Thermo-economic Analysis of the Solid Oxide Fuel Cell, Gas Turbine and Steam Turbine Hybrid System for Fuel Cell and Gas Turbine Direct and Indirect Connection

The purpose of this study is the numerical analysis of hyperthermia on the damage of cancerous tissue in the presence of magnetic nanoparticles under the influence of external magnetic field. For this purpose the governing equations continuity, momentum, energy and arrhenius damage equation are coupled and solved by COMSOL, a finite element based code. The blood flow in capillary is assumed as non-newtonian fluid with the Carreau viscosity model. A three dimensional geometric model includes the capillary and surrounding tissue. The results indicated that the temperature of the blood stream increases with the application of the magnetic field, and the surrounding tissue is damaged over time as a result of this heat. The effect of field strength and concentration was also investigated, which was found to correlate with the amount of damaged tissue. In general, this method can be used to degrade the tissues by placing the nearby magnetic field and injecting nanoparticles at low scales.