Chemical Engineering

Chemical Engineering courses
Chemical Engineering department home page

Director of undergraduate studies: Michael Loewenberg, 303 ML, 432-4334, michael.loewenberg@yale.edu

FACULTY OF THE DEPARTMENT OF CHEMICAL ENGINEERING

Professors

Eric Altman, *Gaboury Benoit, *Donald Crothers, Menachem Elimelech, Abbas Firoozabadi (Adjunct), *Thomas Graedel, Gary Haller, *Edward Kaplan, Michael Loewenberg, Robert McGraw (Adjunct), Lisa Pfefferle, Joseph Pignatello (Adjunct), Daniel Rosner, *James Saiers, *Mark Saltzman, Paul Van Tassel, L. Lee Wikstrom (Adjunct), *Kurt Zilm

Associate Professor

Yehia Khalil (Adjunct)

Assistant Professors

*Michelle Bell, *Eric Dufresne, *Tarek Fahmy, William Mitch, Chinedum Osuji, Jordan Peccia, *Julie Zimmerman

Lecturer

James Wallis

*A joint appointment with primary affiliation in another department or school.

Chemical engineering has made significant contributions to a diverse range of scientific and technological developments such as drug delivery devices, microfluidic devices, environmental remediation, fuel cells, semiconductor processing, and enzyme design using biomimetics. The far-reaching impact of chemical engineering can be attributed to its focus on basic principles from physics, chemistry, and biology and its systematic approach to problem solving and analysis.

The Chemical Engineering program is focused on fundamental engineering science. The curriculum provides a strong background in basic science (mathematics, chemistry, physics) and the analysis of experiments and problems in the chemical engineering sciences (thermodynamics, chemical kinetics, fluid mechanics, and transport phenomena). A special feature of the program is the accessibility of laboratory research. Most majors participate in research with faculty members, often leading to a refereed journal publication.

A major in Chemical Engineering prepares graduates for a wide range of career options. Recent graduates have become professors, scientists at national laboratories, doctors, lawyers, managers, and policy makers.

The program has three central objectives: to provide graduates with an excellent engineering science background for graduate study in chemical, biomedical, and environmental engineering programs, as well as superior scientific and analytical preparation for medical school and law school; to prepare graduates for a diverse range of industrial careers through experience in chemical engineering design, process control, economics, safety, and ethics; and to provide graduates with a broad education that combines rigorous courses for the Chemical Engineering major with the Yale College distributional requirements.

Students considering the Chemical Engineering major are encouraged to take two terms of chemistry and mathematics during their freshman year. Interested students should contact the director of undergraduate studies.

Requirements of the major. Two degree programs are offered: a B.S. degree in Chemical Engineering that is accredited by the Accreditation Board for Engineering and Technology (ABET) and an unaccredited B.S. degree in Engineering Sciences (Chemical) that provides more flexibility for course work in other fields.

Prerequisites. Students in both degree programs take the following prerequisite courses: MATH 112a or b, 115a or b, and either 120a or b or ENAS 151a; PHYS 180a, 181b; CHEM 114 and 116L, or 118a; ENAS 130b. Students with advanced high school preparation may reduce the number of prerequisites.

B.S. degree program in Chemical Engineering. The curriculum for the ABET-accredited B.S. degree in Chemical Engineering includes the following required courses beyond the prerequisites:

1. Mathematics: ENAS 194a or b, and MATH 222a or b or another advanced term course in mathematics or computer science

2. Chemistry: CHEM 220a or 225b; 221b or 227a; 332a, 333b and 331L (fall term)

3. Engineering science: MENG 361a and two term courses chosen from engineering or science electives

4. Chemical engineering: CENG 210a, 300a, 301b, 315b, 411a, 412b, 480a

Senior requirement. In their senior year students must pass CENG 416b, Chemical Engineering Process Design.

B.S. degree program in Engineering Sciences (Chemical). The curriculum for the B.S. degree in Engineering Sciences (Chemical) consists of ten term courses beyond the prerequisites, chosen in consultation with the director of undergraduate studies. The standard program includes the following courses:

1. Mathematics: ENAS 194a or b

2. Chemistry: CHEM 220a or 225b, and 221b or 227a; or 332a, 333b

3. Engineering science: MENG 361a

4. Chemical engineering: CENG 210a, 300a, 301b, 315b, 411a

Senior requirement. In their senior year students must complete a senior research project in CENG 490a or b.

Select Program in Engineering. Qualified students majoring with a B.S. degree in Chemical Engineering or Engineering Sciences (Chemical) may be eligible to apply for a special program that includes industry research experience. See under Engineering.

REQUIREMENTS OF THE MAJOR

CHEMICAL ENGINEERING, B.S.

Prerequisites: MATH 112a or b, 115a or b, 120a or b or ENAS 151a; CHEM 114 and 116L, or 118a; PHYS 180a, 181b; ENAS 130b

Number of courses: 18 term courses beyond prereqs (incl senior req)

Specific courses required: ENAS 194a or b; CHEM 220a or 225b; 221b or 227a; 332a, 333b and 331L (fall term); MENG 361a; CENG 210a, 300a, 301b, 315b, 411a, 412b, 480a

Senior requirement: CENG 416b

ENGINEERING SCIENCES (CHEMICAL), B.S.

Prerequisites: MATH 112a or b, 115a or b, 120a or b or ENAS 151a; CHEM 114 and 116L, or 118a; PHYS 180a, 181b; ENAS 130b

Number of courses: 10 term courses beyond prereqs (incl senior req)

Specific courses required: ENAS 194a or b; CHEM 220a or 225b, and 221b or 227a, or 332a, 333b; MENG 361a; CENG 210a, 300a, 301b, 315b, 411a

Senior requirement: CENG 490a or b

Unless otherwise indicated, courses in Chemical Engineering count toward the natural science requirement for the Class of 2008.