Experimental and mathematical modeling studies of protozoan predation on bacteria

A mathematical model was developed to predict the temperature distribution within various layers of conveyor belts during the continuous curing process. The results predicted by the model are found to be in good agreement with the experimental results, hence justifying the capability of the model fo

## Abstract Using a test method developed at the high‐voltage laboratory of the NSERC/Hydro‐Quebec/UQAC Industrial Chair on Atmospheric Icing of Power Network Equipment (CIGELE), the relation between the minimum flashover voltage __V__~MF~ and the insulator dry arcing distance for standard porcelai

## Abstract This paper is concerned with a mathematical hydrodynamical model of motility involving an undulating cell surface. The cell surface transmits stresses through a layer of exuded slime to the substratum. The slime is considered as a Johnson–Segalman fluid. A perturbation approach is used

The model of which represents the combined effects of predation and inbreeding depression on a population is re-analysed. It is demonstrated that the system has two trivial equilibria with one or both species extinct and one non-trivial equilibrium with both species present. Conditions on parameter

## Abstract A one‐dimensional, two‐layer solute transport model is developed to simulate chemical transport process in an initially unsaturated soil with ponding water on the soil surface before surface runoff starts. The developed mathematical model is tested against a laboratory experiment. The i