Florida State University-College of Engineering, Chemical & Biomedical Engineering
The Department of Chemical and Biomedical Engineering (ChE-BME) is one of five departments within the FAMU-FSU College of Engineering, a joint venture between Florida State University and Florida A&M University. BS (ABET-accredited), MS, and PhD degrees are offered in Chemical Engineering, and MS and PhD degrees are granted in Biomedical Engineering. All undergraduate students studying for a Bachelor of Science degree in Chemical Engineering may choose from one of three major options within the program, including Chemical, Materials, and Biomedical Engineering.
The Department emphasizes a balance of teaching and research in forefront areas of modern chemical and biomedical engineering, and it has made an impact on the field in many aspects of education and research. Fourteen full-time and one half-time instructors, one research associate/academic advisor, and several adjunct and affiliated professors comprise the faculty. The student body consists of about 175 undergraduates and 30 graduate students. 34 BS, 6 MS, and 5 PhD degrees were awarded during the 2011-2012 academic year.
Face-to-Face - Graduate Degree
Chemical Engineering (ChE) encompasses the development, application, and operation of the processes in which chemical and/or physical changes of material are involved. The work of a chemical engineer is to analyze, develop, design, control, construct, and/or supervise chemical processes in research and development, pilot-scale operations, and industrial production. Emphasis is placed on the application of computer analysis to problems encountered in the above areas. Chemical engineers are employed in the manufacture of inorganic chemicals (i.e., acids, alkalis, pigments, fertilizers), organic chemicals (i.e., petrochemicals, polymers, fuels, propellants, pharmaceuticals, specialty chemicals), biological products (i.e., enzymes, vaccines, biochemicals, biofuels), foods, semiconductors, and paper.
Chemical engineers having graduate degrees work in a wide range of organizations where their technical skills are needed. These may include: local, state, and federal governments; private and public corporations; and education. Chemical engineers are involved in process and plant operation, technical services groups, research and development laboratories, plant design groups, occupational and safety programs, technical sales, technical training, and technical management. Graduate education can lead to careers in the medical sciences, chemical engineering, and other engineering and scientific disciplines as well as business and law.
Students will gain the necessary knowledge and skills that will allow them to contribute to improved technology in health and medical care and to solve real-world engineering problems in biology and medicine, both in educational and industrial settings.
Face-to-Face - Graduate Degree
Recent dramatic advances in health care and medical technology made possible by the merger of engineering and medicine have prompted the development of new graduate degree programs in biomedical engineering at many of the top institutions in the U.S. Currently, biomedical engineering is the most rapidly growing graduate engineering discipline in the U.S. The overall goal of this program is to implement education and research in biomedical engineering that will prepare graduates for industrial, governmental, and academic careers in the bioengineering, biotechnology, and related professions.
The graduate program in biomedical engineering (BME) promotes a special emphasis in cellular and tissue engineering. Advanced engineering, medical, chemistry, physics, and biology students will gain the necessary knowledge and skills that will allow them to contribute to improved technology in health and medical care and to solve real-world engineering problems in biology and medicine, both in educational and industrial settings.
- Engineering: Biomedical
- Engineering: Chemical