个人简介
Bala Subramaniam is the Dan F. Servey Distinguished Professor of Chemical Engineering at the University of Kansas (KU). Subramaniam earned a B.Tech. degree in Chemical Engineering from the University of Madras, India and his Ph. D. in Chemical Engineering from the University of Notre Dame. He has also held visiting professorships at the University of Nottingham, United Kingdom and the Institute of Process Engineering, ETH, Zürich, Switzerland.
研究领域
Catalytic Reaction Engineering for Sustainable Fuels and Chemicals Production; Exploiting Supercritical and Gas-Expanded Liquids in Crystallization and Benign Chemicals Processing.
近期论文
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B. Subramaniam and M. A. McHugh, "Reactions in Supercritical Fluids - A Review," Industrial and Engineering Chemistry Process Design and Development, 25, 1-12 (1986)
G. Musie, M. Wei, B. Subramaniam, D. H. Busch, “Catalytic Oxidations in Carbon Dioxide-Based Reaction Media, including Novel CO2-Expanded Phases”, Coordination Chemistry Reviews, 219-221, 789-820 (2001).
B. Subramaniam, C. J. Lyon and V. Arunajatesan, “Environmentally-Benign Multiphase Catalysis,” Applied Catalysis B: Environmental, 37, 279-292 (2002).
P.G. Jessop and B. Subramaniam, “Gas-Expanded Liquids,” Chemical Reviews, 107, 2666-2694 (2007).
B. Subramaniam, B. Subramaniam, “Gas-Expanded liquids for sustainable catalysis and novel materials,” Coordination Chemistry Reviews, 254, 1843-1853 (2010).
B. Subramaniam and G. R. Akien, “Sustainable Catalytic Reaction Engineering with Gas-Expanded Liquids,” Current Opinion in Chemical Engineering. 1 (3), 336-341 (2012).
B. Subramaniam, R. V. Chaudhari, A. S. Chaudhari, G. R. Akien and Z. Xie, “Supercritical Fluids and Gas-expanded Liquids as Tunable Media for Multiphase Catalytic Reactions,” Chemical Engineering Science. 115, 3-18 (2014).
B. Subramaniam, “Perspectives on Exploiting Near-Critical Fluids for Energy-Efficient Catalytic Conversion of Emerging Feedstocks,” The Journal of Supercritical Fluids, 96, 96-102 (2015).
B. Subramaniam, R. K. Helling and C. J. Bode, “Quantitative sustainability analysis: A powerful tool to develop resource-efficient catalytic technologies,” ACS Sustainable Chemistry and Engineering (Invited Feature Article), 4, 5859-5865 (2016)
B. Subramaniam, “Chemical Process Intensification with Pressure-Tunable Media,” Theoretical Foundations of Chemical Engineering, 51(6), 928-935 (2017).
S. Saim and B. Subramaniam, "Isomerization of 1-hexene on a Pt/g-Al2O3 Catalyst at Subcritical and Supercritical Conditions: Temperature and Pressure Effects on Catalyst Activity," Journal of Supercritical Fluids, 3, 214-21 (1990).
S. Saim and B. Subramaniam, "Isomerization of 1-hexene on a Pt/g-Al2O3 Catalyst: Reaction Mixture Density and Temperature Effects on Catalyst Effectiveness Factor, Coke Laydown and Catalyst Micromeritics", Journal of Catalysis, 131, 445-56 (1991).
S. Baptist-Nguyen and B. Subramaniam, "Coking and Activity of Porous Catalysts in Supercritical Reaction Media", AIChE Journal, 38, 1027-37 (1992).
B. Subramaniam and B. J. McCoy, "Catalyst Activity Maintenance or Decay: A Model for Formation and Desorption of Coke," Industrial and Engineering Chemistry Research, 33, 504-508 (1994).
B. J. McCoy and B. Subramaniam, "Continuous-Mixture Kinetics of Coke Formation from Olefinic Oligomers", AIChE Journal, 41, 317-323 (1995).
D. M. Ginosar and B. Subramaniam, "Olefinic Oligomer and Cosolvent Effects on the Coking and Activity of a Reforming Catalyst in Supercritical Reaction Mixtures," Journal of Catalysis, 152, 31-41 (1995).
M. C. Clark and B. Subramaniam, "1-Hexene Isomerization on a Pt/g-Al2O3 Catalyst: The Dramatic Effects of Feed Peroxides on Catalyst Activity", Chemical Engineering Science, 51, 2369-2377 (1996).
M. C. Clark and B. Subramaniam, “Intrinsic Kinetics of Pt/g-Al2O3 Catalyzed 1-Hexene Isomerization at Supercritical Conditions,” AIChE Journal, 45, 1559-65 (1999).
B. Subramaniam, “Enhancing the Stability of Porous Catalysts with Supercritical Reaction Media,” Applied Catalysis A: General, 212/1-2, 199-213 (2001).
V. Arunajatesan, K. A. Wilson and B. Subramaniam, “Pressure-tuning the Effective Diffusivity of Near-critical Reaction Mixtures in Mesoporous Catalysts,” Industrial and Engineering Chemistry Research, 42, 2639-2643 (2003).