Objects
Abe, Hiroyuki, Antonia, Robert Anthony. Cambridge University Press; 2017. Relationship between the heat transfer law and the scalar dissipation function in a turbulent channel flow.
Abe, Hiroyuki, Antonia, Robert Anthony. Elsevier; 2019. Mean temperature calculations in a turbulent channel flow for air and mercury.
Abe, Hiroyuki, Antonia, Robert Anthony, Kawamura, Hiroshi. Cambridge University Press; 2009. Correlation between small-scale velocity and scalar fluctuations in a turbulent channel flow.
Abe, Hiroyuki, Antonia, Robert Anthony. American Institute of Physics; 2009. Near-wall similarity between velocity and scalar fluctuations in a turbulent channel flow.
Antonia, Robert Anthony, Abe, Hiroyuki, Kawamura, Hiroshi. Cambridge University Press; 2009. Analogy between velocity and scalar fields in a turbulent channel flow.
Djenidi, Lyazid, Antonia, Robert A., Talluru, Murali K., Abe, Hiroyuki. American Physical Society; 2017. Skewness and flatness factors of the longitudinal velocity derivative in wall-bounded flows.
Abe, Hiroyuki, Antonia, Robert Anthony. Cambridge University Press; 2016. Relationship between the energy dissipation function and the skin friction law in a turbulent channel flow.
Antonia, Robert Anthony, Abe, Hiroyuki. Academia Delle Scienze di Torino; 2009. Analogy between small-scale velocity and passive scalar fields in a turbulent channel flow.
Abe, Hiroyuki, Antonia, Robert Anthony, Toh, Sadayoshi. Cambridge University Press; 2018. Large-scale structures in a turbulent channel flow with a minimal streamwise flow unit.
Abe, Hiroyuki, Antonia, Robert Anthony. American Institute of Physics; 2011. Scaling of normalized mean energy and scalar dissipation rates in a turbulent channel flow.
Abe, Hiroyuki, Antonia, Robert A.. Seoul National University; 2009. Turbulent Prandtl number in a channel flow for Pr=0.025 and 0.71.