Advances in BioengineeringRichard G. Buckles |
Contents
A FEEDFORWARDFEEDBACK MECHANISM FOR HUMAN THERMOREGULATION | 1 |
COMPUTATIONAL ANALYSIS AS AN AID TO THE DESIGN OF HEART VALVES | 8 |
A MATHEMATICAL SIMULATION OF OXYGEN TRANSPORT IN THE HUMAN BRAIN | 18 |
Copyright | |
18 other sections not shown
Common terms and phrases
ammonia approximation arterial artificial kidney average axial biomaterial blood flow boundary conditions boundary layer C₁ calculated capillary carbon dioxide cellulose acetate Chem chemical cm./sec CO₂ coefficient collagen concentration concurrent flow constant convection countercurrent flow culture curve dialysate side dialyzer diffusion dilution rate dimensionless dynamic effect Equation equilibrium experimental data filtration flow rate fluid flux formamide function g./liter h₁ h₂ hematocrit hemodialysis hemoglobin hemolysis increase interface loop mass transfer mechanism membrane metabolic min./cm ml./min molecular nephron nonlinear normal obtained oscillator oxygen partial pressure oxygen tension parameters partial pressure permeability Physiol physiological plasma presented PROGRESS SYMPOSIUM SERIES radial radius reaction red cells resin resistance response saturation shear shear rate shear stress shown in Figure simulation skin temperature sodium solution specific specific growth rate steady studies substrate surface thermoregulation tion tissue tube ultrafiltration urea values valve variables velocity venous volume wall