A numerical study of transport of O2 and CO2 in a red blood cell

RBC, are called eryhrocyte, are the transcendent cell type in the blood. RBC perform oxygenation of blood by transporting oxygen from lungs to every cell of the body. At the same time, it removes carbon dioxide in the reverse direction. In this method, which perfectly depicts the mathematically data and study of oxygen and carbon dioxide in red blood cells taking into consideration the main transport mechanism because of the presence of hemoglobin plus physiologically relevant parameters and various initial data. In the RBC, transport of O2 and CO2 was studied numerically for the purpose of the present report. According to this study, finite difference method is adopted to come up with the model signifying transport of species due to molecular diffusion and facilitated diffusion. Furthermost, it is shown that O2 takes the longest, and CO2 is the quickest to attain equilibration. Finally, radiation impacts, convection of blood flow, and concentration of O2 and CO2 are described. Lastly, outcomes of different flow conditions with some reasonable information are mentioned graphically.