This course is divided into 2 parts. The first part covers the management aspect of environmental business and sustainability. The second part covers some contemporary environmental issues namely energy and global warming, water and wastewater management, solid waste management where the students learning will be approaching these issues through problem based learning.
This course is divided into 2 parts. The first part is about basic inorganic chemical industry. Production principle and the corresponding technological arrangements for syngas preparation, water gas shift reaction, syngas purification and ammonia synthesis are taught in this part. The second part is about basic organic chemical industry. The technologies for hydrocarbon steam cracking, catalytic oxidation, hydrogenation and dehydrogenation are introduced in this part.
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 introduces the theory and applications of optimization using mathematical methods in chemical engineering and related fields. 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.
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.
Chemical Engineering Laboratory 1 (CME219)
This course will combine knowledge and skills to conduct various chemical engineering experiments, tabulate and interpret data, analyze results, prepare reports and presentation.
nurulaida.sulaiman@xmu.edu.myThe course is the first 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 provides a more in-depth understanding of critical process safety elements that are frequently encountered in industrial practice. The objective of this course is to strengthen and broaden students' knowledge of the Process Safety Management (PSM) system.
The course's aim is to teach students about engineers' roles and professional conduct in modern society. The course covers a wide range of topics including safety & health, sustainability challenges, quality engineering, legal considerations, the environment, and engineering ethics.
This course will provide fundamental knowledge on three modes of heat transfer, heat transfer correlations and application.
The course is the first stage of the final year research-oriented project. The course aims to enhance students research capabilities in the process of synthesizing information, formulating problem statements, developing research objectives and scopes, designing appropriate research methodologies and preparing research proposal.
By the end of this course, students will be able to:
- Analyze and evaluate (synthesize) information relevant to the specific research area through literature survey.
- Formulate problem statements, research objectives and scopes.
- Design the research methodology.
- Prepare and defend research proposal with effective communication skills.
Dear students,
You will be added manually into the course based on the roster provided by OAA.
Kindly please contact me via email at yinleng.kua@xmu.edu.my if you would like to enroll into the course.
Thank you.
Dear students,
You will be added manually into the course based on the roster provided by OAA.
Kindly please contact me via email at yinleng.kua@xmu.edu.my if you would like to enroll into the course.
Thank you.
This course is divided into 2 parts. The first part is general introduction, to know about the principles of practical geometry. The second part is learning about the various methods and standards to draw chemical engineering drawing using CAD method.
This course will enable students to:
- Demonstrate comprehension of the concepts and principles in practical geometry for chemical equipment.
- Demonstrate knowledge and skills in utilising computer aided design (CAD) tools to prepare 2D and 3D models and parts.
- Demonstrate knowledge and skills to prepare engineering drawings for chemical engineering equipment and devices.
This course provides students the knowledge and skills to handle and process fluids involving particles and powders.
This course provides students the knowledge on the basic concept of catalyst, catalysis and characteristic of catalysis, as well as the various types of catalysts and their catalysis including industrial catalysts, biocatalysts, and other advance catalysts.
This course is divided into 2 parts. The first part covers the management aspect of environmental business and sustainability. The second part covers some contemporary environmental issues namely energy and global warming, water and wastewater management, solid waste management where the students learning will be approaching these issues through problem based learning.
The course is the first 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 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 introduces the theory and applications of optimization using mathematical methods in chemical engineering and related fields. 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.