for sell and tube heat exchanger, pump, compressor and valve. designed by:- lulwa h. hamada...
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![Page 1: For Sell and tube heat exchanger, pump, compressor and valve. Designed by:- Lulwa H. Hamada 203114435 EQUIPMENT DESIGN](https://reader036.vdocument.in/reader036/viewer/2022081516/56649ea75503460f94baaef4/html5/thumbnails/1.jpg)
For Sell and tube heat exchanger, pump, compressor and valve.
Designed by:-Lulwa H. Hamada 203114435
EQUIPMENT DESIGN
![Page 2: For Sell and tube heat exchanger, pump, compressor and valve. Designed by:- Lulwa H. Hamada 203114435 EQUIPMENT DESIGN](https://reader036.vdocument.in/reader036/viewer/2022081516/56649ea75503460f94baaef4/html5/thumbnails/2.jpg)
Heat Exchanger
Heat exchangers transfer heat energy from one fluid or gas to another without mixing the two .
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Assumptions:
1- Use shell and tube heat exchanger, one shell and two tube passes.
2- The value of the overall heat transfer coefficient was assumed to be 100.
3- Assume the outer, the inner diameter and the length of the tube.
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Design procedure-:
1 .Heat load ,(kW) Q = (m Cp ΔT)hot =(m Cp ΔT)cold
2 .Tube side flow , (kg/hr)
3.Log mean Temperature, (˚C)
1
2
12
TT
LN
TTTLM
cold
hotcold TCp
Qm
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ΔT1= Thi-Tco ΔT2= Tho-Tci
Where,
Thi: inlet hot stream temperature (˚C) Tho: outlet stream temperature (˚C)
Tci: inlet cold stream temperature (˚C) Tco: outlet cold temperature (˚C)
Where,ΔTm= Ft ΔTlm
4-Provisional Area, (m2)
mo TU
QA
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5 .Number of tubes Number of tubes = provisional area / area of one tube
Area of one tube = L * do *π
6 .Bundle diameter
Db: bundle diameter Nt: number of tubesK1: constant from table.n1: constant from table.
1
1
1
nt
ob k
NdD
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7 .Shell diameterDs = Db + (shell inside diameter -bundle diameter)
8 .Tube side CoefficientMethod 1
Method 2
2.0
8.0)02.035.1(4200
di
uthi t
14.0
33.0PrRe
wh
f Jdi
Khi
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9 .Shell side Coefficient
10 .Overall heat transfer coefficient
33.0PrRehjNu
e
fS d
kNuh
ii
o
id
oi
o
odo hd
d
hdi
d
kw
d
dLNd
hhU
11
2
1110
0
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11 .Pressure dropa. Tube side
b. Shell side
12 .Shell thickness
2*5.282
m
wifp dLjNP
14.02
28
w
s
be
sf
uL
Ld
DjP
Pr
0.6i
oj
t CSE P
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Where;t: shell thickness (in)P: internal pressure (psig)ri: internal radius of shell (in)EJ: efficiency of jointsS: working stress (psi)Cc: allowance for corrosion (in)
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Equipment nameE-100
Heat load (kW)720.24503
Overall heat transfer coefficient (W/m2 oC)
100
LMTD (oC)33.024155
Number of tubes 1898
Tube length (m)2.2858185
Tube diameter (mm)918.61
Heat transfer area (m2)218.0964
Thickness (mm) 16.352997
Shell diameter (m)0.98261
Material of constructionCarbon steel
Cost ($)73,900
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Pump
a) Assumptions-:Centrifugal pump.
b) Design procedures-: 1.Calculate the flow rate, m= ρ * Q
2.Calculate the work shift, Ws = -ha * g3.Assume efficiency, ζ.
4.Calculate the Brake horse power = (-Ws * m) / (ζ * 1000)
5.Calculate the diameter, d.
84.4116.084.11013.4 dQEP
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Equipment nameP-100
Power (kW)1241.77
Efficiency%75
Material of constructionCarbon steel
Cost ($)69,100
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Compressor
a) Assumptions-:Centrifugal compressor.
b) Design procedures-: 1.Calculate comparison factor n.
2.Calculate work done.
W= [nR(T1-T2)]/[1-n]
2
1
2
1
ln
ln
1T
T
Pp
n
n
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3.Calculate horse power.
Hp = (mol rate/3600 )*(1/M.wt)*(W)*(.001341/.0009486)
4.Calculate K.
K = (Mwt*CP)/(Mwt*CP-1.986)
5.Calculate efficiency of compressor.
Ep = [n/(n-1)]/[k/(k-1)]
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Equipment nameK-100
Power (hp)1096.89
Efficiency%88.0829
Material of constructionCarbon steel
Cost ($)269,400
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Valves
There are many types for valves, such as-:
1 -Ball valve, which is good for on/off control.2 -Butterfly valve, particularly in large pipes.
3 -Choke valve: a valve that lifts up and down a solid cylinder which is placed around or inside another cylinder which has holes or slots.
4 -Check valve or non-return valve, allows the fluid to pass one direction only.
5 -Diaphragm valve, a sanitary valve predominantly used in the pharmaceutical industry.
6 -Gate valve, mainly for on/off control.7 -Globe valve, which is good for regulating flow.
8 -Needle valve, for gently releasing high pressures.9 -Piston valve.
10 -Plug valve, for on/off control.
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a) Assumptions-:Gate valve.
b) Design procedures -:1.Take the value of the pipe diameter from
Hysys.
2.Estimate the cost of the valve at the inlet pressure from figure at Pinlet.
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Equipment nameVLV-100
Flow Rate (Kmole/hr) 20632
Pressure Drop (Kpa) 5066
Material of constructionStainless steel
Cost ($)550