Qiya Shu

Person

Qiya Shu

M.Sc.
Institute of Heat and Mass Transfer

Address

Building: 1225

Room: 307

Augustinerbach 6

52056 Aachen

Contact

WorkPhone
Phone: +49 241 80 97468
 

Functions and Competences

Personal skills

  • Numerical Fluid Dynamics (CFD)
  • MATLAB analysis for fluid and heat transfer

Fields of application

  • Nanofluids
  • Heat exchange system for car battery

Current projects

  • MobilEM - Investigation of Heat Transfer Enhancement by Hybrid Nanofluids through Numerical Methods with Validations

 

Publications

Title Author(s)
Thermal convection enhancement of laminar particle-laden duct flows : A fully resolved numerical investigation
Poster (2023)
Shu, Qiya (Corresponding author)
Rietz, Manuel
Kneer, Reinhold
Rohlfs, Wilko
Effective thermal conductivity simulations of suspensions containing non-spherical particles in shear flow
Journal Article (2023)
Shu, Qiya (Corresponding author)
Pan, L.
Kneer, Reinhold
Rietz, Manuel
Rohlfs, Wilko
Saturation Mechanisms of the Effective Thermal Conductivity of a Suspension with Spherical and Ellipsoid Particles
Poster (2023)
Shu, Qiya (Corresponding author)
Kneer, Reinhold
de Doncker, Rik W.
LBM-DEM-FEM coupling model : an efficient FSI method to investigate convective heat transfer through non-spherical particle suspensions with particle rotations
Abstract (2021)
Shu, Qiya
Pan, Lin
Kneer, Reinhold
Rohlfs, Wilko
HEATQUIZ: From a Digital Teaching Application to an Alternative Large-Scale Online Examination Tool During the COVID-19 Pandemic
Contribution to a book, Contribution to a conference proceedings (2021)
Rohlfs, Wilko (Corresponding author)
Alarouri, Mohannad Sameer Ahmad
Askarizadeh Ravizi, Hossein
Axt, Christian
Ferreira Motta Barbosa, Luis Felipe
Bieber, Malte
Cammiade, Liam Maurice Francis
Göttlich, Tim
Gövert, Benjamin Maximilian
Grunewald, Mathias Michael Engelbert
Helmig, Thorsten
Karakus, Hacer
Koch, Matthias
Maßmeyer, Anna Lisa
Niehoff, Martin
Pielsticker, Stefan
Pour Karimi, Atefeh
Rietz, Manuel
Schumacher, Leif
Shu, Qiya
Stöckermann, Manuel
Süß, Henriette
Kneer, Reinhold
Influence of high shear on the effective thermal conduction of spherical micro- and nanoparticle suspensions in view of particle rotation
Journal Article (2021)
Shu, Qiya
Kneer, Reinhold
Rohlfs, Wilko (Corresponding author)
Influence of high shear on the effective thermal conduction of nanofluids in view of the particle rotation
Abstract, Contribution to a conference proceedings (2021)
Shu, Qiya
Kneer, Reinhold
Rohlfs, Wilko
Influence of High Shear Induced Particle Rotation on Effective Thermal Conductivity of Nanofluids
Poster (2021)
Shu, Qiya (Corresponding author)
Kneer, Reinhold
Rohlfs, Wilko