The Department of Chemical and Biological Engineering has well established programs in chemical engineering at both undergraduate (B.S.) and graduate (M.S./Ph.D.) levels. The graduate program is designed to prepare student for careers in research or education. A choice of courses and research topics allows the student to become specialized in specific areas.
Research projects cover a wide area of chemical engineering and include both fundamental and applied topics. The major active research areas include pulping and bleaching processes, coating flows, flow in porous media, rheology, advanced materials, surface chemistry, molecular biophysics, advanced imaging and spectroscopic techniques, sensors and adsorption.
The unique aspect of the department is the close contact with industrial sponsors. A high percentage of the research projects are supported by industry. This interaction with industry gives the student real life exposure and good contacts. The Paper Surface Science Program is a consortia of companies that meet regularly to review student research. In addition, the Pulp and Paper Foundation provides support for some students early in their studies. A number of other research projects receive direct support and input from industrial representatives.
In addition to industrial support, the department receives significant funding from governmental agencies such as the National Science Foundation, the Department of Energy, the Department of Agriculture, and the Department of Environmental Protection Agency. Some graduate students receive support from educational initiatives supported by the government.
The Department has well equipped laboratories that include some specialized facilities such as an environmental scanning electron microscope, a sum frequency spectrometer, two custom built confocal microscopes, and a comprehensive analytical chemistry suite. The department also has a fully equipped pilot plant linked to paper production. The Department has developed a comprehensive internal computer network which includes a number of personal computers and two work stations with links to the University network and the internet. In addition, students have access to other equipment on campus such as equipment in the Laboratory for Surface Science and Technology and the Advanced Wood Composites building.
For students who enter the program with a recognized B.S. degree in chemical engineering the M.S. degree requires 30 semester hours of graduate work which must include two seminars and six term courses in addition to the thesis. Students holding a B.S. degree in science or other engineering disciplines are also eligible for admission to the M.S. program, although additional make-up courses may be required. The Ph.D. degree requires a minimum of 45 semester hours, beyond the B.S. level, comprising four seminars and at least eight graduate courses (24 credits) in addition to a research thesis. Ph.D. candidates are also required to pass a qualifying examination on chemical engineering fundamentals and to present and successfully defend a thesis proposal. Students who enter the program with a recognized Master’s degree may be allowed up to 30 course credits towards the Ph.D., subject to approval by the Graduate Committee of the Department. Required core courses for the M.S. and Ph.D. degrees are CHE 510, CHE 540, CHE 561 and CHE 580.
Financial assistance is available in the form of graduate assistantships which provide tuition and stipends. Application for admission should be submitted as soon as possible and at least three months in advance of the proposed starting date. Students applying for the fall semester should have their application in by March of that year. Further details of the program and current research projects can be obtained from the Chair of the Department of Chemical and Biological Engineering, on request.
Douglas W. Bousfield, Ph.D. (California at Berkeley, 1986), University of Maine Pulp and Paper Foundation Professor. Fluid mechanics, rheology, numerical methods, coating processes, modeling of coating and absorption processes.
Albert Co, Ph.D. (Wisconsin, 1979), Associate Professor. Transport phenomena, fluid mechanics, polymeric fluid dynamics, rheology, applied numerical methods.
William J. DeSisto, Ph.D., (Brown, 1989), Assistant Professor. Advanced material, sensors.
Darrell W. Donahue, Ph.D. (North Carolina State Univ., 1992), Associate Professor. process engineering, biosensors for liquid food systems, statistical process control, industrial simulation and control, quantitative risk assessment modeling.
Joseph M. Genco, Ph.D. (Ohio State, 1965), Calder Professor. Process engineering applied to pulp and paper technology and science.
John J. Hwalek, Ph.D. (Illinois, 1982), Associate Professor. Process information systems, heat transfer.
Michael D. Mason, Ph.D. (California at Santa Barbara, 2000), Assistant Professor. Photophysics of nanoparticles and molecular nanoprobes, single molecule imaging, time-resolved single photon spectroscopic imaging techniques.
Paul J. Millard, Ph.D., (University of Maryland, 1984), Assistant Professor. Microbial biosensors, physiological genomics systems, fluorescence technology.
David J. Neivandt, Ph.D. (Melbourne, 1998), Assistant Professor. Conformation of interfacial species, surface spectroscopies/microscopies, binary polymer/surfactant solutions and lipid membrane structures.
Anja Nohe, Ph.D., (Theodor Boveri Institute, 2002), Assistant Professor. Image correlation spectroscopy, surface spectroscopy/microscopy, bio-molecular kinetics and dynamics, signal transduction, biological membranes, bone and joint development, nanoparticles, molecular diffusion.
Hemant P. Pendse, Ph.D. (Syracuse, 1980), Professor and Chair. Colloidal phenomena, paper manufacture, fluid particle systems, and instrument/sensor development.
Douglas M. Ruthven, Ph.D., Sc.D. (University of Cambridge, 1966, 1988), Professor. Fundamentals of adsorption and adsorption processes.
Adriaan Van Heiningen, Ph.D. (McGill, 1982), J. Larcom Ober Professor of Chemical Engineering and FiDiPro professor. Forest products biorefinery, chemical reaction engineering in wood pulping and pulp bleaching, black liquor gasification and direct causticization with titanate.
G. Peter van Walsum, Ph.D. (Dartmouth College, 1998), Associate Professor. Renewable energy, fuels and chemicals, bioprocessing, process engineering.
M. Clayton Wheeler, Ph.D.(Austin, 1997), Assistant Professor. Chemical Sensors, fundamental catalysis, surface science, and selective sensor materials.
Stephen M. Shaler, Ph.D. (Pennsylvania State University, 1986). Professor of Wood Science and Technology. Cooperating Professor of Chemical Engineering and Assistant Director, Advanced Engineered Wood Composites Center. Wood composites and mechanical properties.
Barry S. Goodell, Ph.D. (Oregon State, 1983). Professor of Wood Science and Technology, Forest Products Lab. Cooperating Professor, Chemical Engineering and the Advanced Engineered Wood Composites Center. Control of decay in wood, wood microbiology, wood preservation, wood biotechnology.
Barbara J. W. Cole, Ph.D. (Washington, 1986), Professor and Chair. Wood and paper chemistry, carbohydrates, lignin, biologically active plant extracts.
Carl P. Tripp, Ph.D. (University of Ottawa, 1988), Associate Professor and Member, LASST. Surface chemistry of materials, infrared and Raman spectroscopy, chemical sensors, biosensors, sol-gel synthesis of metal oxides, polyelectrolyte/surfactant adsorption on surfaces, silane reactions on metal oxides, molecular studies of paper coatings, electroluminescent devices, supercritical fluids.
Associate Graduate Faculty
Nick Triantafillopollous, Ph.D. (IPST, 1988). OMNOVA Solutions. Fluid mechanics of coating systems, printing sciences, film formation.
Ian D. Dickey, M.D. , F.R.C.S.C., Orthopedic Associates of Bangor. Biomechanics, soft tissue in-growth into foam implants.