1Hasil Simulasi Dingin

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[FW] [Flaska Wamuhe] [Jakarta, Indonesia]]

Fluid Flow Simulation Project

Report

SolidWorks Flow SimulationProject Report

November 5, 2015

[

[Flaska] ∙



Fluid Flow Simulation Report

Learn more about SolidWorks Flow Simulation

2

https://www.solidworks.com/sw/products/simulation/flow-simulation.htm

https://www.solidworks.com/sw/products/simulation/flow-simulation.htm




Table of Contents

1 General Information.................................................................................................1

1.1 Analysis Environment................................................................................1

1.2 Model Information.....................................................................................1

1.3 Project omments!....................................................................................1

1." #i$e of om%&tational 'omain..................................................................1

1.5 #im&lation Parameters..............................................................................1

1.5.1 Mes( #ettin)s.........................................................................................1

1.5.2 Material #ettin)s....................................................................................2

1.5.3 Initial onditions....................................................................................2

1.5." *o&ndary onditions..............................................................................2

1.5.5 +ol&metric eat #o&rces........................................................................2

1.5.- En)ineerin) oals..................................................................................2

1.- Analysis /ime............................................................................................2

2 Results...............................................................................................................2

2.1 Analysis oals...........................................................................................2

2.2 lobal MinMa/able...................................................................................2

2.3 es&lts......................................................................................................2

2." oncl&sion.................................................................................................2

3 Appendi.............................................................................................................2

3.1 Material 'ata............................................................................................2

3




1 General Information

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11 !nal"sis #n$ironment

.oft0are rodu$t& Flo0 .imulation 21 .3)) uild& 2454/* 67pe& Intel8R9 /ore86:9 i;<;=> /* ? 2)G=@/* .peed& 21 :=@RA:& 3;B : C 1321;;2; :!peratin( .7stem& 8uild 49

1% &odel Information

:odel Dame& Assem"l7 "otol2).'EA.:ro#e$t Dame& Eefault 839

1' Project Comments(

*nit .7stem& /ustom *nitsAnal7sis 67pe& Internal

1) Si*e of Computational +omain

Size

min 0.0-- m ma 0.00- m 4 min 0.05- m 4 ma 0.151 m min 0.036 m ma 0.070 m

1, Simulation Parameters

1)B)1 :esh .ettin(s

1.5.1.1 Basic Mesh

Basic Mesh Dimensions

N&mber of cells in -N&mber of cells in 4 16N&mber of cells in "

1.5.1.2 Analysis Mesh

6otal /ell $ount& B4




Fluid /ells& 1;.olid /ells& artial /ells& 2546rimmed /ells&

1.5.1.3 Additional Physical Calculation Options

=eat 6ransfer Anal7sis& =eat $ondu$tion in solids& !neat cond&ction in solids only! 89 Flo0 67pe& 'aminar and tur"ulent6ime<Eependent Anal7sis& !ffGra%it7& !ffRadiation& !ff=umidit7&Eefault Wall Rou(hness& mi$rometer

1)B)2 :aterial .ettin(s

Material Settings

Fluids

:ater

Solids

lass

1)B)3 Initial /onditions

Initial Conditions

/(ermodynamic %arameters #tatic Press&re! 101325 Pa /em%erat&re! 20.1 ;

+elocity %arameters +elocity vector+elocity in direction! 0 m<s+elocity in 4 direction! 0 m<s+elocity in direction! 0 m<s

#olid %arameters 'efa&lt material! lassInitial solid tem%erat&re! 20.1 ;

/&rb&lence %arameters /&rb&lence intensity and len)t(Intensity! 2.000 =

>en)t(! 7.000e00" m

1)B) oundar7 /onditions

Boundary Conditions

Environment Press&re 1 /y%e Environment Press&re?aces ?ace@2Bbotol111

oordinate system ?ace oordinate #ystemeference ais /(ermodynamic %arameters Environment %ress&re! 101325 Pa

/em%erat&re! 10.0 ;




/&rb&lence %arameters /&rb&lence intensity and len)t(Intensity! 2.000 =>en)t(! 7.000e00" m

*o&ndary layer %arameters *o&ndary layer ty%e! /&rb&lent

1)B)B +olumetri$ =eat .our$es

1)B)4 n(ineerin( Goals

Goals

Global Goals

Av /em%erat&re of ?l&id 1 /y%e lobal oal

oal ty%e /em%erat&re C?l&idDalc&late Avera)e val&eoordinate system lobal coordinate systemse in conver)ence 8n

1- !nal"sis Time

/al$ulation 6ime& 11 sDum"er of Iterations& 5Warnin(s&




% Results

%1 !nal"sis Goals

GoalsName nit +al&e Pro)ress se in

conver)ence

'elta riteria

Av /em%erat&re of?l&id 1

; 15.F 100 8n 0.07""263755

0.07-53-156"

%% Global &in.&a/.Table

Min/Max Table

Name Minim&m Maim&mPress&re GPaH 101325 101325 /em%erat&re G;H 10.0 17.2'ensity C?l&idDG)<mJ3H

667.0 666.2

+elocity Gm<sH 0 -.6e025+elocity CD Gm<sH 5.0e025 -.-e025

+elocity C4D Gm<sH 2."e025 ".-e025+elocity CD Gm<sH 3.6e025 -.7e025 /em%erat&re C?l&idD G;H 10.0 17.2 /em%erat&re C#olidD G;H 13.5 17.1'ensity C#olidDG)<mJ3H

2-00.0 2-00.0

+orticity G1<sH 7e025 2e022#(ear #tress GPaH 5e027 -e025elative Press&re GPaH Fe011 Fe011eat /ransfer

oeKcient G:<mJ2<LH

1.-10e00" -".2FF

#&rface eat ?l&G:<mJ2H

15F 2"1

eat ?l& G:<mJ2H 3e001 2-08ver(eat above Meltin) /em%erat&re GLH

F7-.5 F71.6

%' Results




%) Conclusion

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' !ppendi/

'1 &aterial +ata

Engineering DatabaseLiquids

Water

Pat(! >i&ids Pre'ened'ensity

Temperature[C!

Density["g/m#$!

'ynamic viscosity

Temperature[C!

Dynami% &is%osity['a(s!




#%ecic (eat C%D

Temperature[C!

Spe%i)% *eat +Cp,[-/+"g(.,!

/(ermal cond&ctivity

Temperature[C!

T*ermal %ondu%ti&ity[/+m(.,!

avitation e9ect! 4es /em%erat&re! 2F3.1 ;#at&ration %ress&re! 0 Pa

Solids

Glass

Pat(! #olids Pre'enedOlasses and Minerals'ensity! 2-00.0 )<mJ3#%ecic (eat! -F0 <C)QLDond&ctivity ty%e! Isotro%ic




/(ermal cond&ctivity

Temperature[C!

T*ermal %ondu%ti&ity[/+m(.,!

Electrical cond&ctivity! 'ielectric

adiation %ro%erties! NoMeltin) tem%erat&re! 4es /em%erat&re! 700.0 ;

1Hasil Simulasi Dingin

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