Teaching

1. Nanomaterials: 2019 - Present

This course is divided into 2 parts (i.e. introduction of nanotechnology and various types of nanomaterials). The objectives include: to demonstrate comprehension of the nanotechnology and nanomaterials, to understand on chemical synthesis method of the nanostructural materials, and to identify the new commercialization challenges of nanomaterials.

2. Unit Operations of Chemical Engineering I: 2018 - Present

As an essential module for students majoring in Chemical Engineering, this course is designed to comprise of several standard unit operations in energy balance and thermodynamic principles. The objectives include: to learn the devices for the mass transfer and separation and to grasp the principles of typical unit operation involved in the mass transfer and separation.

3. Materials Science for Chemical Engineering: 2018 - Present

This course gives students to have basic idea on classifying materials according to the structure, properties and processing of materials. Advanced materials such as nanomaterials and shape memory polymers will also be studied in this course. The objectives are to understand the basic of materials and to establish the importance of material science for materials selection for various applications.

4. Chemical Engineering Laboratory I: 2018 - Present

This course is to make students be familiar with the basic principles and rules of chemical engineering process by conducting experiments, applying the basic concepts in transport phenomena in experimental study of systems that may involve fluid flowing, heat and mass transfer, absorption, and distillation.

1. Teaching Associate for ‘Transport Phenomena and Numerical Methods’ (Year 3 of undergraduate course): 2013 - 2015 (Unit Link)

This unit involves the fundamental principles of transport phenomena, Newton's Law of Viscosity, Fourier's Law of heat conduction and Fick's Law of diffusion, transfer coefficients (viscosity, thermal conductivity and diffusivity), newtonian and non-newtonian fluids, conservation laws (mass, momentum and energy) as well as steady and unsteady state shell mass, momentum and energy balances. It is aimed to tackle the chemical engineering problems in fluid flow and transport phenomena in the real world.