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[Branch ~yade-pkg/yade/git-trunk] Rev 3864: HydroForceEngine, hpp file completing the last commit

To: Yade developers <yade-dev@xxxxxxxxxxxxxxxxxxx>
From: noreply@xxxxxxxxxxxxx
Date: Thu, 19 May 2016 15:18:28 -0000
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------------------------------------------------------------
revno: 3864
committer: Raphael Maurin <raph_maurin@xxxxxxxxxxx>
timestamp: Thu 2016-05-19 16:44:16 +0200
message:
  HydroForceEngine, hpp file completing the last commit
modified:
  pkg/common/ForceEngine.hpp


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=== modified file 'pkg/common/ForceEngine.hpp'
--- pkg/common/ForceEngine.hpp	2016-02-09 17:55:09 +0000
+++ pkg/common/ForceEngine.hpp	2016-05-19 14:44:16 +0000
@@ -110,6 +110,7 @@
 		((bool,activateAverage,false,,"If true, activate the calculation of the average depth profiles of drag, solid volume fraction, and solid velocity for the application of the force (phiPart in hindrance function) and to use in python for the coupling with the fluid."))
 		((bool,velFluct,false,,"If true, activate the determination of turbulent fluid velocity fluctuation for the next time step only at the position of each particle, using a simple discrete random walk (DRW) model based on the Reynolds stresses profile (:yref:`simplifiedReynoldStresses<HydroForceEngine.simplifiedReynoldStresses>`)"))
 		((vector<Real>,vFluctX,,,"Vector associating a streamwise fluid velocity fluctuation to each particle. Fluctuation calculated in the C++ code from the discrete random walk model"))
+		((vector<Real>,vFluctY,,,"Vector associating a spanwise fluid velocity fluctuation to each particle. Fluctuation calculated in the C++ code from the discrete random walk model"))
 		((vector<Real>,vFluctZ,,,"Vector associating a normal fluid velocity fluctuation to each particle. Fluctuation calculated in the C++ code from the discrete random walk model"))
 		((vector<Real>,simplifiedReynoldStresses,,,"Vector of size equal to :yref:`nCell<HydroForceEngine.nCell>` containing the Reynolds stresses divided by the fluid density in function of the depth. simplifiedReynoldStresses(z) $=  <u_x'u_z'>(z)^2$"))
 		((Real,bedElevation,,,"Elevation of the bed above which the fluid flow is turbulent and the particles undergo turbulent velocity fluctuation."))