Atd boilers unit 4 ppt

STEAM BOILERS,
MOUNTINGS
&
ACCESSORIES

STEAM BOILERS, MOUNTINGS & ACCESSORIES
The equipment used for
producing and transferring
steam is called
Steam generators/
Boilers.

Principle of Steam Generators/ Boilers:
The fluid (water) contained in the boiler
called shell and the thermal energy released
during combustion of fuel, which may be
solid, liquid or gaseous, is transferred to
water and this converts water into steam at
the desired temperature and pressure.

Commercial usage of Steam:
i) Power generation
ii) Heating the residential and
commercial buildings in cold
weather countries.
iii)Other industrial usages e.g. sugar
industries and chemical industries
etc.

Classification of
Boilers

Classification of Boilers:
Boilers may be classified according to the following-
1. Relative position of Hot gases and Water
a) Fire Tube Boiler:
The hot gases passes through the tubes that are surrounded by
water. Fire tube boilers are also known by certain common
names-
 Horizontal return tubular
 Locomotive fire box
 Scotch Marine
 Vertical tubular
 Cochran boiler
 Lancashire boiler

b) Water Tube Boiler:
The water passes through the tubes and the hot gases
produced by combustion of fuel, flow outside. This
type of Boilers designated by the following
common names:
i) Babcock and Wilcox Boiler (straight but inclined
tubes which connect the headers).
ii) Stirling Boiler (multi tubular boiler having bent
tubes that connect boiler drums to headers).

2. Method of firing
a) Internally fired Boilers:
The furnace is provided inside the boiler shell and is
completely surrounded by water cooled surfaces.
This method of firing is used in:
• Lancashire Boilers (F.T)
• Locomotive Boilers (F.T)
• Scotch Boilers

b) Externally fired Boilers:
The furnace is provided outside/ under the boiler. It has an
advantage that its furnace is simple to construct and can
easily be enlarged, as and when required. This method of
firing is used in Babcock and Wilcox Boiler.
3) Pressure of Steam:
i) High pressure Boilers:
Boilers producing steam 80 bar and above are called High
pressure boilers. E.g.
* Babcock and Wilcox Boiler (W.T)
* Lamont Boilers
* Velox Boilers and
* Benson Boilers etc.

ii) Low pressure Boilers:
Boilers producing steam Lower than 80 bar are called
Low pressure boilers. E.g.
• Cochran Boilers
• Cornish Boiler
• Lancashire Boiler
• Locomotive Boiler

4. Method of circulation of water:
a) Natural circulation method
Circulation set up by convection current or by
gravity.
b) Forced circulation method
Circulation set up for high pressure steam through
pumps.

5. Nature of service to be performed:
a) Land Boilers:
Boilers which are used with stationary plants
b) Portable Boilers:
Boilers which can be readily dismantaled and
easily carried out from one site to another.
c) Mobile Boilers:
Boilers which are fitted on mobile carriages are
called Mobile Boilers. E.g. marine and
locomotive boilers.

6. Once through Boilers:
The boilers in which no circulation of water takes place
i.e. the feed water leaves the tube as steam e.g.
Benson Boilers.
7. Position and No. of Drums:
Single or multi drums may be positioned longitudinally
or crosswise.
8. Design of gas passages:
a) Single pass
b) Return pass
c) Multi pass

9. Nature of Draught:
a) Natural Draught:
when the fuel burns in the furnace of the
boiler, with the circulation of air, the draught
is named as Natural Draught.
b) Artificial Draught:
When the air is forced by means of forced fan,
the draught is named as Artificial Draught.

10.Heat Source:
a) Combustion of solid, liquid or gaseous fuel.
b) Electrical and nuclear energy.
c) Hot waste gases of other chemical reactions.
11. Fluid Used:
a) Steam Boilers- use water as a fluid.
b) Mercury Boilers- use mercury as a fluid.
c) Other Boilers- use special chemicals as a fluid.

12. Material of construction of Boiler Shell:
a) Cast Iron Boilers: Low pressure heating Boilers.
b) Steel Boilers: Low pressure heating Boilers.
c) Copper and Stainless steel Boilers: Miniature
Boilers.

SELECTION OF BOILER
The workingpressure&qualityofsteam.
Steam generation rate.
Floor areaavailable.
Accessibility for repair&inspection.
Comparative initialcost.
The fuel&wateravailable.
Operating &maintenancecost.

PROPERTIES OF BOILER
a) Safety: The boiler should be safe under the operating
conditions.
b)Accessibility: the various part of boiler should be
accessible for repair & maintenance.
c) Capacity: Should be capable of supplying Steam
according to the requirements.
d)Efficiency: Should be able to absorb a maximum amount
of heat produced due to burning of fuel in the furnace.
e) It should be simple in construction.
f) Its initial cost and maintenance cost is low.
g) It should be capable of quick starting and loading.

F.T vs W.T BOILERS
SNo. Particulars FireTube Boilers Water Tube Boilers
1. ModeOf Firing Internally Fired Externally Fired
2.
Rate OfSteam Production Lower Higher
3. Construction Difficult Simple
4. Transportation Difficult Simple
5.
Treatment OfWater Not So Necessary More Necessary
6.
Operating Pressure LimitedTo 16 Bar
Under HighPressureAs100
Bar
7. FloorArea More Floor Area LessFloor Area
8. Shell Diameter LargeFor Same Power SmallSame Power
9. Explosion Less More
10. RiskOf Bursting Lesser More Risk

Fire tube boiler
Cochran Boiler
• Simple vertical boiler
• Suitable for small plants require small quantity of
steam.
• Size = 1 m Dia. x 2 m high (evaporation 20kg/hr.)
• Size = 3 m Dia. x 6 m high (evaporation 3000kg/hr.)
• Heating surface= 10 to 25 times of grate area
• Steam pressure= upto 20 bar
• Efficiency = 70 to 75%

Cochran Boiler
Advantages:
• Low floor area required.
• Low initialization cost.
• It is easy to operate.
• Transport from one place to another is very easy.
• It has a higher volume to area ratio.
Disadvantages:
• Low steam generation rate.
• Limited pressure handles capacity.
• It is difficult to inspect and maintain.

FIRE TUBE BOILER
LANCASHIRE BOILER

LANCASHIRE BOILER
• Internally fired, horizontal,
natural draught and natural
circulation type boiler.
• Diameter of tubes is 0.4 times
the diameter of shell.
• Each flue tube has its own
furnace with grate of about 2
met. Length.
• Dampers are placed in the
path of the flue gases to
regulate gas flow and air
inflow.
• Openings are made in the
boiler for inspection.

LANCASHIRE BOILER
(Working)
• Flue gases traverse along the
horizontal path.
• To the rear end  bottom
common flue  travel back to
front of the boiler  bifurcate
pass into the two sides
discharge to the atmosphere
through chimney.
• Perforated feed pipe controls the
feed water boiler strongly
heated steam generates
generated steam contains water
particles water particles
remove by passing through
antipriming pipe steam taken
to stop valve to supplied to
steam engine.

LANCASHIRE BOILER
(Capacity and Utility)
•Made to withstand working pressure up to
20bar.
•Evaporative capacity 8000 kg/hr.
•Heating surface: grate area 24:30
•Shell size ranges from (2m diameter x 6m
length) to (3m diameter x 10m length)
•Widely used in sugar mills, chemical
plants, power systems, process works.

LANCASHIRE BOILER
S.No Advantages Disadvantages
1 Simplicity of design Maximum working pressure is limited to 20
bar.
2 Good steaming quality More floor area is required due to brick work
setting.
3 Can burn coal of inferior quality Cracks in setting due to large temperature
difference inside and out side.
4 Easy to clean and inspect Restricted grate area due to furnace being
inside
5 Less maintenance and operating
cost
More time taken for developing steam
pressure due to large water capacity.
6 Stand against sudden heavy
demand for considerable time
without appreciable pressure drop.

LOCOMOTIVE BOILER
• Internally fired, horizontal, multitubular, natural circulation,
artificial draft fire tube type portable boiler.
• Dimensions and specifications:
Length and diameter of barrel : 5.203m and 2.095m
Size and number of super heater tubes : 14 cm and 38
Size and number of fire tubes : 5.72 cm and 116
Working pressure and capacity : 14 bar and 9000 kg/hr.
Heating surface and grate area : 271m2 and 4.2 m2

LOCOMOTIVE BOILER
(Utility/ Application)
• The locomotive boiler is so designed that it is capable
of meeting sudden and fluctuating demand of steam,
which may be imposed due to variation in power and
speed.
• Uses in railways, road rollers etc.
• Also used in agricultural fields, saw mill plants and
stationary power services where semi- portability is
desired.

LOCOMOTIVE BOILER
Advantages Disadvantages
Large rate of evaporation (55
to70kg/sec) per sq. met. Of
heating surface.
Incapable of meeting very high
overloads because of danger of
being damaged due to overheat.
Freedom from brickwork,
chimney and special foundations,
which reduces the cost of
installation.
Max. steam pressure is limited to
20 bar.
Reasonable low cost and
compactness makes it ideal for
portable unit.
Leakage occurs frequently at the
place where the tube joins the
plate.
Large flat surface needs bracing
Accumulation of mud particles in
water lags cause scale formation.

BABCOCK & WILCOX BOILERS
(Constructional features)
 It consist of welded steel high
pressure drum mounted at the top.
 Drum is connected with uptake
header and down take header.
 Water tubes connected to the
headers are inclined at 150 to the
horizontal.
 Water tubes are straight and 10cm
diameter expended into the bored
holes of header.
 Serpentine from of header provides
complete heating surface to the
flue gases.
 Furnace is arranged below the
uptake header.

(Constructional features)
 Unit is provided with chain grate stroker.
 Speed of chain is adjusted with respect
to the complete combustion of coal.
 Deflectors to flue gases are provided in
the form of baffles.
 Mud Box: To collect the sedimentation in
water.
 Super heater tubes: To enhance the
super heated steam.
 Vents provided: safety valve, pressure
gauge, water level indicator, fusible plug
and feed check valve.
 Water tube and drum assembly hung on
steel girder frame called slings.

(Capacity and utility)
 Evaporative capacity ranges from 20000 to 40000
kg/hr
Operative pressure ranges from 11.5 to 17.5 bar.
Steam formed from such boilers are primarily used
to run steam turbines and generate electric power.

(Salient Aspects)
 Capability to cope with high peak loads which
are generally needed in thermal power
stations.
 Inspection of the boiler can be carried even
when the boiler is in operation.
 Draught loss is minimum.
 Replacement of defective tubes can be made
easily.

STIRLING BENT- TUBE BOILER
1. Drums are interlinked to each other with
bent water tubes for the following
reasons:
a) To allow free expansion and contraction of
the tubes.
b) Tube replacement become easier.
c) Flexibility in design with regards to
location of drums.
d) Tubes can enter the drums in
approximately radial direction.
2. Mud drum is usually 10 to 25cm larger in
diameter than a steam drum.
3. Entire unit is independent of brick work.
4. High steam pressures (60bar and 4500c).
5. Evaporation capacity up to 50000kg/hr.

COMPARISION
Between
WATER TUBE
&
FIRE TUBE
BOILERS
WATER TUBE FIRE TUBE
Water passes through water
tubes.
Hot gases passes through
flues.
Water content: steam capacity
low (high speed)
Water content: Steam capacity
high (Slow speed)
Complexity in design requires
quick examination by skilled
hands.
Simple & rigid construction
hence greater reliability & low
operating cost.
Operating pressure up to 200
bar.
Pressure ranges from 17.5 bar
to 24.5 bar
Evaporation rate ranges from
20,000 to 50,000kg/hr.
Evaporation rate 900kg/hr.
Increased heating surface area. Low heating surface area.
Low water to steam ratio Large water to steam ratio
Bigger in size, suitable for large
power plants
Smaller in size, used only for
small power plants
Transportation and installation
is easy due to handling of
dismentaled parts
Transportation and installation
is difficult due to large size of
shell.
Externally fired boilers, furnace
size can be varied.
Internally fired boilers, furnace
size can not be varied.
Requires more floor area Requires less floor area

ESSENTIALS OF A GOOD BOILER
1. Heat generation capability should be at:
a) Required pressure
b) Required quality
c) Fast speed
d) Minimum fuel consumption
2. Economic :
a) Low initial cost
b) Low installation cost
c) Low operating cost
d) Low maintenance cost

ESSENTIALS OF A GOOD BOILER
3. Construction:
a) Light in weight
b) Less amount of brick work
c) Occupy small floor area
4.Quick starting.
5.Capable to meet fluctuating demand of steam
supply.
6. Easy availability of spare parts

BOILER MOUNTINGS AND
ACCESSORIES
?

BOILER MOUNTINGS AND ACCESSORIES
(Dec 05, Dec 08)
Boiler Mountings:
The necessary devices installed or mounted for
the safety of boiler and its control are called
boiler mountings.

(Dec 05, Dec 08)
Boiler Accessories:
The devices which are installed in the boiler for
their efficient operation and smooth working are
called Boiler Accessories.

(Dec 05, Dec 08)
Boiler Mountings for safety:
1. Two water level indicators – 2
2. Two safety valves.
3. Combined high steam and low water safety
valve.
4. Fusible plug.

(Dec 05, Dec 08)
Boiler Mountings for control:
1. Pressure gauge
2. Junction or stop valve
3. Feed check valve
4. Blow-off cock
5. Man hole and mud hole

(Dec 05, Dec 08)
Boiler Accessories for efficient operation:
1. Water heating devices.
2. Water feeding devices.
3. Super heater
4. Economizer
5. Air preheater

BOILER MOUNTINGS
1. WATER LEVEL INDICATOR (Dec 05, Dec 08)

BOILER MOUNTINGS
2. PRESSURE GAUGE
(Bourdon’s) (Dec 05)
a) Records gauge pressure
b) Elliptical spring tube is also called
Bourdon tube and is made up of
special quality Bronze.
c) Plug (P) is provided for cleaning the
siphon tube.
d) Siphon is filled with cold water to
prevent the hot steam entering into
the bourdon tube and spring tube
remains comparatively cool.

SAFETY VALVES
LEVER SAFETY VALVE
Dead Weight safety valve

SAFETY VALVES
SPRING LOADED SAFETY
VALVE
HIGH STEAM AND LOW WATER
SAFETY VALVE

JUNCTION VALVE:
The valve placed directly on a boiler in order to regulate the
steam supply from boiler to steam pipe is called the Junction
Valve.
STOP VALVE:
The valve used to regulate the steam supply from the steam pipe
to the prime mover (steam engine or steam turbine) is called
Stop Valve.

FEED CHECK VALVE
1. Feed check valve
works as NRV (Non-
return valve).
2. Prevents the back
flow of water from
the boiler when the
feed water pump is
either not working or
in case of its failure.

FUSIBLE PLUG
• Plugs P and R are
made up of Gun
Metal.
• Plug S is made up
of Copper.
• Plug R is screwed to
the plug P.
• Plug S is locked into
plug R by a metal
like tin or lead.

MANHOLE
This is provided at suitable position on the boiler
shell so that the man can enter into boiler shell for
inspection, maintenance and repairs. This hole is
usually made in elliptical shape of the size convenient
for a man to enter through this hole. The opening is
closed by steam tight cover.

STEAM TRAP
Steam trap is used to collect and automatically drain
away the water resulted from partial condensation of
steam without steam to escape with this condensate
through a valve. The valve after draining the
condensate is closed. Is presses the leakage of steam
from the trap.

ANTIPRIMING PIPE
It is attached below the stop valve to avoid the water particles
being carried away along with steam. It has closed pipe with
closed ends of 1m and 2m length. The top side of the pipe has
perforations. When the steam passes through it, due to inertia
effect, the moisture of steam falls into the pipe and the steam
with reduced moisture passes into the stop valve.

BOILER ACESSORIES
The devices used to improve the
performance and operation of the
boilers are called boiler
accessories. Main accessories
used are:

BOILER ACCESSORIES
• WATER HEATING DEVICES
(UPTU- Dec 05)
Used to heat the feed water
before it is fed to boiler with
the help of steam of a steam
engine.
Heating of feed water can be
carried out either by:
1. Open Heater- Direct mixing
2. Closed heater- Indirect
convection
WATER FEEDING
DEVICES
Used to supply water while the
boiler is in operation. These
devices include the use of feed
pumps either reciprocating type or
centrifugal type.

INJECTOR
(UPTU-Dec 04, Dec 05, Dec o6)

SUPER HEATERS
(UPTU-Dec 04, Dec 05, Dec 06)

Atd boilers unit 4 ppt

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Atd boilers unit 4 ppt