Chemical Engineering is concerned with the economic conversion of basic raw materials into useful products for society. Included in industrial groups are petrochemical, synthetic fuels, metals, foods, synthetic materials and fibers, pharmaceutical, pulp and paper, fertilizers and coal tar products. Chemical engineers are concerned with chemical reactions and the separation of complex mixtures into their components. Chemical engineers rely on applied mathematics, physical chemistry, reaction kinetics, thermodynamics, and other engineering subjects, including computer technology and economics for their basic backgrounds. Chemical engineers are also particularly well qualified for the technological solution of environmental, ecological and biomedical problems.
The program provides a curriculum that begins with strong emphasis on fundamental science, mathematics and engineering sciences. The upper level curriculum builds on this foundation by imparting basic knowledge and applications of transport processes, thermodynamics and kinetic processes, process control and computer aided design. In addition, emphasis is placed on the economic and societal implications of chemical engineering to increase awareness and social responsibility. The program also offers options in environmental engineering, biochemical engineering and pre-med. The program is accredited by EAC (Engineering Accreditation Commission) of ABET.
To produce graduates of superior technical, professional and scientific background in chemical engineering who can perform effectively and embrace education as a lifelong endeavor.
Program Educational Objectives
Within a few years after graduation, our graduates will:
- be successful practitioners in chemical and related industries, private practice or government.
- be engaged in graduate studies or continuing education endeavors in chemical engineering or related fields.
- be engaged in professional development commensurate with a career by participating in structured professional activities.