Report for: A joint velocity-intermittency analysis reveals similarity in the vertical structure of atmospheric and hydrospheric canopy turbulence

@C_Vanderwel @Bharath_Lab Thanks Christina. Here is an example study if interested: https://t.co/c6JASxywUZ

16 Oct 2019

RT @ChrisKeylock: For #FlumeFriday : results from flume exps by @enviro_fluids on the vertical structure of velocity-intermittency in canop…

RT @ChrisKeylock: For #FlumeFriday : results from flume exps by @enviro_fluids on the vertical structure of velocity-intermittency in canop…

RT @ChrisKeylock: For #FlumeFriday : results from flume exps by @enviro_fluids on the vertical structure of velocity-intermittency in canop…

For #FlumeFriday : results from flume exps by @enviro_fluids on the vertical structure of velocity-intermittency in canopy flows. Rose histograms show transition with height from Q4 to Q2 to neutral to Q3 dominance. Results from https://t.co/zFNKgQOChS htt

@ChrisKeylock-led collaboration, showing how flows can be characterised by the intermittency of their turbulence AND that flows through terrestrial canopies (e.g. forests) and aquatic canopies (e.g. seagrasses) have an awful lot in common. @UWAresearch @u

RT @ChrisKeylock: A collaboration between @LboroABCE @Lboro_Water @H2OLboro and @MIT_CEE, @DukeEngineering, and @uwanews where we use my ve…

RT @ChrisKeylock: A collaboration between @LboroABCE @Lboro_Water @H2OLboro and @MIT_CEE, @DukeEngineering, and @uwanews where we use my ve…

RT @ChrisKeylock: A collaboration between @LboroABCE @Lboro_Water @H2OLboro and @MIT_CEE, @DukeEngineering, and @uwanews where we use my ve…

A collaboration between @LboroABCE @Lboro_Water @H2OLboro and @MIT_CEE, @DukeEngineering, and @uwanews where we use my velocity-intermittency method to reveal new, and common features of canopy turbulence for air/forests and river vegetation: https://t.co/