The course covers the various reactors design, the fundamentals of chemical reaction engineering principles and applications in process development. It teaches the evaluation of reaction rates from mechanisms and experimental data, quantification of pertinent transport effects and application to reactor design.
This course aims to provide students with fundamental knowledge of multi-scale modeling. Throughout the course, students will explore key concepts and essential methods in multi-scale modeling. They will also learn to compute the properties of various molecular systems at different scales.
This course provides a more detailed and advanced knowledge in conducting chemical engineering experiment that require students to apply their understanding in theoretical class to be used in this course. 3 main part in this course is Reaction Engineering, Unit Operation and Mass Transfer that consist of 7 experiments. It combine Open-ended Lab and Guided lab session.
This course emphasizes the practical operation critically and analyzing experiment results effectively. It also emphasizes on the ability to apply the basic knowledge into analyzing experiment phenomenon and data
The course is the second stage of the final year plant design project. This course can be termed as the pinnacle of the chemical engineering curriculum as it is designed to challenge students to combine engineering knowledge, principles and tools used in chemical engineering to design an integrated chemical process plant.
This course introduces the theory and applications of statistics and optimisation using mathematical methods in engineering and related fields. The discipline of statistics is essential to make intelligent judgments and informed decisions in the presence of uncertainty and variation. Optimization in the field of chemical engineering is required to utilize the resources in an efficient way as well as to reduce the environmental impact of a process in order to achieve the most favorable operating conditions.
This course will provide students with systematic knowledge of chemical engineering thermodynamics such as basic laws of thermodynamics and their applications, PVT relations of fluid, thermodynamic properties and calculations. Energy inter-conversion and effective use will also be discussed.
This course will combine knowledge and skills to conduct various chemical engineering experiments, tabulate and interpret data, analyse results and prepare reports
This course will combine knowledge and skills to conduct various chemical engineering experiments, tabulate and interpret data, analyse results, and prepare reports.
This course aims to provide students with knowledge about structure-property, reactivity and synthetic transformation of organic compounds. The course covers a wide range of topics including alkanes, alkenes, alkynes, alkyl halides, alcohols, ethers, epoxides, aldehydes, ketones, carboxylic acids and aromatic compounds and others, which have a significant impact on energy storage and conversion.
This course provides the fundamental principles and practice of analytical chemistry. It covers topics such as sampling, sample preparation, and quantitative analysis techniques