Bulletin 2021-2022

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Ph.D. Chemical and Biomolecular Engineering

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The core classes for this program are defined as CHE 510 Advanced Chemical Thermodynamics, CHE 520 Advanced Transport Phenomena I, and CHE 525 Chemical Reactor Analysis.  For the proposed degree program, the student will complete a minimum of 43 credit hours of classwork courses and 18 credit hours for thesis research.  In addition, a doctoral student must pass a PhD doctoral examination, which is comprised of the qualifying exam and a preliminary oral examination, to be admitted to candidacy. The qualifying exam requirement is satisfied by obtaining a B or better in the core courses defined above.  The preliminary oral exam is completed at the end of the 6th semester, or earlier, where the student presents their proposed research.  A doctoral plan of study must be submitted to the USA graduate school by the time the student completes 30 hrs of credit towards a doctorate.  A final oral dissertation defense of the written dissertation is required to be presented to the students committee and a majority of the committee must approve.  

Course Requirements

Program Core Courses Credit Hours
CHE 510  Advanced Chemical Thermodynamics 3
CHE 520  Advanced Transport Phenomena I 3
CHE 525 Chemical Reactor Analysis 3
  Total Credit Hours 9
Program Support Courses Credit Hours
CHE 501  Chemical Engineering Seminar 3
CHE 592  Directed Independent Study 9
GIS 501   Responsible Conduct of Research 1
  Total Credit Hours 13
Program Elective Courses Credit Hours
Biology  
Chemical Engineering  
Chemistry  
Civil Engineering  
Mechanical Engineering  
Electrical Engineering  
Environmental Toxicology  
Math  
Statistics  
Pharmacology  
Other Areas  
Specific elective classes listed by course number are available from the Graduate School.  
  Total Credit Hours 21
Dissertation Credit Hours
GIS 799   Dissertation 1-3
   
  Total Credit Hours 18

 

Ph.D. Chemical and Biomolecular Engineering (61 Total Hours)

First Year - Fall Semester

Course ID Course Description Hours
CHE 520 Advanced Transport Phenomena I 3
Graduate Elective PhD Elective* 3
     
CHE 501 Chemical Engineering Seminar 1
GIS 501 Responsible Conduct of Research 1
     
     
      Total Hours 8

First Year - Spring Semester

Course ID Course Description Hours
Graduate Elective PhD elective 3
Graduate Elective PhD Elective 3
CHE 501 Chemical Engineering Seminar 1
     
     
     
     
      Total Hours 7

First Year - Summer Semester

Course ID Course Description Hours
CHE 592 Directed Independent Study 3
     
     
     
     
     
     
      Total Hours 3

Second Year - Fall Semester

Course ID Course Description Hours
CHE 510 Advanced Chemical Thermodynamics 3
CHE 592 Directed Independent Study 3
CHE 501 Chemical Engineering Seminar 1
     
     
     
     
      Total Hours 7

Second Year - Spring Semester

Course ID Course Description Hours
CHE 525 Chemical Reactor Analysis 3
CHE 592 Directed Independent Study 3
CHE 501 Chemical Engineering Seminar 1
     
     
     
     
      Total Hours 7

Second Year - Summer Semester

Course ID Course Description Hours
GIS 799 Dissertation 3
     
     
     
     
     
     
      Total Hours 3

Third Year - Fall Semester

Course ID Course Description Hours
GIS 799 Dissertation 3
Graduate Elective PhD Elective 3
CHE 501 Chemical Engineering Seminar 1
     
     
     
     
      Total Hours 7

Third Year - Spring Semester

Course ID Course Description Hours
GIS 799 Dissertation  3
Graduate Elective PhD Elective 3
CHE 501 Chemical Engineering Seminar 1
     
     
     
     
      Total Hours 7

Third Year - Summer Semester

Course ID Course Description Hours
GIS 799 Dissertation 3
     
     
     
     
     
     
      Total Hours 3

Fourth Year - Fall Semester

Course ID Course Description Hours
GIS 799 Dissertation 3
Graduate Elective PhD Elective 3
CHE 501 Chemical Engineering Seminar 1
     
     
     
     
      Total Hours 7

Fourth Year - Spring Semester

Course ID Course Description Hours
GIS 799 Dissertation 3
Graduate Elective PhD Elective 3
CHE 501 Chemical Engineering Seminar 1
     
     
     
     
      Total Hours 7

Fourth Year - Summer Semester

Course ID Course Description Hours
GIS 799 Dissertation 3
     
     
     
     
     
     
      Total Hours 3
Notes
*PhD Electives must be approved by the PhD program director
 
 
 
 

The USA Graduate School offers an interdisciplinary PhD program in Chemical and Biomolecular Engineering.  The purpose of the PhD program is to produce graduates who can apply the fundamental principles of thermodynamics, mass transfer, and reaction kinetics to a variety of technical areas, such as drug discovery, industrial chemistry, biological systems, and environmental engineering. As an interdisciplinary program housed in the Graduate School, the PhD in Chemical and Biomolecular Engineering aligns with the mission of the University of South Alabama by delivering high quality graduates who will promote discovery, health, and learning to the citizens of Alabama and the Gulf Coast region.

Because the program is built upon the application of chemistry, the central science, and is interdisciplinary by design, graduates will find careers in diverse areas such petrochemical, chemical processing, biotechnology, green technologies, pharmaceuticals, and private consulting. However, the program will also qualify graduates for academic appointments as professors, post-graduate researchers, and research scientists in university programs and laboratories. There is a growing demand for PhD graduates who possess the analytical skills to move from molecular design to process design using state-of-the-art, cutting-edge technologies, and this program will meet this need.

Succinctly list at least four (4) but no more than seven (7) of the most prominent student learning outcomes of the program. These outcomes should lend themselves to subsequent review and assessment of program accomplishments.

Graduates of the program will be able to:

  1. integrate and apply advanced chemical and biomolecular analytical tools and techniques to solve problems in a specific science, technology, engineering, or math domains
  2. formulate a significant research question and demonstrate the ability to carry out a research plan from inception to dissemination to answer such a question
  3. obtain employment in chemical and biomolecular related positions in industry, academia, or government
  4. work effectively on an interdisciplinary team in a variety of laboratory settings
  5. present research findings in professional and academic journals

Admissions

The admission requirements required by the Graduate School of the USA as listed below.

  • Statement of purpose
  • Three letters of recommendation
  • Curriculum vita
  • Official transcripts from all previous institutions attended
  • A baccalaureate or graduate degree in a closely related field. A graduate degree is not required for admission
  • An undergraduate minimum GPA of 3.0 overall or a graduate minimum of 3.5 overall (4 point scale)
  • Official scores for the Graduate Records Examination (GRE)
  • A completed application for admission to the Graduate School
  • For international students, an official TOEFL, IELTS, iTEP, or Pearson (PTE Academic) score, or an equivalent level of competence as exhibited by a bachelor or graduate degree from an accredited university in the United States is required.  The minimum required test scores are: TOEFL – 525 on the paper version, 197 on the computer version, or 71 on the internet version; IELTS – 6.0; iTEP – 3.7; Pearson’s (PTE Academic) - 4
  • Some variances in these admissions requirements may be allowed as approved by the program coordinator.