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h1. General Program Information {float:left|border=2px solid black} !sludge1.bmp! Northwest Isometric {float} \\ \\ h3. Input Definitions h5. Inputs Needed to Call the Sludge Pipe Function sludgepipe{~}origin~ \- a 3 by 1 matrix with x,y,z positions corresponding to the point where the sludge pipe will be drawn ND{~}sludge~ \- the nominal diameter of the sludge waste pipe - from this we can find the actual inner diameter and actual outer diameter of the pipe based on the schedule of pipe being used. tank{~}length~ \- the length of the tank orifice{~}rad~ \- the radius of the orifice hole orifice{~}dist~ \- the distance between successive orifices EN{~}PipeSpec~ \- an enumerated pipe schedule which specifies a number which corresponds to a pipe schedule that states the amount of water pressure the pipe can handle before it fails. The pipe schedule affects the inner and outer diameter of the pipe. h5. Inputs Found from Pipe Database Function sludepipe{~}inr~ \- the radius of the inner cylinder defined by innerD(ND{~}sludge~,EN{~}PipeSpec~)/2 sludgepipe{~}outr~ \- the radius of the outer cylinder defined by outerradius(ND{~}sludge~) h5. Inputs Defined Within the Sludge Pipe Function p1 = * x : sludgepipe.origin{~}0~ * y : sludgepipe.origin{~}1~ * z : sludgepipe.origin{~}2~ p2 = * x : sludgepipe.origin{~}0~ * y : sludgepipe.origin{~}1~ * z : sludgepipe.origin{~}2~ + tank{~}length~ \- orifice{~}dist~ p3 = * x : sludgepipe.origin{~}0~ * y : sludgepipe.origin{~}1~ + sludgepipe{~}outr~ + zc * z : sludgepipe.origin{~}2~ + tank{~}length~ \- orific{~}dist~ p4 = * x : sludgepipe.origin{~}1~ + sludgepipe{~}outr~ + zc * y : sludgepipe.origin{~}2~ + tank{~}length~ \- orifice{~}dist~ * z : sludgepipe.origin{~}0~ p5 = * x : sludgepipe.origin{~}0~ * y : sludgepipe.origin{~}1~ \- sludgepipe{~}outr~ p6 = * x : sludgepipe.origin{~}0~ + rad{~}hole~ + zc * y : sludgepipe.origin{~}1~ + sludgepipe{~}outr~ + 2*zc p7 = * x : sludgepipe.origin{~}0~ \- rad{~}hole~ \- zc * y : sludgepipe.origin{~}1~ \- zc ND = ND{~}sludge~ R1 = sludgepipe{~}outr~ R2 = sludgepipe{~}inr~ R3 = rad{~}hole~ L = tank{~}length~ n1 = floor( tank{~}length~ / orifice{~}dist~ ) n2 = 1 d1 = orifice{~}dist~ win1 = * x : sludgepipe.origin{~}0~ \- sludgepipe{~}outr~ * y : sludgepipe.origin{~}1~ \- sludgepipe{~}outr~ * z : sludgepipe.origin{~}2~ win2 = * x : sludgepipe.origin{~}0~ + sludgepipe{~}outr~ * y : sludgepipe.origin{~}1~ + sludgepipe{~}outr~ + zc * z : sludgepipe.origin{~}2~ EN = EN{~}PipeSpec~ *Note:* zc corresponds to the zoom constant used within AutoCAD and created in the basics file that is referenced by the pipe program. h1. Technical Program Outline *Note:* All coordinates are referenced in top view in the program unless otherwise specified *viewtop* - shows an object in top view in AutoCAD. viewtop <-- viewtop *pipe1* \- using the [pipe function|AutoCAD Pipe Program] draws a pipe (from the pipe program) with no zoom pipe1 <-- pipe(p1,ND,L,EN) *zoom{*}{*}{~}win{~}* \- zooms on a window space zoom{~}win~ <-- zoom{~}win~(win1,win2) *cylinder3* \- is to draw a cylinder for orifice purpose cylinder3 <-- cylinderD(p2,R3,p3) *viewrightside* \- change view to viewrightside viewrightside <-- viewrightside *array1* \- draw starting at point p1, n1 \-\- as many rows as the tank length/orifice dist, n2 - 1 and provide orifice distance as the next draw point for the cylinder array1 <-- array(p4,n1,n2,-d1) *subtract2* \- subtract unneeded portion of the cylinders subtract2 <-- subtractH(p5,p6,p7) |
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