Many of the key challenges for society involve systems that include fluid transport or thermal processes. The challenges include areas such as energy production or in the consumption of energy to the heat transfer or fluid processes in complex systems. This program provides the opportunity to investigate several topics that provide a fundamental background to address these challenges.
Admission to the Emphasis
Students holding a B.S. degree or M.S. in engineering from an ABET-accredited program or a B.S. or M.S. in a related field from an accredited institution are invited to apply for admission to masters or doctoral programs. Students not having an ABET-accredited B.S engineering degree but having degrees in math or physical/biological science or other disciplines may be asked to take additional selected course work to adequately prepare them for their specific engineering studies.
Base requirements for consideration for admission to the College of Engineering’s Graduate Programs are listed below. Specific degree programs and emphasis areas may add additional requirements:
- Completion of a B.S. and M.S. (for Ph.D. applicants) with a minimum GPA of 3.00 (out of 4.00) from an ABET-accredited program or program in a related field. The average undergraduate GPA and graduate GPA of recently accepted students is 3.4 and 3.6, respectively.
- Submission of the online UGA Graduate School Application and submission of:
- Official undergraduate and graduate academic transcripts.
- A statement of purpose.
- Three letters of recommendation.
- CV or resume.
- General Graduate Record Examination (GRE) Scores. Average Quantitative GRE scores of recently accepted students range near the 80th percentile. Applicants holding a UGA degree may waive this requirement if they meet GPA and undergraduate research requirements.
- TOEFL is required for international students whose native language is other than English.
- Additional requirements may be applicable for admission to discipline-specific M.S. and Ph.D. Programs and Emphasis Areas offered through the College’s schools.
Program of Study
Requirements for the Ph.D. in Engineering with Emphasis in Fluid and Thermal Systems further expand on those of the Ph.D. in Engineering. These include a minimum of 72 credit hours in the student’s program of study beyond the B.S. degree. A thesis master's degree from an approved university may be accepted for up to 30 credits hours, in which case a minimum of 42 credit hours of approved course work, research and dissertation beyond the M.S. degree would be required as follows:
- A minimum of 16 semester hours of coursework, which must include:
- At least 15 hours of 8000- and 9000-level courses in addition to research, dissertation writing, and directed study of which 9 hours must be selected from the Fluid and Thermal Systems Course List (below).
- 1 hour of Graduate Seminar ENGR 8950*
- A minimum of 23 Doctoral Research hours (Doctoral research (9000) or Doctoral project-focused research (9010)) for students with an M.S. **
- The Program of Study must include 3 hours of ENGR 9300 Doctoral Dissertation.
* Only 3 hours of Graduate Seminar may apply on the Ph.D. Program of Study. Students are strongly encouraged to continue regular attendance of speaker series presentations even if not formally registered in the seminar.
** A typical student’s total research hours will exceed these minimums.
Emphasis Area Course List
As a requirement of the Ph.D. Engineering with an Emphasis in Fluid and Thermal Systems, students must complete a minimum of 9 credit hours selected from the list below. Students work with their graduate advisor to select the most appropriate coursework to ensure breadth of understanding as well as mastery of knowledge in a specific subject area. In addition to completing 9 credit hours selected from the list below, students may work with their graduate advisor to develop an interdisciplinary plan of coursework drawing from the extensive graduate course offerings available at UGA.
- ENGR6490 Renewable Energy Engineering
- ENGR6350 Finite Element Analysis (F)
- ENGR6650 HVAC Systems for Buildings and Industry
- ENGR8103 Computational Engineering (Sp)
- ENGR8160 Advanced Fluid Mechanics (Sp)
- ENGR8170/80 Advanced Heat and Mass Transfer
- MCHE8380 Continuum Mechanics (F)
- PHYS6300 Thermodynamics and Kinetic Theory
- PHYS8301 Statistical Mechanics I
- STAT 6315 Statistical Methods Researcher (Sp)
- MIST6550 Energy Informatics
About the School
Understanding that 21st century engineers require more than technical knowledge, we equip students with an understanding of the social and economic impact of their work, the ability to communicate the ... Read More