Optimization of Dose-Planning in Electrochemical Treatment of Tumors, M.Sc. Thesis Sharif University of Technology ; Pishvaie, Mahmoud Reza (Supervisor)
Abstract
In this thesis, a model of electrochemical treatment of tumor is simulated by numerical method. The orthogonal collocation method is used for numerical solution. The model is solved in two situations, one in the absence of chemical reaction (water hydrolysis) and the other when chemical reaction is occurring in the electrolyte. In transient mode, it is possible to solve the model in low level currents (about 20 A/m2) by few number of collocation points (about 15 points) and only in a single domain. However, by increasing current, it is necessary to use more points in domain especially in the first 10% of the domain (very close to the electrode) where the maximum rate of diffusion/migration...
Cataloging briefOptimization of Dose-Planning in Electrochemical Treatment of Tumors, M.Sc. Thesis Sharif University of Technology ; Pishvaie, Mahmoud Reza (Supervisor)
Abstract
In this thesis, a model of electrochemical treatment of tumor is simulated by numerical method. The orthogonal collocation method is used for numerical solution. The model is solved in two situations, one in the absence of chemical reaction (water hydrolysis) and the other when chemical reaction is occurring in the electrolyte. In transient mode, it is possible to solve the model in low level currents (about 20 A/m2) by few number of collocation points (about 15 points) and only in a single domain. However, by increasing current, it is necessary to use more points in domain especially in the first 10% of the domain (very close to the electrode) where the maximum rate of diffusion/migration...
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