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Introduction to the Bachelor of Chemical Engineering with Honours

The Bachelor of Chemical Engineering with Honours is a comprehensive program designed to equip students with the knowledge and skills necessary to excel in the field of chemical engineering. This field is expanding rapidly worldwide, and the demand for skilled chemical engineers is on the rise.

Program Overview

Chemical engineering is a diverse field that encompasses various aspects of engineering, including systems design, processing of agricultural products, petroleum and petrochemicals, polymers, pharmaceuticals, bio-fuel, biochemical, and many more. The program focuses on four major areas: separation technology, reaction engineering, environmental engineering, and process systems engineering.

Separation Technology

In separation technology, students are exposed to processes and unit operation equipment in chemical engineering. A strong grasp of transport phenomena, including momentum transfer, mass, and heat transfer, is necessary to understand separation processes. The unit operation subject covers theories and design of major equipment in the separation of liquid-liquid, gas-liquid, solid-liquid, and solid-gas systems.

Reaction Engineering

Chemical engineering also focuses on thermodynamics and chemical reaction aspects, apart from designing a reaction system. Topics discussed include reaction kinetics in a reactor, types of reactors, and reactor design. Students learn chemical engineering thermodynamics aspects, which elucidate the characteristics of pure fluids, thermal effects, fluid thermodynamics characteristics, homogeneous thermodynamics, phase equilibrium, and chemical reaction equilibrium.

Environmental Engineering

Environmental engineering subjects cover types of air and water pollution, analytical methods for pollution measurement, waste treatment, and waste management. Workers' safety aspects are also introduced.

Process Systems Engineering

In process system engineering, mass and energy balances are the fundamental subjects. Students are introduced to the processes in chemical engineering, as well as the calculation methods for mass and energy balances for different processes.

Program Structure

The program requires students to undergo industrial training for 10-12 weeks during the semester break after the third year of education. A written report about the work done and experiences during the training must be presented at the end of the training period.

Programme Specifications

• Programme Name: Bachelor of Chemical Engineering with Honours
• Final Award: Bachelor of Chemical Engineering with Honours
• Awarding Institution: Universiti Teknologi Malaysia
• Teaching Institution: Universiti Teknologi Malaysia
• Professional or Statutory Body of Accreditation: Engineering Accreditation Council (EAC) Board of Engineers Malaysia (BEM)
• Language(s) of Instruction: English and Bahasa Melayu
• Mode of Study: Conventional
• Mode of operation: Self-governing
• Study Scheme: Full Time
• Study Duration: Minimum 4 years, Maximum 6 years

Programme Educational Objectives (PEO)

• PEO 1: Perform competently in chemical industries and become important contributors to national development.
• PEO 2: Become creative, innovative, and adaptable engineers as leaders or team members in their organizations and society.
• PEO 3: Contribute professionally towards environmental well-being and sustainable development.

Programme Learning Outcomes (PLO)

The PLO of the School of Chemical and Energy Engineering (SCEE) is designed to equip students with the necessary knowledge and skills to achieve the program's educational objectives.

Career Opportunities

Chemical engineers are versatile and capable of performing many types of tasks. They can be assigned to various sectors of industries, including banking, insurance, administration, and business. Many work in the industry as production and process engineers, maintenance engineers, and project engineers. With their ability spanning these three important aspects, many chemical engineers have been promoted to the position of plant manager, which manages the whole processing plant.

Entry Requirement

The entry requirements for the program are not specified in the provided context.

Graduation Checklist

The graduation checklist for the program is not specified in the provided context.

Research Areas

The program covers various research areas, including separation technology, reaction engineering, environmental engineering, and process systems engineering. Students are required to complete a processing plant design project in groups, integrating all the techniques learned in the previous years. Additionally, students will carry out a bachelor's level research project, working individually under the supervision of a lecturer.