[Gmsh] Question about Progression and Bump
Nathan J. Neeteson
nneeteson at rglinc.com
Tue Oct 23 22:07:20 CEST 2018
Hello,
I have a question about using Progression and Bump in neighboring blocks in a block-structured mesh. What I want is for the two blocks to have cells of the same height where they meet. I know the thickness of the first cell from the wall (dx0), the length of each line (L), and the progression I want (r), so when I'm using Progression I can calculate the number of nodes to use as N = log(1+(L*(r-1))/(dx0)) / log(r) - 1. Then I can set the appropriate lines to Transfinite and assign them N Using Progression r and it works as expected.
However, in one of my blocks I want to refine towards both the top and bottom, so I need to use the Bump option. The problem is that I have no idea what "r" value to use after Bump (using the same r value as is used for Progression does not give me the results I want) and I also have no idea how to calculate the number of points to use along this line. MY first instinct was to calculate the number of points needed as double the number of points for a single progression with half of the length (two progressions end to end). I think this is right, but when I use r after Bump I get no refinement. What value am I supposed to use for number of points and the rate of growth when using the Bump function so that I get the equivalent of the product of two Progressions end to end?
Here is a zoomed in look at where I want the first cells to match heights:
The bottom block uses single progression and the upper block you are seeing the lower end of the double progression.
[cid:image001.png at 01D46AD9.B5964A40]
Here is my .geo file:
-------------------------------------------------------------------------------------------
// orifice properties
orificeLength = 0.03;
orificeRadius = 0.002;
// pipe properties
pipeRadius = 0.05;
// distance from orifice to inlet
inletDist = 5*pipeRadius;
// distance from orifice to outlet
outletDist = 5*pipeRadius;
// grid size parameters
r = 1.1; // growth parameter
dx0 = 1*10^(-4); // first wall dist for y+=1
upstreamNx = (Log(1 + ((inletDist*(r-1))/(dx0))) / Log(r)) - 1; // number of elements in x direction upstream
downstreamNx = (Log(1 + ((outletDist*(r-1))/(dx0))) / Log(r)) - 1; // number of elements in x direction upstream
orificeNx = orificeLength/dx0; // number of elements in x direction inside orifice
upstreamOrificeNy = orificeRadius/dx0;
upstreamPipeNy = 2*((Log(1 + ((((pipeRadius-orificeRadius)/2)*(r-1))/(dx0))) / Log(r)) - 1);
// element index
i = 1;
// ~~-------------------------~~ POINTS ~~-------------------------~~
// order of point definition doesn't matter, just give descriptive names
inletCenterPoint = i;
Point(i) = {-orificeLength-inletDist,0,0,1};
i=i+1;
inletPipeWallPoint = i;
Point(i) = {-orificeLength-inletDist,pipeRadius,0,1};
i=i+1;
inletOrificeWallPoint = i;
Point(i) = {-orificeLength-inletDist,orificeRadius,0,1};
i=i+1;
upOrificeCenterPoint = i;
Point(i) = {-orificeLength,0,0,1};
i=i+1;
upOrificePipeWallPoint = i;
Point(i) = {-orificeLength,pipeRadius,0,1};
i=i+1;
upOrificeOrificeWallPoint = i;
Point(i) = {-orificeLength,orificeRadius,0,1};
i=i+1;
// ~~-------------------------~~ LINES ~~-------------------------~~
// all lines should be defined going up and/or to the right for consistency
inletOrificeLine = i;
Line(i) = {inletCenterPoint,inletOrificeWallPoint};
i=i+1;
inletPipeLine = i;
Line(i) = {inletOrificeWallPoint,inletPipeWallPoint};
i=i+1;
upstreamPipeWallLine = i;
Line(i) = {inletPipeWallPoint,upOrificePipeWallPoint};
i=i+1;
upstreamCenterLine = i;
Line(i) = {inletCenterPoint,upOrificeCenterPoint};
i=i+1;
upstreamOrificeLine = i;
Line(i) = {inletOrificeWallPoint,upOrificeOrificeWallPoint};
i=i+1;
upstreamOrificePlateLine = i;
Line(i) = {upOrificeOrificeWallPoint,upOrificePipeWallPoint};
i=i+1;
upstreamOrificeEntryLine = i;
Line(i) = {upOrificeCenterPoint,upOrificeOrificeWallPoint};
i=i+1;
// ~~-------------------------~~ LINE LOOPS ~~-------------------------~~
// all line loops should be oriented clockwise
upstreamPipeLoop = i;
Line Loop(i) = {inletPipeLine,upstreamPipeWallLine,-upstreamOrificePlateLine,-upstreamOrificeLine};
i=i+1;
upstreamOrificeLoop = i;
Line Loop(i) = {inletOrificeLine,upstreamOrificeLine,-upstreamOrificeEntryLine,-upstreamCenterLine};
i=i+1;
// ~~-------------------------~~ PLANE SURFACES ~~-------------------------~~
upstreamPipePlane = i;
Plane Surface(i) = upstreamPipeLoop;
i=i+1;
upstreamOrificePlane = i;
Plane Surface(i) = upstreamOrificeLoop;
i=i+1;
// ~~-------------------------~~ MAKE STRUCTURED ~~-------------------------~~
// the x-oriented lines upstream of the orifice
Transfinite Line{-upstreamCenterLine,-upstreamOrificeLine,-upstreamPipeWallLine} = upstreamNx Using Progression r;
// the x-oriented lines in the orifice
// the x-oriented lines downstream of the orifice
// the y-oriented lines from the centerline to the orifice radius
Transfinite Line{inletOrificeLine,upstreamOrificeEntryLine} = upstreamOrificeNy;
// the y-oriented lines from the orifice radius to the pipe radius
Transfinite Line{inletPipeLine,upstreamOrificePlateLine} = upstreamPipeNy Using Bump 0.05;
Transfinite Surface{upstreamOrificePlane};
Recombine Surface{upstreamOrificePlane};
Transfinite Surface{upstreamPipePlane};
Recombine Surface{upstreamPipePlane};
-------------------------------------------------------------------------------------------
Thanks,
Nathan J. Neeteson, M.Sc.
Flow Control Research Engineer
RGL Reservoir Management Inc.
Engineering & Design Group
P. 403.930.0371 (ext. 8371) | C. 613.929.6283
nneeteson at rglinc.com<mailto:nneeteson at rglinc.com> | rglinc.com
API Q1(tm) and ISO 9001:2015 certified facilities.
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