Tutkijatohtori Srujal Shah

E-mail: Srujal.Shah@lut.fi
Mobile phone: +358503231208
ORCID ID: 0000-0003-1795-3230 (Go to ORCID profile)

Current Organisation
Thermodynamics (Superior organisation: Laboratory of Energy Technology)

Research Interest
Multiphase Flow
Computational Fluid Dynamics
Discrete Element Method
Modeling and Simulations

Publications
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Deviation of continuum formulation for solid-solid momentum transfer rate in terms of spatial averaging in mixtures with large particle size ratios (2020)
A1 Journal article (refereed), original research
Shah Srujal, Jalali Payman
Powder Technology
Failure of confined granular media due to pullout of an intruder: from force networks to a system wide response (2020)
A1 Journal article (refereed), original research
Shah Srujal, Cheng Chao, Jalali Payman, et al.
Soft Matter
CFD modeling of gas-solids flow in a large scale circulating fluidized bed furnace (2015)
A1 Journal article (refereed), original research
Shah Srujal, Myöhänen Kari, Kallio Sirpa, et al.
Powder Technology
CFD simulations of gas-solid flow in an industrial-scale circulating fluidized bed furnace using subgrid-scale drag models (2015)
A1 Journal article (refereed), original research
Shah Srujal, Myöhänen Kari, Kallio Sirpa, et al.
Particuology
Interphase mass transfer coefficient in fluidized bed combustion by Eulerian CFD modeling (2014)
A1 Journal article (refereed), original research
Vepsäläinen Ari, Shah Srujal, Ritvanen Jouni, et al.
Chemical Engineering Science
Bed Sherwood Number and Chemical Kinetic Coefficient in a Fuel Reactor of Chemical Looping Combustion by Eulerian CFD Modeling (2013)
A4 Conference proceedings
Vepsäläinen Ari, Shah Srujal, Peltola Petteri, et al.
Bed Sherwood number in fluidized bed combustion by Eulerian CFD modeling (2013)
A1 Journal article (refereed), original research
Vepsäläinen Ari, Shah Srujal, Ritvanen Jouni, et al.
Chemical Engineering Science
Numerical Modeling of Gas-Solids Flow in Large Scale Circulating Fluidized Bed Using Subgrid-scale Model (2013)
A4 Conference proceedings
Shah Srujal, Myöhänen Kari, Klajny Marcin, et al.
Wall effects on space averaged two-fluid model equations for simulations of gas-solid flows in risers (2013)
A1 Journal article (refereed), original research
Shah Srujal, Ritvanen Jouni, Hyppänen Timo, et al.
Chemical Engineering Science
Analysis and validation of space averaged drag model for numerical simulations of gas-solid flows in fluidized beds (2012)
G4 Doctoral dissertation (monograph)
Shah, Srujal
Acta Universitatis Lappeenrantaensis




Last updated on 2020-24-09 at 05:02