Numerical and 1-D modeling of pulmonary circulation along with lumped parameter modeling of the heart

A one dimensional model of the pulmonary arterial network along with systemic circulation was introduced to quantify the human pulmonary artery hemodynamics. Alumped parameter model of the right ventricle was used as the inlet boundary condition. A time varying elastance related thevolume and pressure of the right ventricle was imposed in themodel. By using a four element Windkessel model, blood flow rate throughout the right ventricle was in hand. An asymmetricstructured tree was chosen as the outlet boundary conditions. Simulation was based on solving one-dimensional equations ofconservation of mass and momentum by using finite volume method. Blood flow rate, pressure and velocity through eachartery were calculated. Parameters of the structured tree werechanged to see their effect on the behavior of pulmonary circulation. There was a good agreement between the results of this model and previous results. Meanwhile, a scaling factor was imposed for considering the effect of respiration and comparison the flow rate through arteries between inspiration and expiration.