A set of Lagrangian statistics of passive tracers in a turbulent channel flow. The particle trajectories are obtained by means of integration of a simulated flow field, computed via Direct Numerical Simulation, at four different Reynolds numbers. The Reynolds numbers here employed are \(\mathrm{Re}_{\tau} = \frac{u_{\tau}\delta}{\nu} = 180,\,395,\,590,\,950\), where \(u_{\tau}\)is the frictional velocity, \(\delta\) is the channel half height and \(\nu\) is the kinematic viscosity. Additional information about the database is provided in the included documentation. v1.0 -> Added statistics at ReT = 950 v1.1 -> Added statistics at ReT = [180, 395, 590] v1.2 -> Added statistics at ReT = 265

This work was sponsored by NWO Exacte en Natuurwetenschappen (Physical Sciences) for the use of supercomputer facilities, with financial support from the Netherlands Organization for Scientific Research, NWO. Additional computational resources were provided by HPC@POLITO (http://www.hpc.polito.it).

{"references": ["J. G. M. Kuerten and J. J. H. Brouwers , \"Lagrangian statistics of turbulent channel flow at Re\u03c4 = 950 calculated with direct numerical simulation and Langevin models\", Physics of Fluids 25, 105108 (2013) https://doi.org/10.1063/1.4824795"]}