Accurate pseudoanalytical solution for steady-state biofilms

## Abstract Fixed‐film processes employing microorganisms attached to an inert surface (biofilms) are widely used for biological treatment of municipal and industrial wastewater. For optimal design and analysis of these processes, mathematical models are necessary that describe the dynamics of cont

A transient mathematical model was established in order to evaluate oxygen di †usivity in non-steady-state bioÐlms. A submerged Ðxed bed bioÐlm system with efficient medium recirculation was investigated for ptoluenesulphonic acid degradation by Comamonas testosteroni T-2 in a multispecies bioÐlm. S

Based on Moharam's field modulation function and the coupled-wa¨e equations, exact analytic straight and parametric expressions are deduced for the steady state of dynamic two-beam coupling with any constant ¨alues of light intensity modulation and light excitation efficiency.

An extension to the theory of Schrodinger equations has been made ẅhich enables the derivation of eigenvalues from a consideration of a very small part of geometric space. The concomitant unwanted continuum effects have been removed. The theory enables very convergent or ''superconvergent'' calculat

We use the bivariate spline finite elements to numerically solve the steady state Navier-Stokes equations. The bivariate spline finite element space we use in this article is the space of splines of smoothness r and degree 3r over triangulated quadrangulations. The stream function formulation for th