Advanced Methods and Mathematical Modeling of Biofilms
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Advanced Methods and Mathematical Modeling of Biofilms
Applications in Health Care, Medicine, Food, Aquaculture, Environment, and Industry
Delavar, Mojtaba Aghajani; Wang, Junye
Elsevier Science & Technology
05/2022
264
Mole
Inglês
9780323856904
15 a 20 dias
540
Descrição não disponível.
1. Introduction
2. Concept and fundamental of biofilms
3. Numerical discrete model of biofilms
4. Numerical continuum model
5. Designing a biofilm reactor and applications
6. Summary
2. Concept and fundamental of biofilms
3. Numerical discrete model of biofilms
4. Numerical continuum model
5. Designing a biofilm reactor and applications
6. Summary
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Agitator; Bacterial community; Bioaggregate; Biofilm; Bioreactor; Blackman model; Cell division; Cellular automata; Competition and cooperation; Continuum model; Contois model; Detachment; Diffusion; Discrete models; Effectiveness factor; Environmental conditions; External diffusion layer; Extracellular polymeric molecules; Fermenter; Growth; Haldane model; Heat transfer; Hydrodynamics; Individual-based model; Jacket; Lattice Boltzmann method; Logarithmic model; Mass transport; Microbioreactor; Microorganism; Modeling; Modeling approaches; Monod model; Multidimensional; Numerical solutions; Nutrient; Nutrient transport; Propeller; Quorum sensing; Shrinkage; Spreading; Static mixer; Tessier model; Vessel
1. Introduction
2. Concept and fundamental of biofilms
3. Numerical discrete model of biofilms
4. Numerical continuum model
5. Designing a biofilm reactor and applications
6. Summary
2. Concept and fundamental of biofilms
3. Numerical discrete model of biofilms
4. Numerical continuum model
5. Designing a biofilm reactor and applications
6. Summary
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Agitator; Bacterial community; Bioaggregate; Biofilm; Bioreactor; Blackman model; Cell division; Cellular automata; Competition and cooperation; Continuum model; Contois model; Detachment; Diffusion; Discrete models; Effectiveness factor; Environmental conditions; External diffusion layer; Extracellular polymeric molecules; Fermenter; Growth; Haldane model; Heat transfer; Hydrodynamics; Individual-based model; Jacket; Lattice Boltzmann method; Logarithmic model; Mass transport; Microbioreactor; Microorganism; Modeling; Modeling approaches; Monod model; Multidimensional; Numerical solutions; Nutrient; Nutrient transport; Propeller; Quorum sensing; Shrinkage; Spreading; Static mixer; Tessier model; Vessel
