observed a gain in the coordinate of the modified VOC compared to the fixed parameter coordinate whose values ranged from 16479.567753 units on the thirtieth (30th) month to a converging saturated value of 19993.52532512 units on the three hundred and sixtieth (360th) month. In this scenario, we observed a different pattern in the coordinate of the relative humidity on comparing the fixed parameter coordinate with the modified coordinates showing a complete case of depletion in all the coordinates of the relative humidity with their associated values of the humidity relative abundance as well as the expected percentages effects in quantification on the environment. The full detailed of the results and discussions of this novel contributions to knowledge are fully presented in this study.
Keywords
Numerical Scheme, Vulnerability, Environmental Pollution, Mathematical Modelling, Dynamical System, Meteorological Variable