Chemical Engineering

  • Bachelor of Science

Gannon’s chemical engineering graduates enjoy 100-percent job placement.

  • Students Conducting Experiments
  • GU Possibilities
    • Gannon’s chemical engineering graduates enjoy 100-percent job placement.
    • Chemical engineering students have the opportunity to develop leadership skills through student organizations such as the Chemistry Club, Gamma Sigma Epsilon chemistry honorary society, and the Society for Women Engineers.
    • The School of Sciences offers a unique scholarship opportunity for entering freshman students who attend Fall Open House, which awards up to three scholarships each year:
    • $12,000 ($3,000/year for four years at Gannon)

      $8,000 ($2,000/year for four years at Gannon)

      $4,000 ($1,000/year for four years at Gannon)

    You Will Learn

    The chemical engineering program is a cooperative program with the University of Pittsburgh. In total, the program requires five years of study: three years at Gannon University followed by two years at the University of Pittsburgh. Upon completion, the student is awarded two degrees, a Bachelor of Science degree in chemistry from Gannon University and a Bachelor of Science degree in chemical engineering from the cooperating university.

    During their time at Gannon, chemical engineering students take specified courses in chemistry, mathematics, engineering and the liberal studies core. Students experience our strong commitment to effective teaching and are involved in hands-on laboratory experience with modern instrumentation, all while gaining the advantage of beginning college-level work in small classes with a personalized atmosphere.

    You Will Experience

    Chemical engineering students have opportunities for internships and co-ops at a number of locations, including GE Transportation, LORD Corporation, and several privately- and publicly-owned industries. Additional internship opportunities are available through the University of Pittsburgh during the second phase of study. 

    You Will Achieve

    Multiple exciting career pathways exist for a chemical engineer, including work as a product engineer, refining engineer, process development engineer or research engineer. Graduates in this field are eligible to pursue job opportunities related to the following areas:

    • aerospace industry
    • automotive industry
    • biomedical fields
    • biotechnology
    • chemical plants
    • computer systems
    • electronics industry
    • medical industry
    • military industries
    Nearly all items manufactured on an industrial scale have in some way involved the work of a chemical engineer. Chemical engineers design equipment layout, find efficiencies that optimize production costs, and prioritize health, safety and environmental considerations as part of the manufacturing process.

    You Will Earn

    Salaries in the field vary depending on the location and type of organization.

    • Starting salary: $68,200
    • Mid-career salary: $115,000
    • All salary information is compiled from data gathered from the Bureau of Labor Statistics (bls.gov) and/or PayScale (payscale.com).  

    You Will Study

    Example Course Descriptions

    Students take a combination of liberal studies courses, a leadership seminar, and courses in the chemical engineering program, which provide a comprehensive education that enables students to be at the top of their field. Some courses in the chemical engineering program are:

    CHEM 221 & CHEM 222: Organic Chemistry I & Organic Chemistry Laboratory I

    These courses are taken simultaneously. Students are introduced to the laboratory methods and techniques of organic chemistry while studying hydrocarbons, both aliphatic and aromatic compounds. In the classroom, emphasis is placed on the structures, properties, syntheses, reactions and uses of these compounds. In the lab, emphasis is placed upon the purification and characterization of organic molecules.

    MATH 304: Differential Equations 1

    This course discusses ordinary differential equations with applications to science and engineering. Topics discussed include solution methods for first-order equations, linear equations and systems of equations, including Laplace transforms. Other topics may include power series methods, numerical methods or nonlinear phenomena.

    ME 315:Materials Science

    An introductory study of engineering properties of materials where students learn the engineering science of atomic structure, crystals, crystal imperfections and diffusion. Additionally, students learn mechanical properties, dislocations and strengthening, failure mechanisms, phase diagrams and transformations and thermal processing and alloys. 

    Liberal Studies Core

    The Liberal Studies Core Curriculum is one reflection of Gannon University's commitment to its Catholic identity. The Core's design offers students a defined, integrated, shared experience as the foundation for their undergraduate program.