Abstract
A scientifically sound method for calculating the parameters of bio-cleaning should contain as a basic a reliable mathematical description of the stationary process. The results of stationary laboratory experiments are presented in the coordinates “specific rate of destruction V – concentration ρ”. Statistical processing proves the presence of substrate inhibition for both gaseous and soluble and dissolved harmful substances in water. For an analytical description of the dependence of the biooxidation rate on the concentration of contaminants, a phenomenological approach is applied, taking into account in a simple form two obvious phenomena: the contact of a microorganism with a substrate molecule and the inhibitory effect of the medium on it. The numerical values of empirical dependency coefficients for the studied processes are calculated. A differential equation is proposed at the macro level that describes the kinetics of biochemical destruction. The concept of a macrokinetic mathematical model of bioremediation is defined as a system of two functions that quantitatively reflect the dependence of the specific oxidation rate of pollution on its concentration and concentration on time, as well as satisfying the relationship between the relationships of the same parameters in differential form. The dependence of concentration on time is defined both in the form of a numerical integration algorithm and in the form of an approximate formula. The adequacy and universality of the proposed model for the studied processes is proved. The advantage of the proposed model of substrate inhibition kinetics is the simplicity of the structure of the basic formula and the ease of determining empirical coefficients based on this. In addition to numerical integration for determining the time of destruction, an approximate analytical solution is found, which can be adequately used in the concentration range of the experimental study. Further research is aimed at developing methods for calculating non-stationary processes in biochemical purification plants of certain specific types
Highlights
High environmental friendliness, efficiency and versatility of biotechnological methods of purification of industrial pollutionDEVELOPMENT OF THE MATHEMATICAL MODEL OF THE KINETICS OF THESTATIONARY PROCESS OF BIO-CLEANING WITH SUBSTRATIC INHIBITION process and a combination of external influences characteristic of this particular installation
The processes of biochemical tion, an approximate analytical solution is found, which can models mathematically describe detoxification, which are realized be adequately used in the concentration range of the experi- enzymatic reactions of various in bioreactors and plants of peri- mental study
Various reaction odic action, are non-stationary ods for calculating non-stationary processes in biochemical mechanisms have been considdue to external influence
Summary
Efficiency and versatility of biotechnological methods of purification of industrial pollutionDEVELOPMENT OF THE MATHEMATICAL MODEL OF THE KINETICS OF THESTATIONARY PROCESS OF BIO-CLEANING WITH SUBSTRATIC INHIBITION process and a combination of external influences characteristic of this particular installation. Efficiency and versatility of biotechnological methods of purification of industrial pollution. DEVELOPMENT OF THE MATHEMATICAL MODEL OF THE KINETICS OF THE. STATIONARY PROCESS OF BIO-CLEANING WITH SUBSTRATIC INHIBITION process and a combination of external influences characteristic of this particular installation. A scientifically based method for calculating and dedetermine their prospects in the field of environmental protection. Methods of biological purification of gases, such as bioabsorption and biofiltration, are of. Ganna Bakharieva particular interest in relation to the destruction of a wide range of organic and inorganic pollutants [1]. Numerous scientific publications have reviewed the possibility Serhii Petrov
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