10. feed water, condensate and steam system [compatibility mode].pdf
TRANSCRIPT
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10 Feed Water, Condensate & Steam in E/R
Course 2004
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Slide 2
� Purpose of the rules and regulations;
Feed Water, Condensate and Steam System - E/R
� To ensure that steam is generated and distributed to consumers in a safe and reliable way.
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Slide 3
Feed Water, Condensate and Steam System - E/R
− Steam boilers with working pressure above 7 bar
Arrangements for preheating and deaeration of feed water before entering the boiler is to be provided.
Preheating arrangement to be capable of maintaining T > 80ºC when the boilers are operated at maximum load during normal seagoing condition/service.
Arrangements are to be provided enabling repair of the heater without interrupting the feed water supply.
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Slide 4
Feed Water, Condensate and Steam System - E/R
− Feed water intakes on boilers should have a stop valve and a check valve.
− At least one valve for testing boiler water is to be fitted directly to each boiler.
It is not to be fitted on the water gauge mounting or standpipes.
− Reserve feed water tanks (e.g., FW tanks) to have capacity at least twice the hourly evaporation rate of the main boilers.
− Where fuel oil or lube oil tanks, heaters or purifiers are heat by steam in pipe coils.
The condensate is to be led into an observation tank.
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Slide 5
Feed Water, Condensate and Steam System - E/R
− If two or more boilers are connected to a common header or steam manifold.
Steam connection to each boiler is to be provided with two shut-off valves with a free blowing drain in between.
This requirement does not apply to exhaust gas economisers with forced circulation.
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Slide 6
Feed Water, Condensate and Steam System - E/R
− Where blow - downs from two or more boilers are connected to a common discharge.
Two valves are to be fitted to each discharge.
− A blow-down valve on the ship’s side is to be fitted in a readily accessible position.
The valve is to be located above the level of the floor in such a way that it is easy to verify whether it is open or shut.
− Boilers with a heating surface ≥ 10m² are to have at least 2 safety valves.
Heating surface < 10m² : at least 1 safety valve.
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Slide 7
Feed Water and Steam generating System
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Slide 8
C.O.P.T Steam service & condensate System
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Slide 9
Condensate System
INCIN. WASTE
OIL TK.
G/E L.O
SETT. TK
M/E L.O
SETT.TK
H.F.O
STOR.
TK(S)
F.W
GENERATOR
M/E JACKET F.W
HEATER
PURIFIERS
SLUDGE
TK
H.F.O
SERV.TK
H.F.O
SETT TK
SEPARATED
BILGE OIL TK
F.O
OVERFLOW /
DRAIN TANKH.F.O
STOR.
TK(P)
ACCOMMODATION TO
AIR COND. PLANT
TO ATMOS. DRN/
DUMP CONDENSER
FM DECK STEAM
SERV.LINE
FM DRAIN SEPARATOR
& TURBINE STEAM
MANIFOLD DRAIN
FM LINE
TRACING
FM LINE
TRACING
AUX. BLR F.O
HEATERS
M/E F.O
HEATERS
G/E F.O
HEATERS
MAIN L.O PURI.
HEATERS
H.F.O PURI.
HEATERS
AUX. BOILER ATOM.
STEAM DRAIN
FM LINE
TRACING
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Slide 10
Aux. Boiler
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Slide 11
Aux. Boiler (Drum Type)
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Slide 12
Safety valve
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Slide 13
Cascade Tank
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Slide 14
Feed Water Temp – O2 Content
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Slide 15
REGULATING VALVE
Temperature Control Valve (Direct acting Type)
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Slide 16
REGULATING VALVE
Pressure Regulating Valve (Pneumatic Type)
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Slide 17
REGULATING VALVE
Pressure Regulating Valve (Electro-pneumatic Type)
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Slide 18
REGULATING VALVE
Pressure Regulating Valve (Electronic Type)
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Slide 19
REGULATING VALVE
Temperature Control Valve (Pneumatic Type)
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Slide 20
REGULATING VALVE
Temperature Control Valve (Electro-pneumatic Type)
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Slide 21
REGULATING VALVE
Temperature Control Valve (Electric Type)
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Slide 22
REGULATING VALVE
Temperature Regulating Valve (Direct acting type)
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Slide 23
STEAM TRAP
� Steam traps are automatic valves that release condensed steam (condensate) from a steam space while preventing the loss of live steam.
� Steam traps are designed to maintain steam energy efficiency for performing specific tasks such as heating a building or maintaining heat for process use.
� reference: www1.eere.energy.gov/femp/operations_maintenance/om_sttypes.html
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Slide 24
STEAM TRAP
� Once steam has transferred heat through a process and becomes hot water, it is removed by the trap from the steam side as condensate and either returned to the boiler via condensate return lines or discharged to the atmosphere, which is a wasteful practice.
� Type
1 Mechanical Steam Trap
2 Thermostatic Steam Trap
3Thermodynamic Steam Trap
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Slide 25
STEAM TRAP
1. Mechanical Steam Trap
- The operation of a mechanical steam trap is driven by the difference in density between condensate and steam.
- Types
Ball float
Inverted bucket
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Slide 26
STEAM TRAP
Ball Float Trap
- The denser condensate rests on the bottom of any vessel containing the two fluids. As additional condensate is generated, its level in the vessel will rise. This action is transmitted to a valve via either a "free float" or a float and connecting levers in a mechanical steam trap.
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Slide 27
STEAM TRAP
Inverted bucket type
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Slide 28
STEAM TRAP
2. Thermostatic Steam Trap
- the operation of a thermostatic steam trap is driven by the difference in temperature between steam and sub-cooled condensate.
- Type
1 Bellows Trap
2 Thermo Wax Trap
3 Bimetallic Trap
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Slide 29
STEAM TRAP
1 Bellows Trap 2 Thermo Wax Trap
3 Bimetalic Trap
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Slide 30
STEAM TRAP
3. Thermodynamic Steam Trap (Disc Trap)
- Thermodynamic trap valves are driven by differences in the pressure applied by steam and condensate, with the presence of steam or condensate within the trap being affected by the design of the trap and its impact on local flow velocity and pressure.
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Slide 31
� References;
Feed Water, Condensate and Steam System - E/R
- SOLAS 1974 as amended Ch.II-1 Reg.32 and 33
- DNV Rules for Ships Pt.4 Ch.6 Sec.5F/G
- DNV Rules for Ships Pt.4 Ch.7 Sec.6