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umd chemical engineering degree

If you are curious about learning more about umd chemical engineering degree for the first time, you may find it overwhelming to those who’ve never researched the subject previously, but you’ll become fascinated at first sight with the details you learn. 

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Find out more about university of maryland chemical engineering courses, university of maryland engineering requirements, umd department of chemical and biomolecular engineering, and umd chemical engineering degree requirements. Also read articles related to chemical and biomolecular engineering on collegelearners.

Students in the Department of Chemical and Biomolecular Engineering at the University of Maryland learn to use a combination of mathematical, physical, chemical, and biological science concepts within a rigorous engineering design framework, graduating with a unique set of skills highly valued by a wide range of employers in industry, academia, and the government.  The wide breadth of this profession and the Department’s unique strengths in nanotechnology and biotechnology prepare our students for outstanding careers.

Because of the wide range of ultimate applications, the chemical engineer finds interesting and diverse career opportunities in such varied fields as chemical (inorganic and organic), food processing and manufacturing, metallurgical, polymer, energy conversion, environmental engineering, petroleum (refining, production, or petrochemical), and pharmaceutical industries.  Additional opportunities are presented by the research and development activities of many public and private research institutes and all government agencies.  Our graduates have taken jobs with companies like DuPont, ExxonMobil, Proctor & Gamble, the Food and Drug Administration, and the Department of Defense. On top of all the options and opportunities, chemical and biomolecular engineers have traditionally ranked at or near the top of starting salaries among all of the engineering professions.

Courses offered by this department may be found under the following acronyms: ENCH & CHBE

The Bachelor of Science degree in Chemical Engineering is accredited by the Engineering Accreditation Commission of ABET,  www.abet.org.

PROGRAM OBJECTIVES

The objectives of the Chemical Engineering degree program are to produce graduates who:

  • Succeed in professional chemical engineering practice and in the pursuit of advanced degrees.
  • Excel in traditional chemical engineering careers and diverse areas such as biotechnology, nanotechnology, medicine, law or business.
  • Adapt to new technologies, with a strong ethical foundation that serves them throughout their careers.

PROGRAM LEARNING OUTCOMES

Students are expected to fully engage with the curriculum and the opportunities presented for learning and research.  Having completed the degree program, students should have acquired the following knowledge and skills:

  1. An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics
  2. 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
  3. An ability to communicate effectively with a range of audiences
  4. 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
  5. 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
  6. An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions
  7. An ability to acquire and apply new knowledge as needed, using appropriate learning strategies

Important: This section contains requirements for incoming freshman or transfer students entering the B.S. program in Chemical and Biomolecular Engineering Fall 2018 and later. For students entering the program before Fall 2018 see requirements here.

The undergraduate program is designed to be completed in four years.  It is important to follow the sample program as closely as possible, as nearly all CHBE classes are offered only once a year.  All Chemical and Biomolecular Engineering students must participate in an advising session prior to registering each semester.  Students are assigned a faculty advisor at the start of their first semester in the major. Questions about the undergraduate program may be sent to Kathy Lopresti at lopresti@umd.edu or Amanda Alicea at aalicea@umd.edu.

Courses appearing in bold are offered by the Department of Chemical and Biomolecular Engineering.

Freshman Year
FIRST SEMESTERCREDITSSECOND SEMESTERCREDITS
ENES1003ENGL1013
MATH1404MATH1414
CHEM1353PHYS1613
CHEM1361BIOE1203
General Education3CHBE10113
 14 16
Sophomore Year
FIRST SEMESTERCREDITSSECOND SEMESTERCREDITS
MATH2414MATH2463
PHYS2603PHYS2703
PHYS2611PHYS2711
CHEM2313CHEM2413
CHEM2321CHEM2421
CHBE25013CHBE30213
CHBE30113General Education3
 18 17
Junior Year
FIRST SEMESTERCREDITSSECOND SEMESTERCREDITS
CHBE41013BCHM461 or 463If BCHM 461 is taken, it must be followed by BCHM 462, which can be counted as an out-of-major technical elective3
CHBE42213Select one of the following:3
CHBE44013CHBE4571
CHEM2722ENMA300
ENGL3933CHBE42413
General Education3CHBE42613
 CHBE33311
 General Education3
 17 16
Senior Year
FIRST SEMESTERCREDITSSECOND SEMESTERCREDITS
CHBE43713CHBE44613
CHBE44213Technical Elective23
CHBE44413Technical Elective23
Technical Elective23General Education3
General Education3General Education3
 15 15
Total Credits 128
1Offered by the Department of Chemical and Biomolecular Engineering
2Technical Elective list of approved courses: http://www.chbe.umd.edu/undergraduate/current

Degree Credits: 128 credits and fulfillment of all departmental, college, and university requirements with a cumulative grade point average of 2.0.

Click here for roadmaps for four-year plans in the A. James Clark School of Engineering.

Additional information on developing a four-year academic plan can be found on the following pages:

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