CHAPTER 4 Heat Effects Miss. Rahimah Bt. Othman Email: [email protected] ERT 206/4 Thermodynamics.
ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email:...
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Transcript of ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email:...
![Page 1: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/1.jpg)
ERT 422/4ERT 422/4Piping and instrumentation Piping and instrumentation
diagram (P&id)diagram (P&id)
MISS. RAHIMAH BINTI OTHMAN(Email: [email protected])
![Page 2: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/2.jpg)
Fundamentals of Pressure Relief Devices
![Page 3: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/3.jpg)
What is the Hazard?
Despite safety precautions …
– Equipment failures– Human error, and– External events, can sometimes lead to …
Increases in process pressures beyond safe levels, potentially resulting in …
OVERPRESSURE due to a RELIEF EVENT
![Page 4: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/4.jpg)
What are Relief Events?
External fire Flow from high pressure source Heat input from associated equipment Pumps and compressors Ambient heat transfer Liquid expansion in pipes and surge
![Page 5: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/5.jpg)
Potential Lines of Defense
Inherently Safe Design
Passive Control
Active Control
– Low pressure processes
– Install Relief Systems
– Overdesign of process equipment
![Page 6: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/6.jpg)
What is a Relief System?
A relief device, and
Associated lines and process equipment to safely handle the material ejected
![Page 7: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/7.jpg)
Why Use a Relief System?
Inherently Safe Design simply can’t eliminate every pressure hazard
Passive designs can be exceedingly expensive and cumbersome
Relief systems work!
![Page 8: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/8.jpg)
T
L
PSV-2
PSV-3
TTLT
TCR
LCR
P-2
AIR PENYEJUK
PSV-7
FCR
FT
S-1
BIOREACTOR CONTROL SYSTEM
![Page 9: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/9.jpg)
Pressure Terminology
MAWP Design pressure Operating pressure Set pressure Overpressure Accumulation Blowdown
![Page 10: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/10.jpg)
Pressure Relief DevicesWhat’s coming
Basic terminology Code requirements Safety relief valves Rupture discs
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Pressure Terminology
Operating pressure MAWP Design pressure Set pressure Accumulation Overpressure Blowdown
![Page 12: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/12.jpg)
Code Requirements
General Code requirements include:
– ASME Boiler & Pressure Vessel Codes– ASME B31.3 / Petroleum Refinery Piping– ASME B16.5 / Flanges & Flanged Fittings
![Page 13: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/13.jpg)
Code Requirements
All pressure vessels subject to overpressure shall be protected by a pressure relieving device
Liquid filled vessels or piping subject to thermal expansion must be protected by a thermal relief device
Multiple vessels may be protected by a single relief device provided there is a clear, unobstructed path to the device
At least one pressure relief device must be set at or below the MAWP
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Code Requirements
Relieving pressure shall not exceed MAWP (accumulation) by more than:
– 3% for fired and unfired steam boilers
– 10% for vessels equipped with a single pressure relief device
– 16% for vessels equipped with multiple pressure relief devices
– 21% for fire contingency
![Page 15: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/15.jpg)
Relief Design MethodologyLOCATE RELIEFS
CHOOSETYPE
DEVELOP SCENARIOS
SIZE RELIEFS(1 or 2 Phase)
CHOOSE WORST CASE
DESIGN RELIEF SYSTEM
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Locating Reliefs – Where? All vessels Blocked in sections of cool liquid lines that
are exposed to heat Discharge sides of positive displacement
pumps, compressors, and turbines Vessel steam jackets Where PHA indicates the need
LOCATE RELIEFS
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Choosing Relief Types
Spring-Operated Valves
Rupture Devices
CHOOSETYPE
![Page 18: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/18.jpg)
Spring-Operated Valves
Conventional Type
CHOOSETYPE
![Page 19: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/19.jpg)
Picture: Conventional Relief Valve
ConventionalRelief Valve
CHOOSETYPE
![Page 20: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/20.jpg)
Spring-Operated Valves
Balanced Bellows Type
CHOOSETYPE
![Page 21: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/21.jpg)
Picture: Bellows Relief ValveBellows
Relief Valve
CHOOSETYPE
![Page 22: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/22.jpg)
Pros & Cons:Conventional Valve
Advantages+ Most reliable type if properly sized and operated+ Versatile -- can be used in many services
Disadvantages– Relieving pressure affected by back pressure– Susceptible to chatter if built-up back pressure is too high
CHOOSETYPE
![Page 23: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/23.jpg)
Pros & Cons:Balanced Bellows Valve
Advantages+ Relieving pressure not affected by back pressure+ Can handle higher built-up back pressure+ Protects spring from corrosion
Disadvantages– Bellows susceptible to fatigue/rupture– May release flammables/toxics to atmosphere– Requires separate venting systemCHOOSE
TYPE
![Page 24: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/24.jpg)
Rupture Devices
Rupture Disc
Rupture Pin
CHOOSETYPE
![Page 25: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/25.jpg)
ConventionalMetal Rupture Disc
CHOOSETYPE
![Page 26: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/26.jpg)
ConventionalRupture Pin Device
CHOOSETYPE
![Page 27: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/27.jpg)
When to Use a Rupture Disc/Pin
Capital and maintenance savings Losing the contents is not an issue Benign service (nontoxic, non-
hazardous) Need for fast-acting device Potential for relief valve plugging High viscosity liquids
CHOOSETYPE
![Page 28: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/28.jpg)
When to Use Both Types
Need a positive seal (toxic material, material balance requirements)
Protect safety valve from corrosion
System contains solids
CHOOSETYPE
![Page 29: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/29.jpg)
Relief Event Scenarios A description of one specific relief event Usually each relief has more than one relief event,
more than one scenario Examples include:
– Overfilling/overpressuring– Fire– Runaway reaction– Blocked lines with subsequent expansion
Developed through Process Hazard Analysis (PHA)
DEVELOP SCENARIOS
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Rupture Discs A rupture disc is a thin diaphragm (generally a solid metal disc)
designed to rupture (or burst) at a designated pressure. It is used as a weak element to protect vessels and piping against excessive pressure (positive or negative).
There are five major types available– Conventional tension-loaded rupture disc– Pre-scored tension-loaded rupture disc– Composite rupture disc– Reverse buckling rupture disc with knife blades– Pre-scored reverse buckling rupture disc
![Page 31: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/31.jpg)
Rupture Discs
They are often used as the primary pressure relief device.– Very rapid pressure rise situations like runaway reactions.– When pressure relief valve cannot respond quick enough.
They can also be used in conjunction with a pressure relief valve to:– Provide corrosion protection for the PRV.– Prevent loss of toxic or expensive process materials.– Reduce fugitive emissions to meet environmental
requirements.
![Page 32: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/32.jpg)
Rupture Discs Are Well Suited For Some Applications
When compared with PR valves, rupture discs have:
Advantages
+ Reduced fugitive emissions - no simmering or leakage prior to bursting.
+ Protect against rapid pressure rise cased by heat exchanger tube ruptures or internal deflagrations.
+ Less expensive to provide corrosion resistance.
+ Less tendency to foul or plug.
+ Provide both over pressure protection and depressuring.
+ Provide secondary protective device for lower probability contingencies requiring large relief areas.
![Page 33: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/33.jpg)
Rupture Discs Are Less Well Suited For Other Applications
When compared with PR valves, rupture discs have:
Disadvantages
– Don’t reclose after relief.– Burst pressure cannot be tested.– Require periodic replacement.– Greater sensitivity to mechanical damage.– Greater sensitivity to temperature
![Page 34: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/34.jpg)
Conventional Tension-Loaded Metal Rupture Disc
![Page 35: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/35.jpg)
Pre-Scored Tension - Loaded Rupture Disc
![Page 36: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/36.jpg)
DiscCorrodedThrough
![Page 37: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/37.jpg)
Composite Rupture Disc
![Page 38: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/38.jpg)
Reverse Buckling Rupture Disc With Knife Blades
![Page 39: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/39.jpg)
Typical RD/PRV Installation
From Process(No Pockets)
(If Req'd)
NPS 3/4"(19 m m )
TW
CSO
PI
Grade (Or Frequently Used P latform )
4' -
0"
RD
PR
CSO(If Req'd)
M in.
0302040F2
To flare headeror atm osphere(no pockets)
CSO
Min
NPS 3/4"(19 m m )
NPS 3/4"(19 m m )
1/2" (13 m m )Tubing
ExcessFlowValve
Vent to safelocation
![Page 40: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/40.jpg)
Anything wronghere?
![Page 41: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/41.jpg)
Pressure above RD
Reduced inlet piping
![Page 42: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/42.jpg)
Damaged duringInstallation
![Page 43: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/43.jpg)
ClassicAlligatoring
![Page 44: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/44.jpg)
Conventional Rupture Pin Device
![Page 45: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/45.jpg)
VALVES & PIPE SIZING
![Page 46: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/46.jpg)
Sizing Reliefs
Determine relief vent area Determining relief rates
Determine relief vent area
SIZE RELIEFS(Single Phase)
![Page 47: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/47.jpg)
Determine Relief Vent Area Liquid
Service
where
bs25.1
)ref
(
bpvovQ
gpm 38.02/1)psi(2in
PPKKKCA
A is the computed relief area (in2) Qv is the volumetric flow thru the relief (gpm) Co is the discharge coefficient Kv is the viscosity correction Kp is the overpressure correction Kb is the backpressure correction (/ref) is the specific gravity of liquid Ps is the gauge set pressure (lbf/in2) Pb is the gauge backpressure (lbf/in2)SIZE RELIEFS
(Single Phase)
![Page 48: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/48.jpg)
Determine Relief Vent Area Gas
Service
where
MTz
PKCA
bomQ
A is the computed relief area (in2) Qm is the discharge flow thru the relief (lbm/hr) Co is the discharge coefficient Kb is the backpressure correction T is the absolute temperature of the discharge (°R) z is the compressibility factor M is average molecular weight of gas (lbm/lb-mol) P is maximum absolute discharge pressure (lbf/in2) is an isentropic expansion function
SIZE RELIEFS(Single Phase)
valverelief for the pressureset theis s
pipingfor s33.1max
fire toexposed sfor vessel s2.1max
vesselspressure unfiredfor s1.1max
7.14max
PPP
PPPP
PP
![Page 49: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/49.jpg)
Determine Relief Vent Area Gas
Service
where
)1/()1(
125.519
is an isentropic expansion function is heat capacity ratio for the gas Units are as described in previous slide
SIZE RELIEFS(Single Phase)
![Page 50: ERT 422/4 Piping and instrumentation diagram (P&id) MISS. RAHIMAH BINTI OTHMAN (Email: rahimah@unimap.edu.my)](https://reader033.fdocuments.net/reader033/viewer/2022061501/56649e185503460f94b04f94/html5/thumbnails/50.jpg)
E-1 : pensteril(penukar haba plat)
F-1 : fermenter penghasilan S-1 & S-2 : pemisah sel R-1 : penuras hampagasberputar
T-1 : tangki pemendakT-2 : tangki pelarut bahan mendak
C-1 : penyejat D-1 :menara semburan
P-1 : pam pensteril P-2 & P-3 : pam fermenterP-4 : pam penurashampagas berputar
P-5 : pam tangkipemendak
P-6 : pam tangki pelarutbahan mendak
media
G-1 : tangki penyimpanan
STIM
E-1
S-2
P-1
T
PSV-1
F-2
L
TAIR PENYEJUK
PSV-4
PSV-5PSV-6
AIR PENYEJUK
F-1
P-3
L
T
PSV-3
PSV-2
PSV-7
F-2: fermenter benih
S-1
I-1 & I-2 : penukar ionkation dan anionP-8 & P-9: pam penukar ion UNIVERSITI KEBANGSAAN
MALAYSIA 2003/2004
KUMPULAN A
TAJUK LUKISAN :RAJAH ALIR PROSES
BAGI SISTEM KAWALAN
PENYELIA :DR.JAMALIAH
MD.JAHIM
TAJUK :LOJI PENGHASILAN ASIDITAKONIK DARI PROSESFERMENTASI Aspergillus
terreus
DILUKIS OLEH :AZLINDA HARON
A79668
TARIKH :15 MAC 2004
LUKISAN TIDAKMENGIKUT SKALA
This drawing is aproperty of UniversitiKebangsaan Malaysiaand contains proprietyinformation
TCR
TT
LARUTAN ASIDITAKONIK 50%
FT
P-9
P-8
PSV-11PSV-10
I-1
I-2
SERBUK ASIDITAKONIK 99%
PSV-13
FCR
FCR
TCR
LCR
TCR
LCR
R-1
L
LCR
L
PCR
P-7--
T-1
P-4
LPSV-8
P-5
P-6
FT
FCR
FCR
PSV-9
T
UDARA PANAS
TCR
G-1
L
PSV-12
LCR
T-2
L
LPTT
L
PCRTCR
LCR
P-2
C-1
D-1
LCR
LCR
P-10
P-7
FT
P-7: pam penyejat
P-10 : pam menara semburan
STIM
KONDENSASIL
LCR
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JADUAL 5.2 Pelega Untuk Fasa Cecair Menggunakan Persamaan 9-4 (Crowl & Louvar)
Co =0.61
Anggap Terlebih Tekanan = 25%
Anggap tekanan balik sentiasa maksimum, iaitu 50 %
Pelega q (kg/j) r (kg/m3) Qv (gpm) r/rref Kv Kp Kb Ps (kPa) Ps (lbf/in2) Pb (lbm/in2) A (in2) A (m2)
PSV-2 3.49E+02 10.39 147.7469 98.1 1 1 1 1000 145.1 72.55 8.97 0.006
PSV-3 8.13E+02 10.17 352.2017 98.1 1 1 1 1000 145.1 72.55 21.37 0.014
PSV-4 4.51E+03 10.39 1912.572 98.1 1 1 1 1200 174.12 87.06 105.94 0.068
PSV-5 1824.68 1.2 6695.562 98.1 1 1 1 1000 145.1 72.55 274.25 0.177
PSV-6 1893.83 1.2 6949.304 98.1 1 1 1 994 144.229 72.1147 285.50 0.184
PSV-7 5.26E+03 10.35 2237.064 98.1 1 1 1 1000 145.1 72.55 135.75 0.088
PSV-8 1.82E+03 9.94 808.3173 98.1 1 1 1 900 130.59 65.295 51.70 0.033
PSV-10 2.65E+04 10.26 11359.5 98.1 1 1 1 1000 145.1 72.55 689.31 0.445
PSV-11 2.93E+04 10.16 12712.39 98.1 1 1 1 1300 188.63 94.315 676.56 0.436
PSV-12 26265.9 10.41 11110.21 98.1 1 1 1 1000 145.1 72.55 674.18 0.435
bs
ref
bpvo
v
PPKKKC
Q
gpm
psiinA
25.1
/
0.38
2/12
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T
L
PSV-2
PSV-3
TTLT
TCR
LCR
P-2
AIR PENYEJUK
PSV-7
FCR
FT
S-1
FERMENTER CONTROL SYSTEM
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a) LIQUID STREAM
Equation; 5-14 (R.K Sinnot):
For carbon steel pipeline;
di, optimum = 282G0.52-0.37
Where; G = Flow rate, kg/s = , kg/s
For stainless steel pipeline;
di, optimum = 282G0.50-0.37
Where; G = Kadar aliran, kg/s = Ketumpatan aliran, kg/s
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a) LIQUID STREAM
Equation; 5-14 (R.K Sinnot):
For carbon steel pipeline;
di, optimum = 282G0.52-0.37
Where; G = Flow rate, kg/s = Density of fluid, kg/s
For stainless steel pipeline;
di, optimum = 282G0.50-0.37
Where; G = Flow rate, kg/s = Density of fluid, kg/s
DIAMETER SIZING CALCULATION
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b) VAPOR STREAM
For long pipeline, the velocity of vapor = sonic velocity (Crowl& Louvar 1990).
Sonic velocity;
c gg R Ta
M
where, = 1.32 untuk gas teriongc = 32.1740 ft.ibm/s2.ibf
Rg = 1545 ft.ibf /ib- mol. oR
ToR = 1.8TOC +32+460
c gg R Ta
M
DIAMETER SIZING CALCULATION
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Flow rate,
Qm = UA (kg/s)
Where;
U = a = halaju sonic (m/s)A = Luas keratan rentas paip (m2)
DIAMETER SIZING CALCULATION
b) VAPOR STREAM-CONT’
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EXAMPLE OF CALCULATION (DIAMETER OF PIPELINE FOR VAPOR STREAM)
ValveT
(°C) T (°R) M g = Cp/Cv a (m/s) ρ(kg/m3) Qm (kg/j) Qm (kg/s) A (m2) D (m) D (in)
PSV-1 121 709.47 180 1.145 144.380 20.170 4512.86 1.254 0.000 0.023 0.922
PSV-9 200 851.67 180 1.323 170.041 16.990 50870.00 14.131 0.005 0.079 3.107
PSV-13 140 743.67 180 1.146 147.884 20.190 121100.00 33.639 0.011 0.120 4.715
MTRga gc /gc 32.17 ft.lbm/lbf.s2Rg 1545 lbf/lb-mol°R
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FCR PCV-13
FT
P
UDARA PANAS
TCR
P-10
SPRAY TOWER CONTROL SYSTEM
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PIPE THICKNESS SIZING CALCULATION
From British BS 3351 standard, the thickness of pipepine is given by equation (R.K. Sinnot) ;
P
Pdt
d
20
Where;P = internal design pressure, bar.d = outside radius of pipe, mm.σd = allowable stress of pipe material at design temperature, N/mm2.
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?? Reduced Inlet Piping
Anything wronghere?
ReducedInlet Piping
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?? Plugged Bellows, Failed Inspection, Maintenance
Bellows pluggedin spite of sign
Anything wronghere?
FailedInspectionProgram
Signs ofMaintenance
Issues
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?? Discharges Pointing DownAnything wrong
here?
Anything wronghere?
DischargesPointing Down
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?? Long Moment Arm
Anything wronghere?
LongMoment Arm
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?? Will these bolts hold in a relief event
Anything wronghere?
Will thesebolts hold
in arelief event?
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Mexico City Disaster
Major Contributing Cause:Major Contributing Cause:Missing Safety ValveMissing Safety Valve
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Summary
Pressure Relief– Very Important ACTIVE safety element– Connected intimately with Process Hazard
Analysis– Requires diligence in design, equipment
selection, installation, inspection and maintenance
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References
Crowl and Louvar – Chemical Process Safety, Chapters 8 and 9
Ostrowski – Fundamentals of Pressure Relief Devices
Sterling – Safety Valves: Practical Design, Practices for Relief, and Valve Sizing