Chemical kine tics; differential and integral rate laws; rate equations for elementary, complex and multiple reactions; kinetics in batch and flow systems; determination of reaction kinetics from experimental data; reaction mechanisms and ideal reactors; design for single reactions, continuous stirred tank and tubular reactors; reactor networks; design for multiple reactions, non-isothermal reactors, and catalytic reactors; diffusion and heterogeneous catalytic reactions; residence time distribution for chemical reactors; non-ideal reactors.Weekly
Chemical kine tics; differential and integral rate laws; rate equations for elementary, complex and multiple reactions; kinetics in batch and flow systems; determination of reaction kinetics from experimental data; reaction mechanisms and ideal reactors; design for single reactions, continuous stirred tank and tubular reactors; reactor networks; design for multiple reactions, non-isothermal reactors, and catalytic reactors; diffusion and heterogeneous catalytic reactions; residence time distribution for chemical reactors; non-ideal reactors.Weekly
