Chemical Engineering

Chemical Engineering at King Saud University is a comprehensive and dynamic program designed to equip students with the fundamental knowledge and practical skills necessary to excel in the diverse field of chemical engineering. The curriculum integrates core principles of chemistry, physics, mathematics, and engineering sciences to prepare graduates for innovative problem-solving in industries such as petrochemicals, energy, pharmaceuticals, environmental management, and manufacturing. Students will engage in a blend of theoretical coursework, laboratory experiments, and hands-on training to develop a strong understanding of process design, control, and optimization. The program emphasizes the importance of safety, sustainability, and ethical practices in chemical engineering operations. Students are encouraged to participate in research projects, internships, and collaborations with industry partners to gain real-world experience and stay abreast of technological advancements. The faculty comprises experienced professionals and researchers dedicated to fostering an environment of academic excellence and innovation. Upon completion of the program, graduates will possess a versatile skill set enabling them to contribute effectively to the development of new processes, improve existing technologies, and address global challenges related to energy, environment, and resource management. The program also prepares students for postgraduate studies and research activities in specialized areas of chemical engineering. Graduates will be well-equipped for careers in process engineering, plant operations, project management, quality assurance, and consultancy services. With the rapid growth of the industrial sector in Saudi Arabia and globally, a degree in Chemical Engineering from King Saud University provides students with excellent opportunities for professional development and leadership roles in a competitive marketplace.

Compulsory Ph.D. Courses

• 602 CHE Advanced Reaction Engineering (2)
• 618 Unsteady State Transport Phenomena

Material Engineering Option

• 604 CHE Advanced Numerical Techniques
• 605 CHE Properties of Gases & Liquids
• 607 CHE Advanced Electrochemical Engineering
• 611 CHE Advanced Separation Processes
• 631 CHE Advanced Extractive Metallurgy
• 632 CHE Advanced Physical Metallurgy  (1)
• 633 CHE Composite Materials
• 634 CHE Advanced Physical Metallurgy (2)
• 635 CHE Hot Corrosion Engineering
• 636 CHE Corrosion Control
• 643 CHE Advances in Polymerization
• 654 CHE Selected Topics in Chemical Engineering
• 621 CHEM Structure Analysis
• 631 CHEM Advanced Physical Chemistry

Control & System Engineering Option

• 603 CHE Complex Dynamics & Chaos
• 604 CHE Advanced Computational Techniques                            
• 621 CHE Computer Aided Design for Chem. Industries
• 622 CHE Simulation of Chem. Processes
• 623 CHE Computer Aided Control of   Chemical Plants
• 624 CHE Digital Control of Experiments
• 625 CHE Artificial Intelligence in Chemical Industries
• 626 CHE Chemical Processes
• 627 CHE Advanced Control of Processes
• 654 CHE Selected Topics in Chemical Engineering
• 656 EE Non-linear Control Systems
• 657 EE Stochastic Control Systems

Transport Phenomena Option

• 601 CHE Statistical Thermodynamics
• 604 CHE Advanced Computational Techniques
• 605 CHE Properties of Gases & Liquids
• 608 CHE Chemical Engineering. Experimentation
• 611 CHE Advanced Separation Processes
• 612 CHE Multiphase Flow
• 614 CHE Advanced Heat Transfer (2)
• 615 CHE Combustion Engineering
• 617 CHE Advanced Topics in Diffusion
• 654 CHE Selected Topics in Chemical Engineering

Chemical Industries Option

• 604 CHE Advanced Computational Techniques
• 605 CHE Properties of Gases & Liquids
• 606 CHE Topics in Biomedical Engineering
• 607 CHE Advanced Electrochemical Engineering
• 611 CHE Advanced Separation Processes
• 613 CHE Biochemical Engineering
• 616 CHE Chemical Engineering. Applications in Electronics
• 626 CHE  Chemical Processes
• 636 CHE Corrosion Control
• 641 CHE Advanced Petroleum Refining  (2)
• 642 CHE Design of Chemical Industrial   Systems
• 643 CHE Advances in Polymerization
• 654 CHE Selected Topics in Chemical Engineering
• 621 CHEM Structure Analysis
• 631 CHEM Advanced Physical Chemistry

Requirements

• Students with an M.S. in Chemical Engineering with grades of at least “very good” are admitted to the program. The applicant is also required to score at least 500 in the TOEFL (Test Of English as Foreign Language). In case of admission of students with M.S. degree from disciplines other than Chemical Engineering, completion of additional courses may be required.
• The candidate must obtain a score of at least 450 points in the TOEFL English language examination.
• Fulfill track admission requirements and passing a written admission exam, in addition to an interview to be announced by the program council.
• Certified transcript of academic record(s).
• Two letters of recommendation.
• A written permission from the applicant’s employer.

Financing studies for the Chemical Engineering program at King Saud University are structured to accommodate a diverse student body, including both Saudi and international students. The program offers various options for funding, including governmental support, scholarships, and self-financing. Saudi students often benefit from the Ministry of Education's funded scholarships which cover tuition fees, accommodation, and other related expenses. International students may apply for endowed scholarships or financial aid programs offered by the university which help to offset tuition costs and living expenses. Additionally, students have access to installment plans that allow payment of tuition fees across multiple installments, easing financial burden. The university also collaborates with local industries and companies to provide internship opportunities that sometimes include stipends, aiding in funding students' practical training periods. Tuition fees are set annually and are subject to revision based on university and national policies; however, they are generally competitive compared to similar regional universities. Students are encouraged to seek external funding from government scholarship programs, private foundations, and international organizations. The financial support available aims to make education accessible and affordable for all qualified students, fostering a supportive learning environment to pursue excellence in Chemical Engineering. The university also offers guidance and counseling to help students identify suitable funding sources and complete necessary documentation efficiently. Overall, the financing studies at King Saud University are comprehensive, designed to facilitate students' academic journey without undue financial hardship, thus promoting the development of skilled engineers essential for the country's industrial growth.

Chemical Engineering at King Saud University offers a comprehensive undergraduate program designed to equip students with a solid foundation in chemical principles, engineering practices, and modern technology. The curriculum emphasizes both theoretical knowledge and practical skills, preparing graduates to address real-world challenges in industries such as petrochemicals, pharmaceuticals, energy, environmental management, and materials manufacturing. Students undertake core courses in thermodynamics, fluid mechanics, heat transfer, mass transfer, process control, and chemical reaction engineering, complemented by practical laboratory work and industry internships to ensure applied expertise. The program includes specialized electives that allow students to focus on areas like renewable energy, environmental engineering, or process design. The faculty comprises experienced academics and industry professionals committed to research, innovation, and student development. State-of-the-art laboratories and research centers support student projects and faculty research initiatives, fostering an environment of innovation. The program aims to develop graduates who are proficient in safety standards, sustainability practices, and modern engineering software. Students are encouraged to participate in workshops, seminars, and conferences to enhance their learning and professional networking. Upon graduation, students are prepared for careers in process engineering, project management, research and development, and consulting within various industrial sectors. The university also offers opportunities for postgraduate study and research collaboration. Throughout the program, emphasis is placed on ethical engineering practices, lifelong learning, and contribution to Saudi Arabia's economic development through innovative chemical engineering solutions. The program aligns with national and international accreditation standards, ensuring a high-quality education that meets industry needs and global standards.