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Wang, S., Ramkrishna, D. and Narsimhan, V., 2020. Exact sampling of polymer conformations using Brownian bridges. The Journal of Chemical Physics, 153(3), p.034901. Link
Verma, P., Devaraj, J., Skiles, J.L. et al. A Metabolomics Approach for Early Prediction of Vincristine-Induced Peripheral Neuropathy. Sci Rep 10, 9659 (2020). Link
Won, Y.Y. and Ramkrishna, D. Revised Formulation of Fick’s, Fourier’s, and Newton’s Laws for Spatially Varying Linear Transport Coefficients. ACS Omega, 4(6), pp.11215-11222, 2019. Link
Bulutoglu, P.S., Parks, C., Nere, N.K., Bordawekar, S. and Ramkrishna, D. Exploring New Crystal Structures of Glycine via Electric Field-Induced Structural Transformations with Molecular Dynamics Simulations. Processes, 7(5), p.268, 2019. Link
Tran, V. and Ramkrishna, D. Simulating Stochastic Populations. Direct Averaging Methods. Processes, 7(3), p.132, 2019. Link
Verma, P., Kienle, A., Flockerzi, D. and Ramkrishna, D. Using Bifurcation Theory for Exploring Pain. bioRxiv, p.757187, 2019. Link
Aboulmouna, L., Gupta, S., Maurya, M., DeVilbiss, F., Subramaniam, S. and Ramkrishna, D. A Cybernetic Approach to Modeling Lipid Metabolism in Mammalian Cells. Processes, 6(8), p.126, 2018. Link
DeVilbiss, F., Mandli, A. and Ramkrishna, D. Consistency of cybernetic variables with gene expression profiles: A more rigorous test. Biotechnology progress, 34(4), pp.858-867, 2018. Link
Williams, I.M., Valenzuela, F.A., Kahl, S.D., Ramkrishna, D., Mezo, A.R., Young, J.D., Wells, K.S. and Wasserman, D.H. Insulin exits skeletal muscle capillaries by fluid-phase transport. The Journal of clinical investigation, 128(2), pp.699-714, 2018. Link
Song, H.S., Nelson, W.C., Lee, J.Y., Taylor, R.C., Henry, C.S., Beliaev, A.S., Ramkrishna, D. and Bernstein, H.C. Metabolic network modeling for computer‐aided design of microbial interactions. Emerging Areas in Bioengineering, 2, pp.793-801, 2018. Link
Tran, V. and Ramkrishna, D. On facilitated computation of mesoscopic behavior of reaction‐diffusion systems. AIChE Journal, 63(12), pp.5258-5266, 2017. Link
Peña, R., Burcham, C.L., Jarmer, D.J., Ramkrishna, D. and Nagy, Z.K. Modeling and optimization of spherical agglomeration in suspension through a coupled population balance model. Chemical Engineering Science, 167, pp.66-77, 2017. Link
Parks, C., Huang, L., Wang, Y. and Ramkrishna, D. Accelerating multiple replica molecular dynamics simulations using the Intel® Xeon Phi™ coprocessor. Molecular Simulation, 43(9), pp.714-723, 2017. Link
Parks, C., Koswara, A., Tung, H.H., Nere, N., Bordawekar, S., Nagy, Z.K. and Ramkrishna, D. Molecular dynamics electric field crystallization simulations of paracetamol produce a new polymorph. Crystal Growth & Design, 17(7), pp.3751-3765, 2017. Link
Song, H.S., Goldberg, N., Mahajan, A. and Ramkrishna, D. Sequential computation of elementary modes and minimal cut sets in genome-scale metabolic networks using alternate integer linear programming. Bioinformatics, 33(15), pp.2345-2353, 2017. Link
Parks, C., Koswara, A., Tung, H.H., Nere, N.K., Bordawekar, S., Nagy, Z.K. and Ramkrishna, D. Nanocrystal dissolution kinetics and solubility increase prediction from molecular dynamics: the case of α-, β-, and γ-glycine. Molecular pharmaceutics, 14(4), pp.1023-1032 , 2017. Link
Parks, C., Koswara, A., DeVilbiss, F., Tung, H.H., Nere, N.K., Bordawekar, S., Nagy, Z.K. and Ramkrishna, D.. Solubility curves and nucleation rates from molecular dynamics for polymorph prediction–moving beyond lattice energy minimization. Physical Chemistry Chemical Physics, 19(7), pp.5285-5295, 2017. Link
DeVilbiss, F. and Ramkrishna, D. Addressing the Need for a Model Selection Framework in Systems Biology Using Information Theory. Proceedings of the IEEE, 105(2), pp.330-339, DOI: 10.1109/JPROC.2016.2560121, 2017. Link
Song, H.S. and Ramkrishna, D. Comment on “Mathematical modeling of unicellular microalgae and cyanobacteria metabolism for biofuel production” by Baroukh et al [Curr. Opin. Biotechnol. 2015, 33: 198–205] (No. PNNL-SA-117715). Pacific Northwest National Laboratory (PNNL), Richland, WA (US) , DOI: 10.1016/j.copbio.2016.02.026, 2016. Link
Jayachandran, D., Laínez-Aguirre, J., Rundell, A., Vik, T., Hannemann, R., Reklaitis, G. and Ramkrishna, D. Model-based individualized treatment of chemotherapeutics: Bayesian population modeling and dose optimization. PloS one, DOI: https://doi.org/10.1371/journal.pone.0133244 10(7), p.e0133244, 2015. Link
Shu, Che-Chi, Jeremy Binagia, Vu Tran and Doraiswami Ramkrishna, “On Speeding up Stochastic Simulations by Parallelization of Random Number Generation” Chem.Eng.Sci., doi:10.1016/j.ces.2015.06.066, 137, 828-836, 2015. Link
Chakaraborty, J., Jitendra Kumar, Mehakpreet Singh, Alan Mahoney and Doraiswami Ramkrishna, “Inverse Problems in Population Balances. Determination of Aggregation Kernel by Method of Weighted Residuals” Ind.Eng.Chem.Res., DOI: 10.1021/acs.iecr.5b01368, 54, 10530-10538, 2015.Link
Singh Meenesh R. and Doraiswami Ramkrishna, “Dispersions in Crystal Nucleation and Growth Rates: Implications of Fluctuation in Supersaturation” Chem. Eng. Sci., doi:10.1016/j.ces.2013.11.047, 107, 102-113, 2014.Link
Ramkrishna, Doraiswami and Meenesh R. Singh, (Invited Review): “Population Balance Modeling. Current Status and Future Prospects” Annual Reviews in Chemical and Biomolecular Engineering, DOI: 10.1146/annurev-chembioeng-060713-040241, Vol.5, 123-146, 2014.Link
Hwang, Hyuntae, Feng Qi, Chong Yuan, Xuebing Zhao, Doraiswami Ramkrishna, Dehua Liu, and Arvind Varma, “Lipase-Catalyzed Process for Biodiesel Production: Protein engineering and lipase production” Biotech. & Bioeng., DOI: 10.1002/bit.25162, 111, 639-653, 2014.Link
Jayachandran, Usha Ramkrishna, Jodi Skiles, Jamie Renbarger and Doraiswami Ramkrishna, “Revitalizing Personalized Medicine: Respecting Biomolecular Complexities beyond Gene Expression,” CPT: Pharmacometrics & Systems Pharmacology, doi:10.1038/psp.2014.6, 3, 1-11, 2014.Link
Devaraj, J., A. E. Rundell, PhD; R. E. Hannemann, T. A Vik, and Doraiswami Ramkrishna, “Optimal Chemotherapy for Leukemia: A Model-Based Strategy for Individualized Treatment” PLoS ONE, doi:10.1371/journal.pone.0109623, 9, e109623, 2014.Link
Singh, Meenesh, Nandkishor Nere, Hsien-Hsin Tung, Samrat Mukherjee, Shailendra Bordawekar and Doraiswami Ramkrishna, “Measurement of Polar Plots of Crystal Dissolution Rates using Hot-Stage Microscopy. Some Further Insights on Dissolution Morphologies” Crystal Growth and Design. DOI: 10.1021/cg500939t, 14, 5647-5661, 2014.Link
Ramkrishna, Doraiswami, Che-Chi Shu, and Vu Tran, “New “Tau-Leap” Strategy for Accelerated Stochastic Simulation,” Industrial & Engineering Chemistry Research. doi:10.1021/ie502929q, 53, 18975-18981, 2014.Link
Song, Hyun-Seob and Doraiswami Ramkrishna, “Complex Nonlinear Behavior in Metabolic Processes,” Processes. doi:10.3390/pr1030263, 1, 263-278, 2013.Link
Song, Hyun-Seob, Frank DeVilbiss and Doraiswami Ramkrishna, “Modeling Metabolic Systems. The Need for Dynamics, Current Opinion in Chemical Engineering, 2, 373-382, 2013.Link
Ramkrishna, D., “The Neal Amundson Era. Rapid Evolution of Chemical Engineering Science,” A.I.Ch.E. Special issue, 59, 3147-3157, 2013.Link
Chatterjee, Anushree, Laura C. Cook, Che-Chi Shu, Doraiswami Ramkrishna, Gary M. Dunny and Wei-Shou Hu, “Antagonistic self-sensing and mate-sensing signaling controls antibiotic-resistance transfer” PNAS, 7086-7090, DOI: 10.1073/pnas.1212256110, Published April 2013.Link
Singh, Meenesh, Chakraborty, Jayanta; Nandkishor Nere, Hsien-Hsin Tung, Shailendra Bordawekar, and Doraiswami Ramkrishna, “Screening Crystal Morphologies from Crystal Structure,” Crystal Growth and Design, 13, 1390-1396, DOI:10.1021/cg400009m Published April 2013.Link
Singh, Meenesh R. and Doraiswami Ramkrishna, “A Comprehensive Approach to Predicting Crystal Morphology Distributions with Population Balances” Meenesh R. Singh,” Crystal Growth and Design, 13, 1397-1411, DOI: 1021/cg301851g Published April 2013.Link
Singh, Meenesh, Chakraborty, Jayanta; Nandkishor Nere, Hsien-Hsin Tung, Shailendra Bordawekar, and Doraiswami Ramkrishna, “Image-Analysis-Based Method for Measurement of 3D Crystal Morphology and Polymorph Identification Using Confocal Microscopy,” Crystal Growth and Design, 12, 3735-3748, 2012.Link
Ramalingam, S., D. Ramkrishna and O. Basaran, “Free Vibrations of a Spherical Drop Constrained at an Azimuth,” Phys. Fluids, 25, Article Number: 082102 DOI: 10.1063/1.4742339, 2012.Link
Medvedev, G. A., Adam B. Starry, D. Ramkrishna and J. M. Caruthers, “Stochastic Model for Volume Relaxation in Glass Forming Materials: Local Specific Volume Model,” Macromolecules, 45, 7237-7259, 2012.Link
Song, Hyun-Seob, Doraiswami Ramkrishna, Grigoriy Pinchuk, Alexander S. Beliaev, Allan E. Konopka, and James K. Fredrickson, “Dynamic Modeling of Aerobic Growth of Shewanella oneidensis. Predicting Energy Requirement for Growth, Triauxic Growth, and Flux Distributions.” Metabolic Engineering, 15, 25-33, 2013.Link
Shu, Che-Chi, Doraiswami Ramkrishna, A. Chatterjee and Wei-Shou Hu, “Role of Intracellular Stochasticity in Biofilm Growth. Insights from Population Balance Modeling,” PLoS ONE, Published: Nov. 13, 2013, DOI: 10.1371/journal.pone.0079196.Link
Kim, Jin Il, Hyun-Seob Song, Sunil R. Sunkara, Arvind Lali and Doraiswami Ramkrishna, “Exacting Predictions by Cybernetic Model Confirmed Experimentally. Steady State Multiplicity in the Chemostat,” Biotechnol. Progress, 28, 1160-1166, 2012.Link
Sowbna, P. R. G. D. Yadav and D. Ramkrishna, “Process Modeling of Mandelic Acid from Benzaldehyde by Phase Transfer Catalysis,” A.I.Ch.E. Jl., 58, 3799-3809 2012.Link
Adler, Philipp, Hyun-Seob Song, Katharina Kastner, Doraiswami Ramkrishna and Benno Kunz, “Prediction of dynamic metabolic behavior of Pediococcus pentosaceus producing lactic acid from lignocellulosic sugars,” Biotechnol. Progress, 28, 623-635, 2012.Link
Geng, Jun, Hyun-Seob Song, Jinqui Yuan and Doraiswami Ramkrishna, “On Enhancing Productivity of Bioethanol with Multiple Species,” Biotechnol. & Bioeng., 109, 1508-1517, 2012.Link
Ramkrishna, D. and Hyun-Seob Song, “Dynamic Models of Metabolism. A Review of the Cybernetic Approach,” A.I.Ch.E. Jl.,58, 986-997, 2012.Link
Song, Hyun-Seob and D. Ramkrishna, “Prediction of dynamic behavior of mutant strains from limited wild-type data,” Metabolic Engineering, 14, 69-80, 2012.Link
Shu, Che-Chi, A. Chatterjee and Wei-Shou Hu, and Doraiswami Ramkrishna, “Modeling of Gene Regulatory Processes by Population Mediated Signaling. New Applications of Population Balances,” Chem. Eng. Sci., 70, 188-199, 2012.Link
Song, Hyun-Seob, Seung Jin Kim and D. Ramkrishna, “Synergistic Optimal Integration of Continuous and Fed-Batch Reactors for Enhanced Productivity of Lignocellulosic Bioethanol,” Ind. Eng. Chem. (Nigam issue), 52, 1690-1696, 2012.Link
Shu, Che-Chi, Doraiswami Ramkrishna, A. Chatterjee and Wei-Shou Hu, “Bistability versus Bimodal Distributions in Gene Regulatory Processes from Population Balance Modeling,” PLoS Computational Biology: e1002140. doi:10.1371/journal.pcbi.1002140, 7, August 2011.Link
Chakraborty, J. and Doraiswami Ramkrishna, “Population balance modeling of environment dependent breakage: role of granular viscosity, density and compaction. Model formulation and similarity analysis, Ind. Eng. Chem., 50, 13116-13128, 2011.Link
Chatterjee, A. Shu, Che-Chi, C. M. Johnson, Y. N. Kaznessis, D. Ramkrishna, G. M. Dunny and Wei-Shou Hu, “Convergent transcription Confers a Bistable Switch in Enterococcus faecalis Conjugation,” PNAS,108, 9721-9726, 2011.Link
Franz, Andre, Hyun-Seob Song. D. Ramkrishna and A. Kienle, “Experimental and theoretical analysis of poly -hydroxybutyrate formation and consumption in Ralstonia eutropha,” Biochem. Eng. Jl., 55, 49-58, 2011.Link
Song, Hyun-Seob and D. Ramkrishna, “Cybernetic Models based on Lumped Elementary Modes Accurately Predict Metabolic Function of Multiple Strains,” Biotechnol. & Bioeng., 108, 127-140, 2011.Link
Chakraborty, J., Meenesh Singh, D. Ramkrishna, C. Borchert and K. Sundmacher, “Modeling of Morphology Distributions. Towards Crystals with Preferred Asymmetry,” Chem. Eng. Sci. 65, 5676-5686, 2010.Link
Noble, S. L., E. Sherer, R.E. Hannemann, D. Ramkrishna, T. Vik and A.E. Rundell, “Using adaptive model predictive control to customize maintenance therapy chemotherapeutic dosing for childhood acute lymphoblastic leukemia,” J. Theoretical Biol., 264, 990-1002, 2010.Link
Song, Hyun-Seob and D. Ramkrishna, “Prediction of Metabolic Function from Limited Data: Lumped Hybrid Cybernetic Modeling (L-HCM),” Biotechnol. & Bioeng., 106, 271-284, 2010.Link
Song, Hyun-Seob and D. Ramkrishna, “Issues with Increasing Bioethanol Productivity: A Model Directed Study,” Korean J. Chem. Eng. (Jae-Chun Hyun Special issue), 27, 576-586, 2010.Link
Wong, Wee Chin, Hyun-Seob Song, Jay H. Lee and D. Ramkrishna,“Hybrid Cybernetic Model-Based Simulation of Continuous Production of Lignocellulosic Ethanol: Rejecting Abruptly Changing Feed Conditions, Control Engineering Practice, 18, 177-189, 2010.Link
Chakraborty, J. and D. Ramkrishna, “On Identification of Markov Matrices of Milling Models,” Ind. Eng. Chem. (Kulkarni issue), 48, 9763-9771, 2009.Link
Song, Hyun-Seob and D. Ramkrishna, “When is Quasi-Steady-State Approximation Admissible in Metabolic Modeling? When Admissible, What Models are Desirable?” Ind. Eng. Chem. (Joshi issue), 48, 7976-7985, 2009.Link
Song, Hyun-Seob, J A. Morgan and D. Ramkrishna, “Systematic Development of Hybrid Cybernetic Models: Application to Recombinant Yeast Co-consuming Glucose and Xylose,” Biotechnol & Bioeng., 103, 984-102, 2009.Link
Borchert, C., Nandkishor Nere, D. Ramkrishna, A. Voigt, and K. Sundmacher, “On the Prediction of Crystal Shape Distributions in a Steady State Continuous Crystallizer,” Chem. Eng. Sci., 64, 686-696, 2009.Link
Sherer, Eric, R. E. Hannemann, A. E. Rundell and D. Ramkrishna, “Application of Stochastic Equations of Population Balances to Sterilization Processes,” Chem. Eng, Sci.,64, 764-774, 2009.Link
Song, Hyun-Seob and Doraiswami Ramkrishna, “Reduction of a Set of Elementary Modes by Yield Analysis,” Biotechnol & Bioeng., 102, 554-568, 2009.Link
Ramkrishna, D. and Hyun-Seob Song, “On a Rationale for Monod’s Biochemical Growth Kinetics,” Ind. Eng.Chem. (Varma issue),47, 9090-9098, 2008.Link
Kim, Jin Il, J. D. Varner, and D. Ramkrishna, “A Hybrid Cybernetic Model of Anaerobic E. coli GJT001: Combination of Elementary Flux Modes and Cybernetic Models,” Biotech. Prog., 24, 993-1006, 2008.Link
Sherer, Eric and D. Ramkrishna, “Stochastic Analysis of Death Processes,” Ind. Eng. Chem. (Nauman issue), 47, 3430-3437, 2008.Link
Bhole, M. R., J. B. Joshi and D. Ramkrishna, “CFD simulation of bubble columns incorporating population balance modeling,” Chem Eng. Sci., 63, 2267-2282, 2008.Link
Young, J. D., K. L. Henne, J. A, Morgan, A. E. Konopka and D. Ramkrishna, “Integrating Cybernetic Modeling with Pathway Analysis. A Dynamic Systems Level Description of Metabolic Control,” Biotechnol & Bioeng., 100, 542-559, 2008.Link
Sherer, E., A. E. Rundell, and R. E. Hannemann and D. Ramkrishna, “Determination of Age-Dependent Cell Cycle Transition Rates,” Biotechnol & Bioeng., 99, 960-974, 2008.Link
Nopens, Ingmar, Nandkishor Nere, Peter A. Vanrolleghem and Doraiswami Ramkrishna, “Solving the inverse problem for aggregation in activated sludge flocculation using a population balance framework,” Water Science and Technology, 56, 95-103, 2007.Link
Sherer. E., R. E. Hannemann, A. Rundell, and D. Ramkrishna, “Estimation of likely cancer cure using first and second order product densities of population balance models,” Ann. Bioeng., 35, 903-915, 2007.Link
Nere, Nandkishor, D. Ramkrishna, B. E. Parker and Pankaj Mohan, “Transformation of Chord Length Distributions to Size Distributions for Non-Spherical Particles with Orientation Bias,” Ind. Eng. Chem. (Sharma issue), 46 (10), 3041 -3047, 2007.Link
Bhole, M. R., J. B. Joshi and D. Ramkrishna, “Population Balance Modeling for Bubble Columns Operating in the Homogeneous Regime,” A.I.Ch.E. J., 53, 579-588, 2007.Link
Young, J. D. and D. Ramkrishna, “On the Matching & Proportional Laws of Cybernetic Models,” Biotech.Progress, 23, 83-99, 2007.Link
Ramkrishna, D. and Nere, Nandkishor, “Evolution of Drop Size Distributions in Fully Developed Turbulent Pipe Flow Revisited,” Ind. Eng. Chem, 45, 7673-.7678, 2006.Link
Mahoney, A. and D. Ramkrishna, “Inverse Problems in Population Balances. Determination of Aggregation by Weighted Residuals,” A.I.Ch.E. Jl., submitted.Link
Sherer, E., Rundell, A. E., R. E. Hannemann and D. Ramkrishna, “Analysis of Resonant Chemotherapy in Leukemia Treatment via Multi-Staged Population Balance Models,” J. Theoretical Biol., 240, 648-661, 2006.Link
Nere, Nandkishor and D. Ramkrishna, “Solution of population balance equation with pure aggregation in a fully developed turbulent pipe flow” Chem.Eng.Sci. 61, 96-103, 2006.Link
Qiang Qin, and D. Ramkrishna “The Effect of Operating Conditions on the Dispersion State of Supported Metal Catalysts: A Model Study,” Ind. Eng. Chem. Res., (Dudukovic issue), 44, 6466-6476, 2005.Link
Nere, Nandkishor and D. Ramkrishna, “Evolution of Drop Size Distributions in Fully Developed Turbulent Pipe Flow of a Liquid-Liquid Dispersion by Breakage,” Ind. Eng. Chem., (Wasan issue), 44, 1187-1193, 2005.Link
Namjoshi, A. and D. Ramkrishna, “A Cybernetic Modeling Framework for Analysis of Metabolic Systems,” Computers and Chemical Engineering, 29, 487-498, 2005.Link
Pilon, L., A. G. Federov, D. Ramkrishna and R. Viskanta, “Bubble Transport in Three Dimensional Laminar Gravity-Driven Flow-Mathematical Formulation,” J. Noncrystalline Solids, 336, 71-83, 2004.Link
Young, J., Henne, K., Morgan, J., Konopka, A. E., and D. Ramkrishna, “Rational Design of Recombinant Organisms by the Cybernetic Modeling Approach,” Chem.Eng.Sci., 59, 5041-5049, 2004.Link
Qiang Qin, D. Ramkrishna “Modeling of Surface Structure of Supported Catalysts. Application to Deactivation of FT Reactors,” Ind. Eng. Chem. Res., (Gavalas issue), 43, 2912 -2921, 2004.Link
Kulkarni, A., D. Ramkrishna and J. B. Joshi, “Determination of Bubble Size Distributions by Laser–Doppler Anemometry,” A.I.Ch.E. Jl., 50, 3068-3084, 2004. Link
Ramkrishna, D. and N. R. Amundson, “Mathematics in Chemical Engineering. A Fifty Year Introspection,” A.I.Ch.E. Jl., 50, 1-16, 2004.Link
Ramkrishna, D., “On Aggregating Populations,” Ind.Eng.Chem. Res., (Shinnar special issue), 43, 441-448, 2004.Link
Song, Hyun-Seob, Doraiswami Ramkrishna, Sinh Trinh and Harold Wright, “Operating Strategies for Fischer-Tropsch Reactors. A Model-Directed Study,” Korean J. Chem.Eng., 21, 308-317, 2004.Link
Hamilton, R. A., Jennifer S. Curtis, and Doraiswami Ramkrishna, “Beyond Log-Normal Distributions; A Hermite Spectral Method for Solving Population Balance Equations,” A.I.Ch.E. Jl., 49, 2328-2343, 2003.Link
Namjoshi, A., Kienle, A., & Ramkrishna, D. “Steady-state multiplicity in bioreactors: bifurcation analysis of cybernetic models,” Chem .Eng. Sc., 58, 793-800, 2003.Link
Namjoshi, A., Wei-Shou Hu and Doraiswami Ramkrishna, “Unveiling Steady State Multiplicity in Hybridoma Cultures: The Cybernetic Approach,” Biotech. & Bioeng., 81, 80-91, 2003.Link
Song, Hyun-Seob, Ramkrishna, D., Trinh, S., Espinoza, R. L. & Wright, H “Multiplicity and Sensitivity Analysis of Fischer-Tropsch Bubble Column Slurry Reactors: Plug-Flow Gas and Well-Mixed Slurry Model,” Chem. Eng. Sci., 58, 2759-2766, 2003.Link
Song, Hyun-Seob, Doraiswami Ramkrishna, Sinh Trinh and Harold Wright, “A Diagnostic Nonlinear Analysis of Fischer-Tropsch Synthesis in Stirred Tank Slurry Reactors,” A.I.Ch.E. Jl., 49, 1803-1820, 2003.Link
Lele, Tanmay, Jochen Lauterbach and Doraiswami Ramkrishna, “A Framework for Dynamic Analysis of Physico-Chemical Processes on Catalytic Surfaces with application to CO Oxidation on Pt(1 0 0),” A.I.Ch.E. Jl., 49, 2158-2172, 2003.Link
Ramkrishna, D., “On Bioreactor Models for Control,” Journal of Process Control, 13, 581-589, 2003.Link
Mahoney, A. and Doraiswami Ramkrishna, “Efficient Solution of Population Balance Equations with Discontinuities by Finite Elements,” Chem. Eng .Sci., 57, 1107-1119, 2002.Link
Mahoney, A., F. Doyle and D. Ramkrishna, “Inverse Problems in Population Balances: Growth and Nucleation from Dynamic Data,” A.I.Ch.E. Jl., 48, 981-990, 2002.Link
Ramkrishna, D. and A. Mahoney, “Population Balance Modeling. Promise for the Future,” Chem. Eng. Sci., (Invited Flagship paper), 57, 595-606, 2002.Link
Namjoshi, A. and D. Ramkrishna, “Bifurcation Analysis of Cybernetic Models for Continuous Bioreactors with Mixed Substrate Feeds,” Chem. Eng. Sci., (Mashelkar Festschrift issue), 56, 5593-5607, 2001.Link
Cote, A., W. N. Delgass and D. Ramkrishna, “Spatially Patterned Catalytic Reactors. Feasibility Issues,” Chem. Eng. Sci. Jubilee Volume: ISCRE 16; Chemical Reaction Engineering Beyond 2000, Ed. A. Burghardt, R. Pohorecki and A. Cybulski, Part B. 56, 1011-1019, 2001.Link
Guardia, M. J., A. Gambhir, A. Europa, D. Ramkrishna and Wei-Shou Hu, “Cybernetic Modeling and Regulation of Metabolic Pathways in Multiple Steady States of Hybridoma Cells, Biotechnology Progress, 16, 847-853, 2000.Link
Kumar, S., T. Pirog and D. Ramkrishna, “A New Method for Estimating Creaming/Settling Velocity of Particles in Poly-Dispersed Systems,” Chem. Eng. Sci., 55, 1893-1904, 2000.Link
Varner, J. and D. Ramkrishna, “Mathematical Models of Metabolic Pathways,” Current Opinion in Biotechnology, 10, 146-150, 1999.Link
Cote, A., W. N. Delgass and D. Ramkrishna, “Enhancement of selective conversion in spatially patterned reactors,” Reaction Kinetics and the Development of Catalytic Process Studies in Surface Science and Catalysis,122, 199-206, 1999.Link
Varner, J., D. Ramkrishna and J. E. Bailey, “A Self-Optimizing Adaptive Model of Glucose Catabolism in Escherichia coli. Prediction of Network Response to Amplification of Key Glycolytic Enzymes,” Biotechnology Progress, in press, 1999.Link
Ramakrishna, R., D. Camp, A. E. Konopka and D. Ramkrishna, “Growth of Pseudomonas putida on Naphthalene and Organic Acid Mixtures,” FEMS Microbiology Letters, submitted.Link
Ramkrishna, D. and J. Schell, “On Self-Similar Growth,” J. Biotechnology, 71, 255-258, 1999.Link
Cote, A., W. N. Delgass and D. Ramkrishna, “Investigation of Spatially Patterned Catalytic Reactors,” Chem. Eng. Sci. (ISCRE issue), 54, 2627-2635, 1999.Link
Ramkrishna, D. and R. Aris, “The Beauty of Self-Adjoint Symmetry,” Ind. Eng. Chem. Research (Special Issue in honor of Roy Jackson), 38, 845-850, 1999.Link
Tobin, T. and D. Ramkrishna, “Modeling the Effect of Drop Charge on Coalescence in Turbulent Liquid-Liquid Dispersions,” Can. J. Chem. Eng., 77, 1090-1104, 1999.Link
Varner, J. and D. Ramkrishna, “Nonlinear Analysis of Cybernetic Models-I. Guidelines for Model Formulation,” J. Biotechnol., 71, 67-103, 1999.Link
Levisauskas, D. and D. Ramkrishna, “Application of Cybernetic Models for Solving Biotechnological Problems. Case Study: Optimization of Substrate Degradation Process,” Informacines Technologijos Ir Valdymas, 12, 7-11, 1999.Link
Varner, J. and D. Ramkrishna, Metabolic Engineering From A Cybernetic Perspective: Aspartate Family of Amino Acids,” Metabolic Eng., 1, 88-116, 1999. Link
Varner, J. and D. Ramkrishna, “Metabolic Engineering From A Cybernetic Perspective II. Qualitative Investigation of Nodal Architectures and Their Response to Genetic Perturbation,” Biotechnology Progress, 15, 426-438, 1999.Link
Varner, J. and D. Ramkrishna, “Metabolic Engineering from a Cybernetic Perspective-I. Theoretical Preliminaries,” Biotechnology Progress, 15, 407-425, 1999.Link
Trinh, S. and D. Ramkrishna, “Spatiotemporal Patterns in a Catalytic Reactor,” Ind. Eng. Chem., Ind. & Eng. Chem Res. (L. K. Doraiswamy issue) 37, 2232-2238, 1998.Link
Varner, J. and D. Ramkrishna, “Application of Cybernetic Models to Metabolic Engineering. Investigation of Storage Pathways,” Biotech. & Bioeng., 58, 282-291, 1998.Link
Kumar, S. and D. Ramkrishna, “On the Solution of Population Balance Equations by Discretization-III. Nucleation, Growth and Aggregation of Particles,” Chem. Eng. Sci., 24, 4659-4679, 1997. Link
Krishnaswami, S., D. Ramkrishna and J. M. Caruthers, “Statistical-Mechanically Exact Simulation of Polymer Conformation in an External Field,” J. of Chem. Phys., 107, 5929-5944, 1997.Link
Bandyopadhyaya, R., K. S. Gandhi, R. Kumar and D. Ramkrishna, “Modeling of Precipitation in Reverse Micellar Systems,” Langmuir, 13, 3610-3620, 1997.Link
Trinh, S. and D. Ramkrishna, “Pattern Formation in Fixed Bed Catalytic Reactors – II. Pattern Classes,” Chem. Eng. Sci., 52, 3561-3578, 1997.Link
Ramakrishna, R., A. E. Konopka, and D. Ramkrishna, “Microbial Growth on Substitutable Substrates. Characterizing the Consumer Resource Relationship,” Biotech. & Bioeng., 54, 77-90, 1997.Link
Narang, A., A.E. Konopka and D. Ramkrishna, “Dynamic Analysis of the Cybernetic Model for Diauxic Growth,” Chem. Eng. Sci., 52, 2567-2578, 1997.Link
Narang, A., A.E. Konopka and D. Ramkrishna, “The Dynamics of Microbial Growth in Mixtures of Substrates in Batch Reactors,” J. of Theoretical Biology, 184, 301-317, 1997.Link
Narang, A., A.E. Konopka and D. Ramkrishna, “New Patterns of Mixed Substrate Utilization During Batch Growth of Escherichia coli,” Biotech & Bioeng, 55, 747-757, 1997.Link
Lam, A., A. Sathyagal, S. Kumar and D. Ramkrishna, “On the Maximum Stable Drop Diameter in Stirred Dispersions,” AIChE J., 42, 1547-1552, 1996.Link
Trinh, S. and D. Ramkrishna, “Pattern Formation in Fixed Bed Catalytic Reactors – I.” Chem. Eng. Sci., 21, 4887-4901, 1996.Link
Ramakrishna, R., D. Ramkrishna and A. E. Konopka, “Cybernetic Modeling of Growth in Mixed, Substitutable Substrate Environments. Preferential and Simultaneous Utilization,” Biotech. & Bioeng., 52, 141-151, 1996.Link
Kumar, S. and D. Ramkrishna, “On the Solution of Population Balance Equations by Discretization II,” Chem. Eng. Sci., 51, 1333-1342, 1996.Link
Kumar, S. and D. Ramkrishna, “On the Solution of Population Balance Equations by Discretization I.” Chem. Eng. Sci., 51, 1311-1332, 1996.Link
Kumar, S., G. Narsimhan and D. Ramkrishna, “Coalescence in Creaming Emulsions. Existence of a Creaming-Free Zone,” Ind. & Eng. Chem Res. (Ruckenstein issue), 35, 3155-3162, 1996.Link
Manjunath, S., K.S. Gandhi, R. Kumar, and D. Ramkrishna, “Precipitation in Small Systems – II. Mean Field Equations More Effective than Population Balance,” Chem. Eng. Sci., 51, 4423-4436, 1996.Link
Ramkrishna, D. and K. Yasuda, “Maximizing Selectivity of Liquid-Liquid Reaction Systems. Control of the Dispersion Process,” Chem. Eng. Commns., 147, 119-132, 1996.Link
Sathyagal, A., G. Narsimhan, and D. Ramkrishna, “Droplet breakage in stirred dispersions. Breakage functions from experimental drop-size distributions,” Chem. Eng. Sci., 51, 1377-1391, 1996.Link
Gandhi, K. S., R. Kumar, and D. Ramkrishna, “Some Basic Aspects of Reaction Engineering of Precipitation Processes,” Ind. & Eng. Chem., (BSL Issue), 34, 3223-3230, 1995.Link
Sathyagal, A., D. Ramkrishna, and G. Narsimhan, “Solution of Inverse Problems in Population Balances. II. Particle Break-up,” Computers and Chem. Eng., 19, 437-451, 1995.Link
Ramkrishna, D., A. Sathyagal, and G. Narsimhan, “Analysis of Dispersed Phase Systems. Fresh Perspective,” AIChE J., 41, 35-44, 1995.Link
Liu, Lee-Yin, D. Ramkrishna, and H. Lackritz, “The Rotational Brownian Motion of Chromophores and Electric Field Effects in Polymer Films for Second Order Nonlinear Optics,” Macromolecules, 21, 5987-5999, 1994.Link
Ramkrishna, D., “Toward a Self-Similar Theory of Microbial Populations,” Biotech. & Bioeng., 43, 138-148, 1994.Link
Wright, H. and D. Ramkrishna, “Factors Affecting Coalescence Frequency of Droplets in Stirred Liquid-Liquid Dispersion,” A.I.Ch.E. J., 40, 676-686, 1994.Link
Manjunath, S., K.S. Gandhi, R. Kumar and D. Ramkrishna, “Precipitation in Small Systems – I. Stochastic Analysis,” Chem. Eng. Sci., Vol. 49(9), 1451-1463, 1994.Link
Trinh, S. and D. Ramkrishna, “Feasibility of Pattern Formation in Catalytic Reactors,” Chem. Eng. Sci, Vol. 49(1), 158-1599, 1994.Link
Straight, J.V. and D. Ramkrishna, “Cybernetic Modeling and Regulation of Metabolic Pathways. Application to Growth under Multiply-Limiting Conditions,” Biotech. Progress, 10, 588-605, 1994.Link
Straight, J.V. and D. Ramkrishna, “Cybernetic Modeling and Regulation of Metabolic Pathways. Application to Growth on Complementary Substrates,” Biotech. Progress, 10, 574-587, 1994.Link
Muralidhar, R. and D. Ramkrishna, “Diffusion in Pore Fractals. A Review of Linear Response Models,” Journal of Transport in Porous Media, 13, 79-95, 1993.Link
Wright, H. and D. Ramkrishna, “On the Upper Critical Dimension for Aggregation Processes,” Phys. Rev. E, 47, 3225-3230, 1993.Link
Wright, H. and D. Ramkrishna, “Solution of Inverse Problems in Population Balances – I. Aggregation Kinetics,” Computers in Chem. Eng., 16, 1019-1038, 1992.Link
Tobin, T., D. Ramkrishna and R. Muralidhar, “An Investigation of Drop Charge Effects on Coalescence in Agitated Liquid-Liquid Dispersions,” in Process Mixing: Chemical & Biochemical Applications, Eds. G. B. Tatterson and R. V. Calabrese, A.I.Ch.E. Symposium Series, 88, 60-64, 1992.Link
Tobin, T. and D. Ramkrishna, “Coalescence of Charged Droplets in Agitated Liquid-Liquid Dispersions,” AIChE J., 38, 1199-1205, 1992.Link
Arce, P. and D. Ramkrishna, “Modelling of Catalytic Reactors. Interaction Between Fluid and Particles – Some New Problems,” Latin American Applied Res., 22, 63-89, 1992.Link
Wright, H., R. Muralidhar, and D. Ramkrishna, “Aggregation Frequencies of Fractal Clusters,” Phys.Rev. A, 46, 5072-5083, 1992. Link
Muralidhar, R., D. Jacobs, D. Ramkrishna, and H. Nakanishi, “Diffusion on Two-Dimensional Percolation Clusters. Influence of Cluster Anisotropy,” Phys. Rev. A, 43, 6503-6517, 1991.Link
Ramkrishna, D. and P. Arce, “Some Further Observations on Heterogeneous Catalytic Reactor Models. Pattern Formation in Catalytic Reactors,” Chem. Eng. Sc., 46, 3123-3128, 1991.Link
Baloo, S. and D. Ramkrishna, “Metabolic Regulation in Continuous Cultures of Bacteria-II,” Biotech. & Bioeng. 38, 1353-1363, 1991.Link
Baloo, S. and D. Ramkrishna, “Metabolic Regulation in Continuous Cultures of Bacteria-I,” Biotech. & Bioeng. 38, 1337-1352, 1991.Link
Alexander, Matthew L. and D. Ramkrishna, “Cybernetic Modeling of Iron-Limited Growth and Siderophore Production,” Biotech. & Bioeng., 38, 637-652, 1991.Link
Alexander, M.L. and D. Ramkrishna, “Iron-Limited Growth and Siderophore Production,” by Eschericia coli, J. Appl. & Environmental Microbiology, under revision.Link
Arce, P. and D. Ramkrishna, “Pattern Formation in Catalytic Reactors-I. Role of Fluid Mixing,” AIChE J., 37, 98-110, 1991.Link
Straight, J.V. and D. Ramkrishna, “Complex Growth Dynamics in Batch Cultures. Experiments and Cybernetic Models,” Biotech. & Bioeng., 37, 895-909, 1991.Link
Muralidhar, R., D. Ramkrishna, D. Jacobs and H. Nakanishi, “Anomalous Diffusion. A Dynamic Perspective,” Physica A, 167, 539-559, 1990.Link
Tobin, T., R. Muralidhar, H.A. Wright, and D. Ramkrishna, “Determination of Coalescence Frequencies in Liquid-Liquid Dispersions: Effect of Drop Size Dependence,” Chem. Eng. Sci., 45, 3491-3504, 1990.Link
Wright, H.A., R. Muralidhar, T.G. Tobin, and D. Ramkrishna, “Inverse Problems of Aggregation Processes,” J. Stat. Phys., 61, 843-863, 1990.Link
Straight, J.V., D. Ramkrishna, S.J. Parulekar and N.B. Jansen, “Bacterial Growth on Lactose. An Experimental Investigation,” Biotech. & Bioeng. 34, 705-717, 1989.Link
Muralidhar, R. and D. Ramkrishna, “Inverse Problems in Agglomeration Kinetics – II. Non-homogeneous Kernels,” J. Colloid & Interface Sci. 131, 503-513, 1989.Link
Ramkrishna, D. and P. Arce, “Can Pseudohomogeneous Reactor Models be Valid?” Chem. Eng. Sci., 44, 1949-66, 1989.Link
Turner, B.G., D. Ramkrishna and N.B. Jansen, “Maintenance Energy Requirements in Single Substrate Bacterial Cultures. Cybernetic Models versus Experiments,” Biotech. Bioeng. 34, 252-261, 1989.Link
Turner, B.G. and D. Ramkrishna, “A Revised Enzyme Synthesis Rate Expression in Cybernetic Models of Bacterial Growth,” Biotech. Bioeng., 31, 41-43, 1988.Link
Turner, B.G., D. Ramkrishna and N.B. Jansen, “Maintenance Energy Requirements in Mixed Substrate Bacterial Cultures. Cybernetic Models versus Experiments,” Biotech. Bioeng. 32, 46-54, 1988.Link
Muralidhar, R., D. Ramkrishna, P.K. Das and R. Kumar, “Coalescence of Rigid Drops in Stirred Dispersions – II. Band-Limited Force Fluctuations,” Chem. Eng. Sci., 43, 1559-1568, 1988.Link
Ramkrishna, D. and P. Arce, “Self-Adjoint Operators of Transport in Interacting Solid-Fluid Systems – II,” Chem. Eng. Sci., 43, 933-944, 1988.Link
Ramkrishna, D. and N.R. Amundson, “More on Oblique Derivative Boundary Value Problems,” Chem. Eng. Comm., 58, 397-411, 1987.Link
Das, P.K., D. Ramkrishna and G. Narsimhan, “Effect of Mass Transfer on Droplet Break-up,” AIChE J., 33, 1899-1902, 1987.Link
Ramkrishna, D., D.S. Kompala and G.T. Tsao, “Are Microbes Optimal Strategists?” Biotechnology Progress, 3, 121-126, 1987.Link
Muralidhar R., Gustafson, S. and D. Ramkrishna, “Population Balance Modeling of Bubbling Fluidized Bed Reactors – II. Axially Dispersed Dense Phase,” Sadhana, 10, 69-86, 1987.Link
Ramkrishna, D., L.L. Levine and B. Drew, “Calendering of Viscoelastic Fluids. An Exact Analysis of the Maxwell Model under the Lubrication Approximation,” J. Non-Newtonian Fluid Mech. (under revision).Link
Ramkrishna, D., “On the Completeness of Smith’s Eigenfunctions for Problems in Stokes Flow and Elasticity,” Archives for Rational Mechanics and Analysis, under revision.Link
Parulekar, S.J., D. Ramkrishna, N.R. Amundson, and R. Flummerfelt, “Interfacial Surfactant Concentrations in an Oscillating Droplet,” Chem. Eng. Sci., 42, 2447-2454, 1987.Link
Sweet, I.R., Gustafson, S. and D. Ramkrishna, “Population Balance Modeling of Bubbling Fluidized Bed Reactors – I. Well-Stirred Dense Phase,” Chem. Eng. Sci., 42, 341-351, 1987.Link
Das, P.K., R. Kumar and D. Ramkrishna, “Coalescence of Drops in Stirred Dispersions. A White Noise Model for Coalescence,” Chem. Eng. Sci., 42, 213-220, 1987.Link
Muralidhar, R. and D. Ramkrishna, “Analysis of Coalescence in Turbulent Liquid-Liquid Dispersions,” I&EC Fundam., 25, 554-560, 1986.Link
Arce, P. and D. Ramkrishna, “Self-Adjoint Operators of Transport in Interacting Solid-Fluid Systems,” Chem. Eng. Sci., 41, 1539-1548, 1986.Link
Kompala, D.S., D. Ramkrishna., N.B. Jansen and G.T. Tsao, “Investigation of Bacterial Growth on Mixed Substrates. Experimental Evaluation of Cybernetic Models,” Biotech. & Bioeng., 28, 1044-1056, 1986.Link
Turner, B. G. and D. Ramkrishna, “Multicomponent Diffusion and Reaction. Selectivity of First Order Systems in a Tubular Reactor,” I&EC Fundam., 25, 258-265, 1986.Link
Muralidhar, R. and D. Ramkrishna, “An Inverse Problem in Agglomeration Kinetics,” J. Colloid & Interface Sci., 112, 348-361, 1986.Link
Sampson, K.J. and D. Ramkrishna, “Particle Size Correlations in Brownian Agglomeration. Closure Hypotheses for Product Density Equations,” J. Colloid & Interface Sci., 110, 410-423, 1986.Link
Ramkrishna, D., “The Status of Population Balances,” Chem. Eng. Rev., 3, 49-95, 1985.Link
Sampson, K.J. and D. Ramkrishna, “Particle Size Correlations and the Effects of Limited Mixing on Agglomerating Particle Systems,” J. Colloid & Interface Science, 104, 269-276, 1985.Link
Sampson, K.J. and D. Ramkrishna, “A New Solution to the Brownian Coagulation Equation through the Use of Root-Shifted Problem-Specific Polynomials,” J. Colloid & Interface Science, 103, 245-254, 1985.Link
Dhurjati, P., D. Ramkrishna, M.C. Flickinger and G.T. Tsao, “A Cybernetic View of Microbial Growth-I. Modelling of Cells as Optimal Strategists.” Biotech. & Bioeng. 27, 1-9, 1985.Link
Kompala, D., D. Ramkrishna and G.T. Tsao, “Cybernetic Modelling of Microbial Growth on Multiple Substrates-II,” Biotech. & Bioeng., 26, 1272-1281, 1984.Link
Parulekar, S.J. and D. Ramkrishna, “Transients in Adiabatic Tubular Reactors. Axial Dispersion Models with Well-Mixed Appended Sections,” Chem. Eng. Sci., 39, 1785-1790, 1984.Link
Parulekar, S.J. and D. Ramkrishna, “Analysis of Axially Dispersed Systems with General Boundary Conditions-III. Solution for Unmixed and Well-Mixed Appended Sections,” Chem. Eng. Sci., 39, 1599-1611, 1984.Link
Parulekar, S.J. and D. Ramkrishna, “Analysis of Axially Dispersed Systems with General Boundary Conditions-II. Solution for Dispersion in Appended Sections,” Chem. Eng. Sci., 39, 1581-1597, 1984.Link
Parulekar, S.J. and D. Ramkrishna, “Analysis of Axially Dispersed Systems with General Boundary Conditions-I. Formulation,” Chem. Eng. Sci., 39, 1571-1579, 1984.Link
Parulekar, S.J. and D. Ramkrishna, “Tubular Reactor Stability Revisited without Danckwerts Boundary Conditions,” Chem. Eng. Sci., 39, 455-469, 1984.Link
Narsimhan, G., Nejfelt, G. and D. Ramkrishna, “Breakage Functions for Droplets in Agitated Liquid-Liquid Dispersions,” AIChE J., 30, 457-467, 1984.Link
Agrawal, P., H.C. Lim and D. Ramkrishna, “An Extended Bottleneck Model: Accounting for the Metabolic Turnover Effect in Microorganisms,” J. Chem. Technol. Biotechnol., (33B), 155-163, 1983.Link
Ramkrishna, D., “Operator-Theoretic Methods in Heat and Mass Transfer Problems,” Advances in Transport Processes, Edited by A.S. Mujumdar and R.A. Mashelkar, Halsted Press, NY, Vol. III, 387-439, 1983.Link
Ramkrishna, D., “A Cybernetic Perspective of Microbial Growth,” in Foundations of Biochemical Engineering: Kinetics and Thermodynamics in Biological Systems, American Chemical Society Publication, 1982.Link
Agrawal, P., C. Lee, H.C. Lim and D. Ramkrishna, “Theoretical Investigations of Dynamic Behavior of Isothermal Continuous Stirred Tank Biological Reactors,” Chem. Eng. Sci., 37, 453-462, 1982.Link
Parulekar, S.J. and D. Ramkrishna, “A Spectral-Theoretic View of Axial Dispersion Models,” in Residence Time Distribution Theory in Chemical Engineering, Edited by A. Petho and R.D. Noble, Verlag Chemie, Weinheim, 113-146, 1982.Link
Ramkrishna, D. and N.R. Amundson, “A Nonselfadjoint Problem in Heat Conduction,” J. Heat Transfer, 104, 185-190, 1982.Link
Papoutsakis, E., and D. Ramkrishna, “Conjugated Graetz Problems. II. Fluid-Fluid Problems,” Chem. Eng. Sci., 36, 1393-1399, 1981.Link
Papoutsakis and D. Ramkrishna, “Conjugated Graetz Problems. I. General Formalism and a Class of Solid-Fluid Problems,” Chem. Eng. Sci., 36, 1381-1391, 1981.Link
Papoutsakis, E., D. Ramkrishna, “Heat Transfer in a Capillary Flow Emerging from a Reservoir,” J. of Heat Transfer, 103, 429-435, 1981.Link
Ramkrishna, D., “Analysis of Population Balance-IV. The Precise Connection Between Population Balance and Monte Carlo Simulation,” Chem. Eng. Sci., 36, 1203-1209, 1981.Link
Ramkrishna, D., G. Narsimhan and N.R. Amundson, “Boundary Value Problems in Transport with Oblique and Mixed Derivative Boundary Conditions. More on Steady State Solution,” Chem. Eng. Sci., 36, 199-207, 1981.Link
Hibbard, J.L. and D. Ramkrishna, “Analysis of Phase Transfer Catalytic Reactions in Liquid-Liquid Systems,” in Process and Fundamental Considerations of Selected Hydrometallurgical Systems, Ed. M.C. Kuhn, Society of Mining Engineers of American Institute of Mining, Metallurgical, and Petroleum Engineers, Inc., New York, 281- 289, 1981.Link
Narsimhan, G., D. Ramkrishna and J.P. Gupta, “Analysis of Dropsize Distribution in Stirred Liquid-Liquid Dispersions,” AIChE J., 26, 991-1000, 1980.Link
Papoutsakis, E., D. Ramkrishna and H.C. Lim, “The Extended Graetz Problem with Neumann Wall Boundary Conditions,” AIChE J., 26, 779-787, 1980.Link
Papoutsakis, E., D. Ramkrishna and H.C. Lim, “The Extended Graetz Problem with Dirichlet Wall Boundary Conditions,” Appl. Sci. Res., 36, 13-34, 1980.Link
Ramkrishna, D. and N.R. Amundson, “Boundary Value Problems in Transport with Mixed and Oblique Derivative Boundary Conditions. Steady State and Transient Solutions,” Chem. Eng. Sci., 35, 577-589, 1980.Link
Ramkrishna, D., “Normal Operators in Chemical Engineering,” Proceedings of the Second International Conference on Mathematical Modelling, Vol. I, 645-655, 1979.Link
Ramkrishna, D., “Statistical Models of Cell Populations,” Advances in Biochemical Engineering, Ed. A. Fiechter and T.K. Ghose, vol. 11, 1-47, 1979.Link
Feijoo, L., H.T. Davis and D. Ramkrishna, “Heat Transfer in Composite Solids,” J. Heat Transfer., 101, 137-143, 1979.Link
Narsimhan, G., J.P. Gupta and D. Ramkrishna, “A Model for Transitional Breakage Probability of Droplets in Agitated Lean Liquid-Liquid Dispersions,” Chem. Eng. Sci., 34, 257-265, 1979.Link
Ries, J.F.G., D. Ramkrishna and E.N. Lightfoot, “Convective Mass Transfer in the Presence of Polarizing Fields. Application to Dispersion in Hollow Fiber Electropolarization Chromatography.” AIChE J., 24, 679-686, 1978.Link
Ramkrishna, D. and N.R. Amundson, “Boundary Value Problems with Mixed and Oblique Derivative Boundary Conditions. Reduction to First Order Systems,” Chem. Eng. Sci., 34, 309-318, 1979.Link
Ramkrishna, D. and N.R. Amundson, “Boundary Value Problems with Mixed and Oblique Derivative Boundary Conditions. Reduction to Integral Equations,” Chem. Eng. Sci., 34, 301-308, 1979.Link
Shah, B.H., D. Ramkrishna and J.D. Borwanker, “Simulation of Particulate Systems Using the Concept of Interval of Quiescence,” AIChE J., 23, 897-904, 1977.Link
Bajpai, R.K., D. Ramkrishna and A. Prokop, “Effect of Drop-Interactions on Hydrocarbon Fermentation Yields,” Biotech. & Bioeng., XIX, 1761-1772, 1977.Link
Sheth, M., D. Ramkrishna and A.G. Fredrickson, “Stochastic Models of Algal Photosynthesis in Turbulent Channel Flow,” AIChE J., 23, 794-804, 1977.Link
Shah, B.H., D. Ramkrishna, and J.D. Borwanker, “A Simulative Analysis of Agglomerating Bubble Populations in a Fluidized Bed,” Chem. Eng. Sci., 32, 1419-1425, 1977.Link
Ramkrishna, D., “Statistical Foundation of Segregated Models of Cell Populations,” paper presented at 70th Annual Meeting of AIChE, New York, 1977.Link
Singh, P.N. and D. Ramkrishna, “Solution of Population Balance Equations,” Computers and Chemical Engineering, 1, 23-31, 1977.Link
Ramkrishna, D., B.H. Shah and J.D. Borwanker, “Analysis of Population Balance – III. Agglomerating Populations,” Chem. Eng. Sci., 31, 435-442, 1976.Link
Bajpai, R.K., D. Ramkrishna and A. Prokop, “A Coalescence Redispersion Model for Dropsize Distributions in an Agitated Vessel,” Chem. Eng. Sci., 31, 913-920, 1976.Link
Shah, B.H., J.D. Borwanker and D. Ramkrishna, “Monte Carlo Simulation of Microbial Population Growth,” Math. Biosci., 31, 1-23, 1976.Link
Bajpai, R. K., A. Prokop and D. Ramkrishna, “Generalized Drop Size Distribution in Hydrocarbon Fermenters,” Folia Microbiologica, 20, 67-68, 1975.Link
Bajpai, R.K., D. Ramkrishna and A. Prokop, “Coalescence Frequencies in Waldhof-Agitated Systems,” Biotech. & Bioeng., XVII, 1697-1703, 1975.Link
Bajpai, R.K., A. Prokop and D. Ramkrishna, “Dispersions in Hydrocarbon Fermentation. A Retrospective Study,” Biotech. & Bioeng., 17, 541-556, 1975.Link
Singh, P.N. and D. Ramkrishna, “Transient Solution of the Brownian Coagulation Equation by Problem-Specific Polynomials,” J. Colloid & Interface Sci., 53, 214-223, 1975.Link
Ramkrishna, D. and N.R. Amundson, “On Vibration Problems with Discretely Distributed Loads – A. Rigorous Formalism,” J. Appl. Mechanics, 41, 1106-112, 1974.Link
Ramkrishna, D. and J.D. Borwanker, “A Puristic Analysis of Population Balance – II,” Chem. Eng. Sci., 29, 1711-1721, 1974.Link
Ramkrishna, D. and N.R. Amundson, “Stirred Pots, Tubular Reactors, and Self Adjoint Operators,” Chem. Eng. Sci., 29, 1353-1361, 1974.Link
Ramkrishna, D. and N.R. Amundson, “Transport in Composite Materials: Reduction to a Self Adjoint Formalism,” Chem. Eng. Sci., 29, 1457-1464, 1974.Link
Rao, N.J., D. Ramkrishna and J.D. Borwanker, “Stochastic Simulation of Stirred Tank Reactors,” Chem. Eng. Sci., 29, 1193-1204, 1974.Link
Rao, N.J., J.D. Borwanker and D. Ramkrishna, “Numerical Solution of Ito Integral Equations,” S.I.A.M.J. on Control, 12, 124-139, 1974.Link
Ramkrishna, D., “On Droplet Breakage Phenomena in Liquid-Liquid Dispersions,” Chem. Eng. Sci., 29, 987-992, 1974.Link
Ramkrishna, D. and J.D. Borwanker, “A Puristic Analysis of Population Balance – I,” Chem. Eng. Sci., 28, 1423-1435, 1973.Link
Ramkrishna, D., “On Problem-Specific Polynomials,” Chem. Eng. Sci., 28, 1362-1365, 1973.Link
Ramkrishna, D. and N.R. Amundson, “Self-Adjoint Operators from Selected Nonsymmetric Matrices; Application to Kinetics and Rectification,” Chem. Eng. Sci., 28, 601-605, 1973.Link
Shah, B.H. and D. Ramkrishna, “A Population Balance Model for Mass Transfer in Lean Liquid-Liquid Dispersions,” Chem. Eng. Sci., 28, 389-399, 1973.Link
Ramkrishna, D., “Population Balance Modeling of Mass Transfer in Lean Liquid-Liquid Dispersions,” Paper presented at the 71st AIChE Meeting held at Dallas, Texas in February 1972.Link
Fredrickson, A.G., D. Ramkrishna and H.M. Tsuchiya, “The Necessity of Including ‘Structure’ in Mathematical Models of Unbalanced Microbial Growth,” Chem. Eng. Prog. (Symposium Series), 67, No. 108, 53-59, 1971.Link
Ramkrishna, D., “Solution of Population Balance Equations,” Chem. Eng. Sci., 26, 1134-1136, 1971.Link
Subramanian, G., D. Ramkrishna, A.G. Fredrickson and H.M. Tsuchiya, “On the Mass Distribution Model for Microbial Cell Populations,” Bull. Math. Biophys., 32, 521-537, 1970.Link
Subramanian, G., and D. Ramkrishna, “On the Solution of Statistical Models of Cell Populations,” Math. Biosci., 10, 1-23, 1971.Link
Fredrickson, A.G., D. Ramkrishna and H.M. Tsuchiya, “Statistics and Dynamics of Procaryotic Cell Populations,” Math. Biosci., 1, 327-374, 1967.Link
Ramkrishna, D., A.G. Fredrickson and H.M. Tsuchiya, “On Relationships Between Various Distribution Functions in Balanced Unicellular Growth,” Bull, Math. Biophys., 30, 319-323, 1968.Link
Ramkrishna, D., A.G. Fredrickson and H.M. Tsuchiya, “Dynamics of Microbial Propagation: Models Considering Endogenous Metabolism,” J. Gen. Appl. Microbiol., 12, 311-327, 1966.Link
Ramkrishna, D., A.G. Fredrickson and H.M. Tsuchiya, “Dynamics of Microbial Propagation: Models Considering Inhibitors and Variable Cell Composition,” Biotech. & Bioeng., 9, 129-170, 1967.Link
Ramkrishna, D., A.G. Fredrickson and H.M. Tsuchiya, “The Dynamics of Microbial Growth; A Distributed Structured Model,” J. Ferm. Technol., 44, 210-217, 1966.Link
Ramkrishna, D., A.G. Fredrickson, and H.M. Tsuchiya, “The Dynamics of Microbial Growth; A Distributed, Unstructured Model,” J. Ferm. Technol., 44, 203-210, 1966.Link