Bachelor of Science in Chemical Engineering (BSChE) Degree

The program leading to the BS in Chemical Engineering is accredited by the Engineering Accreditation Commission of ABET, https://www.abet.org, under the General Criteria and the Chemical, Biochemical, Biomolecular and Similarly Named Engineering Criteria.

Program Learning Outcomes (Student Outcomes) for the BSChE Degree 

Upon completing the BSChE degree, students will be able to demonstrate:

  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.

Program Educational Objectives for the BSChE Degree

Within 3 to 5 years of graduation, graduates with a Bachelor of Science in Chemical Engineering (BSChE) degree are expected to be:

  1. Graduate students, professionals, and entrepreneurs who are moving towards leadership positions as exemplary members of the global workforce; and 
  2. Professionals who practice their societal, environmental, and ethical responsibilities.

Requirements for the BSChE Degree 

For general university requirements, see Graduation Requirements. Students pursuing the BSChE degree must complete:

  • A minimum of 95 credit hours to satisfy major requirements. 
  • A minimum of 127 credit hours to satisfy degree requirements.
  • A minimum of 20 courses (59 credit hours) taken at the 300-level or above. 
  • The requirements for one area of specialization (see below for areas of specialization). When students declare the major in Chemical Engineering (associated with the BSChE degree), students must additionally identify and declare one of five areas of specialization, either in:

Because of the common core requirements, it is possible for students to change their area of specialization at any time, even after initially declaring the major. To do so, please contact the Office of the Registrar.

The courses listed below satisfy the requirements for this major. In certain instances, courses not on this official list may be substituted upon approval of the major’s academic advisor, or where applicable, the department's Director of Undergraduate Studies. (Course substitutions must be formally applied and entered into Degree Works by the major's Official Certifier.) Students and their academic advisors should identify and clearly document the courses to be taken.

Summary

Total Credit Hours Required for the Major in Chemical Engineering95
Total Credit Hours Required for the BSChE Degree127

Degree Requirements

Core Requirements
Chemistry
CHEM 121GENERAL CHEMISTRY I3
or CHEM 111 AP/OTH CREDIT IN GENERAL CHEMISTRY I
CHEM 123GENERAL CHEMISTRY LABORATORY I1
or CHEM 113 AP/OTH CREDIT IN GENERAL CHEMISTRY LAB I
CHEM 122GENERAL CHEMISTRY II3
or CHEM 112 AP/OTH CREDIT IN GENERAL CHEMISTRY II
CHEM 124GENERAL CHEMISTRY LABORATORY II1
or CHEM 114 AP/OTH CREDIT IN GENERAL CHEMISTRY LAB II
CHEM 211
CHEM 213		ORGANIC CHEMISTRY I
and ORGANIC CHEMISTRY DISCUSSION I		3
CHEM 301PHYSICAL CHEMISTRY I3
Mathematics
MATH 101SINGLE VARIABLE CALCULUS I3
or MATH 105 AP/OTH CREDIT IN CALCULUS I
MATH 102SINGLE VARIABLE CALCULUS II3
or MATH 106 AP/OTH CREDIT IN CALCULUS II
MATH 211ORDINARY DIFFERENTIAL EQUATIONS AND LINEAR ALGEBRA3
MATH 212MULTIVARIABLE CALCULUS 13
Physics
Select 1 from the following: 24
PHYS 101
PHYS 103
MECHANICS (WITH LAB)
and MECHANICS DISCUSSION
PHYS 111
HONORS MECHANICS (WITH LAB)
Select 1 from the following: 34
PHYS 102
PHYS 104
ELECTRICITY & MAGNETISM (WITH LAB)
and ELECTRICITY AND MAGNETISM DISCUSSION
PHYS 112
HONORS ELECTRICITY & MAGNETISM (WITH LAB)
Chemical and Biomolecular Engineering Core Courses
CHBE 243CHEMICAL ENGINEERING LAB I2
CHBE 301CHEMICAL ENGINEERING FUNDAMENTALS3
CHBE 302APPLIED MATHEMATICS AND NUMERICAL METHODS FOR CHEMICAL ENGINEERS I3
CHBE 305APPLIED MATHEMATICS AND NUMERICAL METHODS FOR CHEMICAL ENGINEERS II3
CHBE 310FUNDAMENTALS OF BIOMOLECULAR ENGINEERING3
CHBE 344CHEMICAL ENGINEERING LAB II2
CHBE 350PROCESS SAFETY IN CHEMICAL ENGINEERING1
CHBE 390CHEMICAL KINETICS AND REACTOR DESIGN3
CHBE 401TRANSPORT PHENOMENA I3
CHBE 402TRANSPORT PHENOMENA II3
CHBE 403DESIGN FUNDAMENTALS4
CHBE 404CHEMICAL ENGINEERING DESIGN4
CHBE 410APPLIED BIOMOLECULAR ENGINEERING3
CHBE 411THERMODYNAMICS I3
CHBE 412THERMODYNAMICS II3
CHBE 443CHEMICAL ENGINEERING LAB III3
CHBE 470PROCESS DYNAMICS AND CONTROL3
Area of Specialization
Select 1 from the following Areas of Specialization (see Areas of Specialization below):12
Biomolecular Engineering
Computational Engineering
Energy/Sustainability
Materials/Nanotechnology
Engineering Breadth
Total Credit Hours Required for the Major in Chemical Engineering95
Additional Credit Hours to Complete Degree Requirements *1
University Graduation Requirements *31
Total Credit Hours127

Footnotes and Additional Information 

Areas of Specialization

Students must complete the requirements as listed for one of the following areas of specialization for the BSChE degree program. A minimum of 4 courses (minimum of 12 credit hours) must be taken from one of the areas of specialization as listed below.

Please Note: The following list of approved courses can be used to satisfy the requirements of the area of specialization. Courses not on the list may be taken upon approval of the academic advisor. Students and their academic advisors should identify and clearly document the courses to be taken.

Area of Specialization: Biomolecular Engineering

To fulfill the BSChE degree requirements, students pursuing the Biomolecular area of specialization must complete:

  • 1 course (3 credit hours) from the area of specialization Core Requirement
  • 3 courses (9 credit hours) from the area of specialization Elective Requirements
Core Requirement
CHBE 415SEPARATION TECHNOLOGIES FOR CHEMICAL AND BIOMOLECULAR PROCESSES3
Elective Requirements
Select 3 courses from the following:9
BIOS 201
INTRODUCTORY BIOLOGY I
BIOS 301
BIOCHEMISTRY I
BIOE 321
CELLULAR ENGINEERING
BIOE 330
BIOREACTION ENGINEERING
BIOE 370
BIOMATERIALS
BIOE 372
BIOMECHANICS
BIOE 383
BIOMEDICAL ENGINEERING INSTRUMENTATION
BIOE 408
SYNTHETIC BIOLOGY
BIOE 420 / CHBE 420
TRANSPORT PHENOMENA IN BIOENGINEERING
BIOE 422
GENE THERAPY
BIOE 464
EXTRACELLULAR MATRIX
BIOE 485 / COMP 485 / ELEC 485
FUNDAMENTALS OF MEDICAL IMAGING I
BIOE 490
INTRO COMPUTATIONAL SYSTEMS BIOLOGY: MODELING & DESIGN PRINCIPLES OF BIOCHEM NETWORKS
BIOE 620 / CHBE 620
TISSUE ENGINEERING
Total Credit Hours12
Area of Specialization: Computational Engineering

To fulfill the BSChE degree requirements, students pursuing the Computational Engineering area of specialization must complete:

  • 1 course (3 credit hours) from the area of specialization Core Requirement
  • 3 courses (9 credit hours) from the area of specialization Elective Requirements
Core Requirement
CHBE 415SEPARATION TECHNOLOGIES FOR CHEMICAL AND BIOMOLECULAR PROCESSES3
Elective Requirements
Select 3 courses from the following:9
CMOR 302
MATRIX ANALYSIS
CMOR 360
INTRODUCTION TO OPERATIONS RESEARCH AND OPTIMIZATION
CMOR 410
MODELING MATHEMATICAL PHYSICS
CMOR 415 / ELEC 488 / NEUR 415
THEORETICAL NEUROSCIENCE: FROM CELLS TO LEARNING SYSTEMS
CMOR 416 / ELEC 489 / NEUR 416
NEURAL COMPUTATION
CMOR 430
ITERATIVE METHODS FOR SYSTEMS OF EQUATIONS AND UNCONSTRAINED OPTIMIZATION
CMOR 435 / MATH 435
DYNAMICAL SYSTEMS
CMOR 441
LINEAR AND INTEGER PROGRAMMING
CMOR 518
APPLICATIONS IN COMPUTATIONAL MATHEMATICS
Total Credit Hours12
Area of Specialization: Energy/Sustainability

To fulfill the BSChE degree requirements, students pursuing the Energy/Sustainability area of specialization must complete:

  • 1 course (3 credit hours) from the Core Requirement
  • 3 courses (9 credit hours) from the area of specialization Elective Requirements
Core Requirement
CHBE 415SEPARATION TECHNOLOGIES FOR CHEMICAL AND BIOMOLECULAR PROCESSES3
Elective Requirements
Select 3 courses from the following:9
CEVE 302 / ENGI 302
SUSTAINABLE DESIGN
CEVE 307 / ENST 307 / EEPS 307
ENERGY AND THE ENVIRONMENT
CEVE 310
PRINCIPLES OF ENVIRONMENTAL ENGINEERING
CEVE 314 / BIOE 365 / GLHT 314
SUSTAINABLE WATER PURIFICATION FOR THE DEVELOPING WORLD
CEVE 401
CHEMISTRY FOR ENVIRONMENTAL ENGINEERING AND SCIENCE
CEVE 434
FATE AND TRANSPORT OF CONTAMINANTS IN THE ENVIRONMENT
CEVE 484 / STAT 484
ENVIRONMENTAL RISK ASSESSMENT & HUMAN HEALTH
CEVE 518
ENVIRONMENTAL HYDROGEOLOGY
CEVE 535
PHYSICAL CHEMICAL PROCESSES FOR WATER QUALITY CONTROL
CHBE 405
TECHNOECONOMIC ANALYSIS AND ENGINEERING DECISION TOOLS
CHBE 450
PETROLEUM PHASE BEHAVIOR AND FLOW ASSURANCE
CHBE 468
INDUSTRIAL CHEMICAL PROCESSES AND THE ENERGY TRANSITION
CHBE 570
INDUSTRIAL CATALYSIS AND PETROCHEMICAL PROCESSES
CHBE 571
FLOW AND TRANSPORT THROUGH POROUS MEDIA I
CHBE 671
FLOW AND TRANSPORT THROUGH POROUS MEDIA II
EEPS 420
ORGANIC GEOCHEMISTRY
EEPS 448
EXPLORATION GEOPHYSICS
EEPS 465
ROCK DEFORMATION AND RHEOLOGY
EEPS 484
DECISION MAKING AND ECONOMICS IN THE ENERGY INDUSTRY
EEPS 486
PETROLEUM INDUSTRY ECONOMICS AND MANAGEMENT
Total Credit Hours12
Area of Specialization: Materials/Nanotechnology

To fulfill the BSChE degree requirements, students pursuing the Materials/Nanotechnology area of specialization must complete:

  • 1 course (3 credit hours) from the area of specialization Core Requirement
  • 3 courses (9 credit hours) from the area of specialization Elective Requirements
Core Requirement
CHBE 415SEPARATION TECHNOLOGIES FOR CHEMICAL AND BIOMOLECULAR PROCESSES3
Elective Requirements
Select 3 courses from the following:9
BIOE 431
BIOMATERIALS APPLICATIONS
CHBE 560 / MSNE 560
COLLOIDAL AND INTERFACIAL PHENOMENA
CHBE 594 / MSNE 594
PROPERTIES OF POLYMERS
ELEC 361
QUANTUM MECHANICS FOR ENGINEERS
MSNE 211
INTRODUCTION TO MATERIALS SCIENCE FOR ENGINEERS
MSNE 302
MATERIALS PROCESSING AND NANOMANUFACTURING
MSNE 365 / ELEC 365
NANOMATERIALS FOR ENERGY
MSNE 401
THERMODYNAMICS IN MATERIALS SCIENCE
MSNE 402
MECH PROPERTIES OF MATERIALS
MSNE 406
PHYSICAL PROPERTIES OF SOLIDS
MSNE 411
MATERIALS CHARACTERIZATION FROM NANO TO MACRO
MSNE 415
CERAMICS AND GLASSES
MSNE 433
COMPUTATIONAL MATERIALS MODELING
MSNE 435
CRYSTALLOGRAPHY & DIFFRACTION
MSNE 523
PROPERTIES, SYNTHESIS AND DESIGN OF COMPOSITE MATERIALS
Total Credit Hours12
Area of Specialization: Engineering Breadth

To fulfill the BSChE degree requirements, students pursuing the Engineering Breadth area of specialization must complete:

  • 1 course (3 credit hours) from the area of specialization Core Requirement
  • 3 courses (9 credit hours) from the area of specialization Elective Requirements
Core Requirement
CHBE 415SEPARATION TECHNOLOGIES FOR CHEMICAL AND BIOMOLECULAR PROCESSES3
Elective Requirements
Select 3 courses from at least 3 categories below: 19
Basic Science
BIOS 201
INTRODUCTORY BIOLOGY I
CHEM 330
ANALYTICAL CHEMISTRY
CHEM 360
INORGANIC CHEMISTRY
EEPS 334
THE EARTH LABORATORY
EEPS 340
GLOBAL BIOGEOCHEMICAL CYCLES
PHYS 202
MODERN PHYSICS
Environmental Engineering Courses
CEVE 310
PRINCIPLES OF ENVIRONMENTAL ENGINEERING
CEVE 311 / MECH 311
MECHANICS OF SOLIDS AND STRUCTURES
CEVE 434
FATE AND TRANSPORT OF CONTAMINANTS IN THE ENVIRONMENT
Materials Science Engineering Courses
MSNE 211
INTRODUCTION TO MATERIALS SCIENCE FOR ENGINEERS
MSNE 402
MECH PROPERTIES OF MATERIALS
MSNE 406
PHYSICAL PROPERTIES OF SOLIDS
MSNE 594 / CHBE 594
PROPERTIES OF POLYMERS
Bioengineering Courses
BIOE 370
BIOMATERIALS
BIOE 372
BIOMECHANICS
BIOE 420 / CHBE 420
TRANSPORT PHENOMENA IN BIOENGINEERING
CHBE 640
METABOLIC ENGINEERING
Sustainability and Energy Courses
CEVE 302 / ENGI 302
SUSTAINABLE DESIGN
CEVE 307 / ENST 307 / EEPS 307
ENERGY AND THE ENVIRONMENT
CHBE 450
PETROLEUM PHASE BEHAVIOR AND FLOW ASSURANCE
Computational Applied Mathematics and Operations Research Course
CMOR 302
MATRIX ANALYSIS
Other Approved Engineering Courses
CHBE 560 / MSNE 560
COLLOIDAL AND INTERFACIAL PHENOMENA
ELEC 242
SIGNALS, SYSTEMS, AND TRANSFORMS
ELEC 261
INTRODUCTION TO PHYSICAL ELECTRONICS I
Total Credit Hours12

Footnotes and Additional Information

Policies for the BSChE Degree

Program Restrictions and Exclusions

Students pursuing the BSChE degree should be aware of the following program restriction:

  • As noted in Majors, Minors, and Certificates, under Declaring Majors, Minors and Certificates, students may not obtain both a BA and a BS in the same major. Students pursuing the Bachelor of Science in Chemical Engineering (BSChE) Degree may not additionally pursue the BA Degree with a Major in Chemical Engineering.

Transfer Credit 

For Rice University’s policy regarding transfer credit, see Transfer Credit. Some departments and programs have additional restrictions on transfer credit. The Office of Academic Advising maintains the university’s official list of transfer credit advisors on their website: https://oaa.rice.edu. Students are encouraged to meet with their academic program’s transfer credit advisor when considering transfer credit possibilities. 

Departmental Transfer Credit Guidelines

Students pursuing the BSChE degree should be aware of the following departmental transfer credit guidelines:

  • Requests for transfer credit will be considered by the program director (and/or the program’s official transfer credit advisor) on an individual case-by-case basis. 

Additional Information 

For additional information, please see the Chemical and Biomolecular Engineering website: https://chbe.rice.edu/

Opportunities for the BSChE Degree

Academic Honors

The university recognizes academic excellence achieved over an undergraduate’s academic history at Rice. For information on university honors, please see Latin Honors (summa cum laude, magna cum laude, and cum laude) and Distinction in Research and Creative Work. Some departments have department-specific Honors awards or designations.

Fifth-Year Master's Degree Option for Rice Undergraduate Students 

In certain situations and with some terminal master's degree programs, Rice students have an option to pursue a master’s degree by adding an additional fifth year to their four years of undergraduate studies.

Advanced Rice undergraduate students in good academic standing typically apply to the master’s degree program during their junior or senior year. Upon acceptance, depending on course load, financial aid status, and other variables, they may then start taking some required courses of the master's degree program. A plan of study will need to be approved by the student's undergraduate major advisor and the master’s degree program director.

As part of this option and opportunity, Rice undergraduate students:

  • must complete the requirements for a bachelor's degree and the master's degree independently of each other (i.e. no course may be counted toward the fulfillment of both degrees).
  • should be aware there could be financial aid implications if the conversion of undergraduate coursework to that of graduate level reduces their earned undergraduate credit for any semester below that of full-time status (12 credit hours).
  • more information on this Undergraduate - Graduate Concurrent Enrollment opportunity, including specific information on the registration process can be found here.

Rice undergraduate students completing studies in science and engineering may have the option to pursue the Master of Chemical Engineering (MChE) degree. For additional information, students should contact their undergraduate major advisor and the MChE chair of the department graduate studies committee. 

Additional Information 

For additional information, please see the Chemical and Biomolecular Engineering website: https://chbe.rice.edu/