2026-2027 UWYO New Catalog
Department of Chemical and Biomedical Engineering
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Engineering Building, Room 4055
Phone: (307) 766‑2500
Web site: www.uwyo.edu/chemical
Department Head: Saman Araya
About
Chemical Engineering is one of the most versatile of the engineering programs. It prepares students for employment in many diverse fields, such as production of pharmaceuticals, polymers and plastics, semiconductors, heavy industrial chemicals, synthetic fuels, petrochemicals and petroleum refining. Chemical engineers also work in biological engineering, environmental engineering, enhanced oil recovery, corrosion control, metallurgy and microelectronics. Undergraduate chemical engineering training has been found to be an excellent background for graduate work not only in engineering, but also in a number of other fields, including medicine, law, business, and the natural sciences.
The chemical engineering curriculum is based on a sound background in chemistry, mathematics, physics, and biology. The essentials of engineering are added to this foundation, including fluid dynamics and thermodynamics. In order to develop the individual’s social consciousness and to broaden the student’s educational background, an integrated program of study in the humanities and social sciences is included in the curriculum. Chemical engineering courses in multicomponent thermodynamics, transport phenomena, kinetics, process control and process design are concentrated in the junior and senior years. This program provides training for engineers to enter production, research, product and process development, process design, technical sales and engineering management positions. Training in chemical engineering equips the graduate to solve many of the problems facing society today: human health, energy shortages, synthetic fuels production, water and air pollution, toxic chemical control, and food production. Furthermore, our program prepares students interested in a career in medicine or the life sciences and is suitable for pre-medical and pre-dental students.
The department offers an 18-credit-hour block of approved technical electives. Students select an emphasis in Biological Engineering, Environmental Engineering, Materials Science and Engineering, Chemical Process Industry, Petroleum Engineering, Graduate School Preparation, and Pre-Medicine. Students can also pursue a concurrent major in Chemistry, minors in Physics, Chemistry, Math, Computer Science, Molecular Biology and Business. See department for details.
Chemical Engineering Program Educational Objectives
Three to six years after graduation, graduates who choose to practice in Chemical Engineering should:
- Successfully practice the profession of Chemical Engineering;
- Demonstrate successful career growth
Chemical Engineering Program Outcomes
During the course of study in Chemical Engineering, the student should demonstrate:
- an ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics;
- an ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors;
- an ability to communicate effectively with a range of audiences;
- an ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts;
- an ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives;
- an ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions;
- an ability to acquire and apply new knowledge as needed, using appropriate learning strategies.
Special Requirements and Information
Degree Options
Internships and Assistanships
Graduate Degree Programs Information
The Department of Chemical Engineering offers graduate programs leading to the M.S. and Ph.D. degrees in chemical engineering. The M.S. degree is offered under Plan A and Plan B. In addition, an environmental engineering program, run jointly by the Department of Chemical Engineering, the Department of Petroleum Engineering, and the Department of Civil and Architectural Engineering, offers graduate programs leading to an M.S. in environmental engineering under either Plan A or Plan B.
Admission Process and Requirements
Standard Admission
Admission is open to students with at least a bachelor’s degree who meet the minimum requirements:
- A GPA of 3.000 (A = 4.000), or equivalent;
- A GRE score (there is no minimum GRE score requirement)
- For international applicants who did not attend an English-speaking program in an English-speaking country for all years of their highest degree:
A TOEFL score of 600 (paper-based), 250 (computer-based), or 80 (Internet based) or an IELTS score of 6.5.
Unofficial transcripts of all prior college-level coursework, test scores and recommendations from three references must be uploaded as parts of the application.
If admission is granted, then official transcripts, GRE and TOEFL scores are required.
Applications submitted by February 1 will be given priority consideration for the fall semester.
The application will not be processed until all the necessary documents have been uploaded.
Faculty
Professors:
HERTANTO ADIDHARMA, B.Sc. Institute of Technology, Surabaya 1987; Ph.D. Louisiana State University 1999; Professor of Chemical Engineering 2019.
VLADIMIR ALVARADO, B.Sc. Universidad Central de Venezuela 1987; M.S. Institut Francais du Pétrole 2002; Ph.D. University of Minnesota 1996; Professor of Chemical Engineering 2017, 2006.
SAMAN ARYANA, B.S. University of Texas at Arlington 2003; M.S. 2006; Ph.D. Stanford University 2012; Professor of Chemical Engineering 2023, 2013.
DAVID M. BAGLEY, B.S. Colorado School of Mines 1984; M.S. Cornell University 1989; Ph.D. 1993; Professor of Chemical Engineering 2011, 2005.
KATIE DONGMEI LI-OAKEY, B.S. Shandong University of Technology 1994; M.S. Tianjin University 1997; M.S. University of Colorado at Boulder 1999; Ph.D. 2003; Professor of Chemical Engineering 2022, 2018, 2011.
MAOHONG FAN, B.S. Wuhan University of Science and Engineering 1984; M.S. Beijing University of Science and Tech. 1992; Ph.D. Chinese Academy of Sciences 1997; Ph.D. Iowa State University 2000; Ph.D. Osaka University 2003; Professor of Chemical Engineering 2014.
JOHN OAKEY, B.S. The Pennsylvania State University 1997; M.S. Colorado School of Mines 1999; Ph.D. 2003; Professor of Chemical Engineering 2019, 2010.
Associate Professors:
KAREN WAWROUSEK, B.S. The College of St. Rose 2001; Ph.D. California Institute of Technology 2009; Associate Professor of Chemical Engineering 2023, 2014.
Assistant Professors:
Juhyeon Ahn, B.E. Myongji University, Korea 2005; M.S. 2008; Ph.D. Yonsei University, Korea 2017; Assistant Professor of Chemical Engineering 2024.
Utkarsh Kapoor, B.E. Birla Institute of Technology & Science (BITS)-Pilani University, India, 2012; Ph.D. Oklahoma State University, 2018; Assistant Professor of Chemical Engineering 2023.
Roberta Sabino, B.S. Federal University of Minas Gerais (UFMG), Brazil, 2014; Ph.D. Colorado State University, 2021; Assistant Professor of Chemical Engineering 2023.
Professors of Practice:
Randolph Pfeiffer, B.S. University of Nebraska, Lincoln , M.S. 1977; Ph.D. Colorado School of Mines, 2019; Professor of Practice 2022.
Lecturers:
Ian Hammontree, B.S. University of Wyoming, 2018; M.S. 2020; Lecturer 2023.
Adjunct Professors:
John Ackerman
Patrick Johnson
Professors Emeriti:
David A. Bell
Chang Yul Cha
H. Gordon Harris
Henry W. Haynes
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