James D. Litster
Professor of Chemical Engineering
Professor of Industrial and Physical Pharmacy
School of Chemical Engineering
Forney Hall of Chemical Engineering
480 Stadium Mall Drive
West Lafayette, IN 47907-2100
My research interests are in the area of Particle Technology, particularly particle design and formulation. Particle design is the production of novel particles with specific attributes. These attributes are controlled by the size, morphology and surface properties of the particles that are produced. To control these attributes, both the particle formation processes and the feed formulation properties need to be controlled. The products of interest are many and varied, including proteins and other biological materials, pharmaceuticals, detergents and consumer goods, food, ceramics and high value materials, fertilizers and agricultural chemicals, and minerals.
My major research area is granulation and agglomeration. The research is targeted at several levels:
- Particle level - Prediction of the behaviour of partially saturated bulk powders and granules from understanding of the particle-particle and particle-binder interactions in the granule;
- Rate process level - Mapping of regimes of operation for the key rate processes in granulation - wetting and nucleation, growth and consolidation, breakage and attrition and the development of mathematical models for these processes.
- Unit operation and granulation circuit level - Development of scale-up rules for granulation processes. This includes simulation, optimization and control of continuous granulation circuits.
- Multiscale modeling of granulation processes;
- Regime mapping and quantitative modeling of wet granule breakage in granulators;
- Characterization of cohesive powder flows in a mixer granulator;
- Design of regime separated granulators for continuous granulation.;
- Fundamental studies of the secondary nucleation of proteins;
- Crystallization of proteins from protein mixtures;
- Microfluidic crystallization for particle design;
- Precipitation and liquid-liquid separation of soy proteins.
- Nathan B. Davis
- Nathan J. Davis
- Sudarshan Ganesh
- Jennifer Lu
- Daniel Pohlman
- Ridade Sayin
Awards and Honors
Litster, JD, and Ennis, BJ, (2004). The Science and Engineering of Granulation Processes, Kluwer Powder Technology Series, B. Scarlett (ed.).
Hapgood, K.,, Iveson, SM, Litster, JD, and Liu, L.X., (2008). Chapter 20 Granulation Rate Processes in Handbook of Powder Technology v.11 Granulation, Salman, A.J., Hounslow, M.J. and Seville, J.P.K (eds), Elsevier
He, Y, Liu, LX and Litster JD, (2009). Chapter 16 Scale-up Consideration in Granulation, In Handbook of Pharmaceutical Granulation Technology (3rd Edition, D.M. Parikh Ed.),. Marcel Dekker, Inc., New York.
Snow, RH, Allen, T, Ennis, B.J. and Litster, JD, (2009). Section 20 Size Reduction and Size Enlargement In Perrys Ch'emical Engineers Handbook, D. Green (ed.), MacGraw-Hill, (98pp).
"Distributive Mixing Elements: Towards Improved Granule Attributes from a Twin Screw Granulation Processes," R. Sayin, A. S. E. Hagrasy, J. D. Litster, Chemical Engineering Science, DOI: 10.1016/j.ces.2014.06.040 (2014)
"Effect of Solvent Composition and Temperature on the Solubility of Ibuprofen in Aqueous Ethanol," A. Rashid, E. T. White, T. Howes, J. D. Litster, I. Marziano, Journal of Chemical & Engineering Data, 59 (9), pp 2699–2703 (2014)
"Measuring Granule Phase Volume Distributions Using X-ray Microtomography," S. A. Dale, C. Wassgren, J. D. Litster, Powder Technology, 264, 550-560 (2014)
"Granulation Rate Processes in the Kneading Elements of a Twin Screw Granulator," A. E. Hagrasy, and J. D. Litster, AIChE Journal, 59, 4100-4115 (2013)
"Effect of Relative Humidity on Onset of Capillary Forces for Rough Surfaces," N. V. Zarate, A. J. Harrison, J. D. Litster, and S. P. Beaudoin, Journal of Colloid Interface Science, 411, 265-272 (2013)
"Population Balance Model Validation and Prediction of CQAs for Copntinuous Milling Processes: Toward QbD in Pharmaceutical Drug Product Manufacturing," D. Barrasso, S. Oka, A. Muliadi, J. D. Litster, C. Wassgren, and R. Ramachandran, Journal of Pharmaceutical Innovation, doi: 10.1007/s12247-013-9115-0 (2013)
“Experimental Validation of a 2-D Population Balance Model for Spray Coating Processes,” J. Li, B. Freireich, C. Wassgren, and J. D. Litster, Chem Eng Sci, DOI: 10.1016/j.ces.2012.02.036 (2012)
“Growth Rates of Ibuprofen Crystals Grown From Ethanol and Aqueous Ethanol,” A. Rashid, E. T. White, T. Howes, J. D. Litster, and I. Marziano, Chemical Engineering R&D, 90, 158-161 (2012)