introduction to equipment selection and p&id design
DESCRIPTION
Introduction to Equipment Selection and P&ID DesignTRANSCRIPT
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P&ID Design and Equipment Selection
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Intro What:
Evolution of PFD to P&ID’s and equipment
Who: Process Engineer
How: Understanding appropriate equipment
for the task at hand
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From PFD to ...
P&ID’s
Equipment Design & Selection
Control System DesignProcess
FlowDiagram
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What’s a P&ID? P.. Piping & I.. Instrumentation D.. Diagram
Sometimes called a Mechanical Flow Diagram
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Sample P&ID?
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What a P&ID is.. All Equipment &
Some details Major Flows All Piping and
relative locn of branches
Piping “spec” & diameters
Manual valves Motors Liquid Levels Instrumentation Control Scheme
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What a P&ID is NOT Not to scale (but relative elevations are
shown) Does not explain/show complicated
control schemes Does not show timing dependencies of
controls Does not show Details of Instruments Does not show exact routing of pipes Does not show pipe supports
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Exchangers
•Full Condenser•Partial Condenser•Cooler / Heater•Boiling
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Exchanger Types Double Pipe Shell & Tube Plate & Frame Pipe Coil Finned (air cooled) Fired Direct Contact
- Simple and inexpensive
- Small heat x-fer areas
- suitable for high pressures
- suitable for minimal leakage applications
5 - 7
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Exchanger Types Double Pipe Shell & Tube Plate & Frame Pipe Coil Finned (air cooled) Fired Direct Contact
- Most Commonly used
- High heat transfer area in small volume
- Easily cleaned
- Well established design methods
5 - 7
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Exchanger Types Double Pipe Shell & Tube Plate & Frame Pipe Coil Finned (air cooled) Fired Direct Contact
- High Heat x-fer coeficients
- Small Space Requirements
- Easy Expansion
- Concern For Leakage
5 - 7
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Exchanger Types Double Pipe Shell & Tube Plate & Frame Pipe Coil Finned (air cooled) Fired Direct Contact
5 - 7
- Mainly used submerged in tanks
- Commonly used with agitators
- Low Cost (combines tank & exch)
-Large Space
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Exchanger Types Double Pipe Shell & Tube Plate & Frame Pipe Coil Finned (air cooled) Fired Direct Contact
- Should be considered if water supply is limited
-Better economics than using water when min temp is > 150 °F
High-Fin Tubes0
0
0
FloatingHeader
Ring
Hot FluidIn
Hot FluidOut
Air
Fan Plenum
Air
5 - 7
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- Typically for high temperature requirements
- Usually for utilities (steam gen)
Exchanger Types Double Pipe Shell & Tube Plate & Frame Pipe Coil Finned (air cooled) Fired Direct Contact
5 - 7
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- Very High Heat Transfer Coefficients
- Contamination of Streams
Exchanger Types Double Pipe Shell & Tube Plate & Frame Pipe Coil Finned (air cooled) Fired Direct Contact
5 - 7
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PFD - Column Design Notes
Full condenser Reflux Drum Reboiler
Design Questions Exchanger Types Reflux pumps? Bottoms pumps?
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Column - Full Condenser Full Condenser Exchanger Orientation
Vertical / Horizontal Location
Elevated / Ground Process Shell Side/tube side
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Condenser - Operation
Vapour In
Liq Out
Non Condensables
Decreasing Vapour Velocity
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Column Ovhd - Full Condenser Process In Shell Side Gravity Drain on bottom to Reflux Tank
Tube Inlet
Tube Outlet
Shell Outlet
Shell Inlet
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Full Condenser, Horiz, Ground Level
Most commonly used Liq Outlet on pump disch Pros:
Exch close to ground - maint. / operability
Cons Reflux pumps req’d
VentReq’d
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Full Condenser, Horiz, Elevated No Liq Draw Pros:
No Pumps few controls
Cons Appropriate when no liq draw
is present Structure larger / more
expensive to accommodate exch
Monitoring more difficult Little hold-up - smoothing of
concentrations reflux flow not controlled well
Liq LevelIn Pipe
Liq Draw
VentReq’d
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Full or Partial Condenser, Vertical, Elevated
Pros: No Pumps few controls little piping
Cons Appropriate when no liq draw is
present Column & Structure larger /
more expensive to accommodate exch
Monitoring more difficult Limited Surface Area / exch dia Little hold-up - smoothing of
concentrations reflux flow not controlled well
Vapour Stream IfPartial Condenser
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Column - Partial Condenser Partial Condenser
Lights
Vapour flow velocitiesdominate
Low Velocities
Light MW -Non Condensables collect in stagnant regions- Low U values
High Heat Transfer Coef’s
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Partial Condenser, Horiz, Ground Level
Vapour flow through exchanger, exits from reflux drum
Pros: Exch close to ground -
maint. / operability sweeps non-condensables
through exchanger Cons
Reflux pumps req’dVapour Stream
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Partial Condenser, Vert, Ground Level
Vapour flow exits from exchanger Pros:
Exch close to ground - maint. / operability
sweeps non-condensables through exchanger
Consideration to vapour flow entraining liquid off surface of reflux drum not required.
Non condensables removed more efficiently
Cons Reflux pumps req’d Exchanger internal baffle
required.
Vapour Stream
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Column - Bottoms Reboiler
Natural Circulation Forced Circulation Condensing
Heating Medium Non-condensing
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Stab In
Features: Small U- tube exchanger
inserted directly into column bottom
Pros: Cheap, no shell compact, no plant space
requirements No pressure drop
Cons: Limited surface area
allowed Can’t take exchanger off
line for cleaning without taking entire column out of service
ColumnLiq Level
Seal Pan
RestrictionOrifice
Steam
T
Condensate
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Natural Circulation - Thermosyphon Reboiler
Usually Vertical All Liq Inlet Boiling usually on
tube side Flashing occurs Effective Liquid level
is created
EffectiveLiq Level
2 Phase Outlet
Single Phase Inlet
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Natural Circulation - Thermosyphon Reboiler
h creates flow, offsets frictional flow losses (self limiting)
Heating Medium 30 °C hotter than Process Temp
Pros: High Circulation Rate High Heat x-fer Rate
Cons Difficult to design
(programs)ReboilerLiq Level
ColumnLiq Level
TubesheetVent
Seal Pan
h
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Natural Circulation - Kettle Reboiler
Vapour Outlet
Liq Level
Liq InletLiq Outlet
HeatingIn
Liquid boils as a pool Liquid draw off bottom Heating (condensing
steam?) on tube side, must freely drain
superheating of vapour is possible if liquid level is below top of tube bundle
Pros: Large Surface Areas
are possible Cons:
Heat x-fer coeficients not as high
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Forced Circulation -2 Phase
Features: Pump offsets frictional losses 2 phase outlet Heating Medium 30 °C
hotter than Process Temp Pros:
Can heat viscous fluids Can provide high velocity
maximizing U value minimize fouling
Flow independent of heating Cons:
Energy requirements of pump
ColumnLiq Level
TubesheetVent
Seal Pan
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Forced Circulation -Single Phase
Features: Pump offsets frictional losses Flashing occurs at Column Heating Medium 30 °C
hotter than Process Temp Pros:
Can heat viscous fluids Can provide high velocity
maximizing U value minimize fouling
Flow independent of heating Cons:
Energy requirements of pump (higher than 2 )
Fluid must be heated substantially more
ColumnLiq Level
TubesheetVent
Seal Pan
RestrictionOrifice
Flash Single Phase
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Pumps Where pumps are required, tanks and
controls are required to ensure they don’t run dry
Vapour Stream
LIC
LIT
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Centrifugal Pump - Flow vs Differential Pressure
FLOW
HEAD(P)
System Curve
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Choosing one or two pumps
5 gal/min3000 kPa
High head, low flow Low head, high flow
100 gal/min200 kPa
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Mixers Simulation Mixers usually have no
corresponding equipment
Piping
Reynolds number > turbulent = mixed
For high viscosity fluids (static mixers can be used)
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Reactors Must satisfy the volume / time
requirement of the simulation Usually a vessel / tank for volume Where temperature control is required
may resemble a heat exchanger Consideration to loading catalyst must
be given
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Compressors Simulations do not indicate any of the physical
limitations real compressors exhibit. Real compressors
need cooling have discharge temperature limitations (350 °F) -
may require multiple ‘stages’ often require lubrication systems have expensive controls to prevent physical
damage from occurring (surge) A typical compressor takes 2 to 3 P&ID
sheets to represent
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Our PFD
To_Distil
Degassed
Hot Product
To Final Recovr Water
23 trays
23 trays
Choose Exchangers Redraw with correct elev’s
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END
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Shell And Tube Vertically Mounted
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Shell And Tube Horizontally Mounted
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Shell And Tube Vertically Mounted
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