270 likes | 459 Views
Tunable High Frequency Microwave Assisted Chemistry. Presented by Gareth Lewis. Project Overview. Using high frequency microwaves to increase the yield and reaction rate of organic reactions Intelligent monitoring and control system to continually optimise microwave parameters
E N D
Tunable High Frequency Microwave Assisted Chemistry Presented by Gareth Lewis
Project Overview • Using high frequency microwaves to increase the yield and reaction rate of organic reactions • Intelligent monitoring and control system to continually optimise microwave parameters • Design of microwave reaction cavity
Project Overview • Investigate mechanics of microwave assisted reactions • Implementation of more energy efficient reactions • Green chemistry
Current Systems • Pharmaceutical manufacturers have only been using non-automated 2.45GHz • Traditional heating systems use 2.45GHz • This project investigates the use of higher frequencies (8 – 18 GHz)
Dielectric Heating • A number of mechanisms contribute to the heating process • Most heating occurs due to rotation of dipoles
Dielectric Constant • Homogenous materials have their dielectric properties described by the complex dielectric constante • It is a complex term consisting of both real and imaginary parts
Dielectric Constant • The real part (e’) represents the ability of a material to be polarised by external electric fields • Complete representation in the real part at d.c. and low frequencies • This is because the dipole will follow the field change near perfectly
Dielectric Constant • As the frequency is increased a phase difference is introduced between the field and dipole • The imaginary part (e’’) of the complex term represents this lag • Collisions occur and energy is lost as heat
Dielectric Constant Variation of the real and complex parts of the dielectric constant against frequency for water
Dielectric Constant • At very high frequency the alternation of the field is very rapid • Movement of the dipoles is very limited due to their inability to adjust in time • This situation, like low frequencies affords very little heating
Temperature Effect • To increase heating, it has been established that intelligent frequency selection is important • During heating, temperature changes the values of e’ and e’’
Temperature Effect • The time constant tis given by the following equation: • As can be seen, temperature must also be considered
HFSS Simulation Side View – Thermal Overlay Freq= 8-12 GHz 100 mm 10 mm (Internal) 150 mm
Specific Absorption Rate High absorption
Experimental System Setup Condenser Condenser Reaction Cavity Reaction Cavity Sensors Sensors Microwave Test Set Microwave Test Set
P Set Point I Power Source Microwave Cavity - + D Sensor (Temperature/Power) Monitoring and Control Software - PID • PID (Proportional Integral Derivative) controller for Temperature/Power
Monitoring and Control Software Frequency Set Power Readouts Power or Temperature Hold Start/Stop System Power and Temperature Charts
Thank You Any Questions?