he Chemical Engineering undergraduate program is focused on the achievement of a set of educational objectives: a) to prepare B.S. graduates for careers in the professional practice of chemical engineering and allied professions; b) to prepare qualified students interested in further study for graduate and professional schools; and c) to maintain and develop a faculty with active, high-quality research programs linked to the undergraduate curriculum for its continued improvement. The curriculum is organized around a set of expected program outcomes. Graduates are expected to be able to: apply knowledge of mathematics, science (particularly chemistry), and chemical engineering; design and conduct experiments, and analyze and interpret data; synthesize, design, and optimize systems, components, and processes; function on multidisciplinary teams; identify, formulate, and solve chemical engineering problems; communicate effectively in writing and orally, and use the techniques, skills, and modern science and engineering tools necessary for chemical engineering practice. Students acquire a broad education necessary to understand the impact of chemical engineering systems in a global and societal context; an understanding of professional and ethical responsibility; a knowledge of contemporary issues in chemical engineering; and a recognition of the need for, and an ability to engage in, lifelong learning.

Chemical engineers invent, develop, design, and operate processes and devices for bringing about chemical and physical changes in materials. Involved in all stages, they bring laboratory discoveries into new products and processes. Chemical engineers engage in fundamental research, development, economic and market analysis, design, construction, operations, supervision, sales, technical service, and management. Traditional industries such as petroleum refining and petrochemical production, plastics, synthetic fibers and textiles, pulp and paper, and pharmaceuticals employ many chemical engineers. The training of a B.S. chemical engineer provides a very broad background in chemistry, physics, mathematics, and their applications. This broad background enables chemical engineers to be employed in emerging technologies such as biochemical engineering and advanced materials.