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Engg mech and thermodynamics

DEBOLINAMUKHERJEE7
DEBOLINAMUKHERJEE7

This document provides information on different types of steam boilers. It begins with introducing key components of steam boilers such as the boiler shell, combustion chamber, grate, furnace, heating surface, mountings, and accessories. It then describes several specific boiler designs including a simple vertical boiler, Cochran boiler, scotch marine boiler, Lancashire boiler, Cornish boiler, locomotive boiler, and Babcock and Wilcox boiler. Each boiler type is summarized with a diagram and description of its key features and components. The document provides technical details on how different boiler designs generate and circulate steam for various industrial applications.

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UNIT III ENGINEERING MECHANICS AND THERMODYNAMICS EES104
Topics to be Covered:  Introduction to Steam Boilers  Important Terms for Steam Boilers  Essential of a Good Steam Boiler  Selection of a Steam Boiler  Classification of Steam Boiler INTRODUCTION TO BOILERS
Definition: A Steam generator or boiler is, usually, a closed vessel made of Steel. Function: Its function is to transfer the heat produced by the combustion of fuel (solid, liquid, or gaseous) to water, and ultimately to generate steam. The steam produced may be supplied: 1. To an external combustion engine, i.e. steam engine and turbines. 2. At low pressures for industrial process work in cotton mills, sugar factories, breweries, etc, and 3. For producing hot water, which can be used for heating installations at much lower pressures. INTRODUCTION
 Boiler Shell  Combustion  Grate  Furnace  Heating surface  Mountings  Accessories IMPORTANT COMPONENTS OF STEAM BOILER
1. Boiler shell: It is made up of steel plates bent into cylindrical form and riveted or welded together. 2. Combustion chamber: It is the space, generally below the boiler shell, meant for burning fuel in order to produce steam from the water continued in the shell. 3. Grate: It is a platform, in the combustion chamber, upon which fuel (coal and wood) is burnt. The grate, generally, consists of cast iron bars which are spaced apart so that air (required for combustion) can pass through them. 4. Furnace: It is the space, above the grate and below the boiler shell, in which the fuel is actually burnt. The furnace is also called fire box. IMPORTANT COMPONENTS OF STEAM BOILER
5. Heating surface: It is that space, above the grate and below the boiler shell, in which the fuel is actually burnt. 6. Mountings: These are the fittings which are mounted on the boiler for its proper functioning. They include water level indicator, pressure gauge, safety valve etc. It may be noted that a boiler cannot function safely without the mountings. 7. Accessories : These are the devices, which form an integral part of a boiler, but are not mounted on it. They include superheater, economiser, feed pump etc. it may be noted that the accessories help in controlling and running the boiler efficiently. IMPORTANT COMPONENTS OF STEAM BOILER
ESSENTIALS OF A GOOD STEAM BOILER 1. It should produce maximum quantity of steam with the maximum fuel consumption. 2. It should be economical to install and should require little attention during operation. 3. It should rapidly meet the fluctuation of load. 4. It should be capable of quick starting. 5. It should be light in weight. 6. It should occupy a small space. 7. The joints should be few and accessible for inspection. 8. The mud and other deposits should be reduced to a minimum. But it should be sufficient to secure easy ignition, and smokeless combustion of the fuel on reduced load. 9. The tubes should not accumulate soot or water deposits, and should have a reasonable margin of strength to allow for wear or corrosion. 10. The tubes should not accumulate soot or water deposits, and should have as reasonable margin of strength to allow for wear or corrosion. 11. The water and flue gas circuits should be designed to allow a maximum fluid velocity without incurring heavy frictional losses. 12. It should comply with safety regulations as laid down in the Boilers Act.
1. According to the contents in the tube: The steam boilers, according to the contents in the tube may be classified as : (a) Fire tube or Smoke tube boiler (b) Water tube boiler 2. According to the position of the furnace: The steam boilers, according to the position of the furnace are classified as : (a) Internally fired boilers (b) Externally fired boilers 3. According to the axis of the shell: (a) Vertical Boilers (b) Horizontal Boilers CLASSIFICATION OF STEAM BOILERS
CLASSIFICATION OF STEAM BOILERS 4. According to the number of Tubes: (a) Single tube boilers (b) Multi tubular boilers 5. According to the method of circulation of Water and Steam (a) Natural circulation (b) Forced circulation boilers 6. According to the Use: (a) Natural Circulation Boiler (b) Forced Circulation Boiler 7. According to the Surface of Heat: The steam Boilers may also be classified according to the source of Heat supplied.
 A Simple vertical boiler produces steam at a low pressure and in small qualities. It is, therefore used for low power generation or at places where the space is limited.  It consists of a cylindrical shell surrounding a nearly cylindrical fire box. The fire box is slightly tapered towards the top to allow the ready passage of the steam to the surface.  At the bottom of the fire box is a grate. The fire box is fitted with two or more inclined cross tubes F, F.  The inclination is provided to increase the heating surface as well as to the end of end of each water tube for cleaning deposits.  A manhole is provided at the top for a man to enter and clean the boiler. A mud hole is provided at the bottom of the shell to remove the mud, that settles down.  The space between the boiler shell and fire box is filled with water to be heated. SIMPLE VERTICAL BOILER
 There are various designs of vertical multi tubular boilers.  A Chochran boiler is considered to be one of the most efficiently type of such boilers. It is an improved type of simple vertical boiler.  This boiler consists of an external cylindrical shell and a fire box. The shell and fire box are both hemispherical. The hemispherical crown of the boiler shell gives maximum space and strength to withstand the pressure of steam inside the boiler. The hemisphere spherical crown of the fire box is also advantageous for resisting intense heat.  The fire box and the combustion chamber is connected through a short pipe. The flue gases from the combustion chamber flow to the smoke box pass to the atmosphere through a chimney.  The combustion chamber is lined with fire bricks on the shell side. A manhole near the top of the crown on the shell is provided for cleaning.  At the bottom of the fire box, there is a grate (in case of firing) and the coal is fed through the fire hole. If the boiler is used for oil firing, no grate is provided, but the bottom of the fire box is lined with firebricks. The oil burner is fitted at the fire hole. COCHRAN BOILER OR VERTICAL MULTI- TUBULAR BOILER
 The marine steam boilers of the scotch or tank type are used for marine works, particularly due to their compactness, efficiency in operation and their ability to use any type of water. It does not require brick work setting and external flues.  It has a drum of diameter from 2.5 to 3.5 meters placed horizontally. These steam boilers may be single ended or double ended upto 6.5 meters. A single ended boiler has one to four furnaces which enter from front end of the boiler.  A double ended boiler has furnaces on both of its ends, and may have furnaces from two to four in each end.  A single ended scotch marine steam boiler is fired by four furnaces, as shown in fig.  The furnaces are generally corrugated for strength. Each furnace has its own combustion chamber. There are fine flat plates in the combustion chamber, which require staying, i.e., the top plate, back plate, two side plates and the tube plate. There are a number of smoke tubes placed horizontally and connect the combustion chamber to chimney.  The front and back shell are strengthened by longitudinal stays.  The combustion chamber walls from the best heating surfaces. The furnaces tubes, smoke tubes and the combustion chamber, all being surrounded by water, give a very large heating surface area in proportion to the cubical size of boiler.  The water circulates around the smoke tubes. The level of chamber, are forwarded by draught through the smoke tubes, and finally up the chimney. The smoke box is provided with a door for cleaning the tubes and smoke box. SCOTCH MARINE BOILER
 It is a stationary, fire tube, internal ly fired horizontal and natural circulati on boiler .  It is used whe re p res sure an d po we r req u i red a re mo der at e . T h ese b o i l ers ha v e a cy l i nd r ic a l she l l of 1 .7 5 m to 2 .75 m diameter .  Its l eng th v ar i es fr o m 7 .2 5 m t o 9 m . It has tw o i nt er na l f l ue tubes ha v i ng d i a me ter a bou t 0.4 t i m es t hat of she l l. Th is typ e of bo i l e r is se t b r ic k wor k fo r m i ng ex te rna l f l u e so t ha t pa r t of t he heat i ng s ur face is o n the external shell.  A La ncash i r e b o i le r w i th b r ic k wo r k s et t i ng i s sh ow n i n f ig . Th e b o i l er cons i sts o f a lo ng cy l i n der ex t erna l shell (1) built of steel plates, in sections riveted together .  It has t wo l arg e i nt e rna l f lu e tub es (2) . T hese ar e red uced in d ia m ete r a t the ba c k end o f th e f lu e tub e s on wh ic h so l i d fue l i s b urn t . At the end o f t he f i re g ra te , th ere is a br i c k a rch (5 ) t o def l ect th e f l ue g ase s upwards . Th e hot f lu e gases, aft er l ea v in g th e i nt erna l f l ue tu bes pas s do wn to th e bot to m tube (6 ). T hese f l ue g ase s m o ve to th e fro nt of the bo i l e r wh er e th ey d i v i de and f l o w i n to the s id e f l ue (7 ). T he f l ue gas es then e nte r the main flue(9), which leads them to chimney . Th e da m pe r (8 ) is f i t ted at th e en d o f s i d e f l ues to c ont ro l t he dra ugh t ( i.e r ate of f l ow of a i r) an d t hus r egu la te the rate of generation of steam. These dampers are operated by chain passing over a pulley on the front of the boiler . A spring loaded safety valve (10) and a stop valve (11) is mounted as shown in Fig. Th e s top va l v e sup p l i es ste a m t o th e e ng ine as req u ir ed . A h i gh s tea m and l ow wat er va l v e (1 2) to a l s o provided . A perforated feed pipe (14) controlled by a feed valve is used for feeding water uniform ly . When the boiler is strongly heated, the steam generated carries a large quality of water as far as possible . The stop valve thus receives dry steam. A b l o w – of f coc k ( 1 6) re m o ves m ud, e tc . ., tha t set t l es do wn at t 5he bo tt o m o f th e bo i l e r , by fo rc i ng out so m e of the wa ter . It is a ls o us ed to e m pty w ate r i n the b o i le r, w here e ve r re qu i red f or i nspe ct i on . Man ho l es a re provides at the top and bottom of the boiler for cleaning and repair . LANCASHIRE BOILER
 It is similar to a Lancashire boiler in all respects, except there is only one flue tube in Cornish boiler instead of two in Lancashire boiler, as shown in Fig.  The diameter of Cornish boiler is generally 1m to 2 m and its length varies from 5 m to 7.5 m.  The diameter of flue tube may be about 0.6 times that of shell.  The Capacity and Working pressure of a Cornish boiler is low as compared to Lancashire boiler. CORNISH BOILER
 It is a multi – tubular, horizontal, internally fired and mobile boiler. The principle feature of this boiler is to produce steam at a very high rate.  A modern type of a locomotive boiler is shown in Fig.  It consists of a Shell or Barrel having 1.5 meters diameter and 4 meters in length . The coal is fed into the fire through the fire door and burns on grate.  The flue gases from the grate are deflected by a brick arch, and thus whole of the fire box is properly heated.  There are about 157 thin tubes of fire tubes F (47.5 m diameter) and 24 thick or superheated tubes G ( 130 mm diameter). The flue gases after passing through these tubes enter a smoke box. The gases are then lead to atmosphere through a chimney. The barrel contains water around the tubes, which is heated up by the flue gases and gets converted into gases and gets converted into steam.  A stop valve as regulator is provided inside a cylindrical steam done. This is operated by a regulator shaft from the engine room by a driver. The header is divided into two portions, one is the superheated steam from the regulator to the saturated steam chamber.  It then leads the steam to the superheated tubes, and after passing through these tubes, the steam returns back to the superheated steam chamber.  The superheated steam now flows through the steam pipe to the cylinder, one on each side.  The draught is due to exhaust steam from the cylinders, which is discharged through the exhaust pipe. The front door can be opened for cleaning or repairing the smoke box. LOCOMOTIVE BOILER
 It is a straight tube, stationary type water tube boiler, as shown in Fig. It consists of a steam and water drum (1).  It is connected by a short tube with uptake header or riser (2) at the back end.  The water tubes (5) (100 mm diameter) are inclined to the horizontal and connects the uptake header to the downtake header. Each row of the tubes is connected with two headers, and there are plenty of such rows. The headers are curved when viewed in the direction of tubes so that one tube is not in the space of other, and hot gases car, pass properly after heating all the tubes. The headers are provided with hand holes in the front of the front of the tubes and are covered with caps (18).  A mud box (6) is provided with each downtake header and the mud, that settles down is removed. There is a slow moving automatic chain grate on which the coral is fed from the hopper (21).  A fire bricks baffle causes hot gases to move upward and downwards and again upwards before leaving the chimney. The dampers (17) are operated by a chain (17) are operated by a chain (22) which passes over a pulley to the front of a boiler to regulate the draught.  The boiler is suspended on steel girders, and surrounded on all the four sides by fire brick walls. The doors (4) are provided for a man to enter the boiler for repairing and cleaning.  Water continues to circulate like this till it is evaporated. A steam superheater consists of a large number of steel tubes (10) and contains two boxes: one is superheated steam box (11) and other is saturated steam box (12).  The steam generated above the water level in the drum flows in the dry pipe (13) and through the inlet tubes into the superheated steam box (11). It then passes through the tubes (10) into the saturated steam box (12). The steam, during its passage through tubes (10), gets further heated and becomes superheated. The steam is now taken through the outlet pipe (14) to the stop valve (15).  The boiler is fitted with usual mountings, such as safety valve (19), feed valve (20), water level indicator (8) and pressure gauge (9). BABCOCK AND WILCOX BOILER
 This is a modern high pressure water tube steam boiler working on a forced circulation.  The circulation is maintained by a centrifugal pump, driven by a steam turbine, using steam from the boiler . The forced circulation is maintained by a centrifugal pump, driven by a steam turbine, using steam from the boiler. The forced circulation causes the feed water to circulate through the water walls and drums equal to ten times the mass of steam evaporated. This prevents the tubes from being over-heated.  A diagramactic sketch of La- Mont steam boiler is shown in Fig 13.8.  The feed water steam boiler is shown in Fig.  The feed water passes through the economiser to an evaporating drum. It is then drawn to the circulating pump through the tube . The pump delivers the feed to the headers, at a pressure.  The water and steam distributes water through nozzles into the generating tubes acting in parallel.  The header distributes water through nozzles into the generating tubes acting in parallel.  The water and steam distributes water through nozzles into the generating tubes acting in parallel.  The water and steam distributes water through nozzles into the generating tubes acting in parallel.  The water and steam from these tubes passes into the drum. The steam in the drum is then drawn through the superheater. LA-MONT BOILER
 This is a water tube boiler using a forced circulation. Its main principle of working is to evaporate he feed water by means of superheated steam from the superheater.  The hot gases from the furnace are used for superheating.  A diagramatic sketch of a Laeffier steam boiler is shown in Fig.  The feed water from the economiser tubes is drawn from the evaporating drum by a steam circulating pump.  This steam passes through the tubes of the combustion chamber walls and then enters the superheater.  From the superheater, about one- third of the superheated steam passes to the turbine and the remaining two- third is used to evaporate the feed water in the evaporating drum. BENSON BOILER
COMPARISON BETWEEN WATER TUBE AND FIRE TUBE BOILERS Sl. No. Water tube Boiler Fire Tube Boiler 1 The water circulates inside the tube which are surrounded by hot gases from the furnace. The hot gases from the furnace pass through the tubes which are surrounded by water. 2 It generates steam at a higher pressure upto 165 bar. It can generate steam only upto 24. 5 bar. 3 The rate of generation of steam is high i.e. upto 450 tonnes per hour. The rate of generation of steam is low, i.e. upto 9 tonnes per hour. 4 For a given power, the floor area required for the generation of steam is less. i.e. about 5 m² per tonnes per hour. The floor area required is more, i.e. about 8 m² per tonne per hour of steam generation. 5 Overall efficiency with economizer is upto 90 % Its overall efficiency is only 75% 6 It can be transported and erected easily as its various parts can be separated. The transportation and erection is difficult. 7 It is preferred for widely fluctuating loads. It can also cope reasonably with sudden increase in load but for a shorter period. 8 The direction of water circulation is well defined. The water does not circulate in a definite direction. 9 The operation cost is high. The operating cost is less. 10 The operating cost is high. The operating cost is less. 11 The bursting doe not produce does not produce any destruction to the whole boiler. The burning produces greater risk to the damage of the property. 12 It is used for large power plants. It is not suitable for large plants.

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Engg mech and thermodynamics

  • 2. Topics to be Covered:  Introduction to Steam Boilers  Important Terms for Steam Boilers  Essential of a Good Steam Boiler  Selection of a Steam Boiler  Classification of Steam Boiler INTRODUCTION TO BOILERS
  • 3. Definition: A Steam generator or boiler is, usually, a closed vessel made of Steel. Function: Its function is to transfer the heat produced by the combustion of fuel (solid, liquid, or gaseous) to water, and ultimately to generate steam. The steam produced may be supplied: 1. To an external combustion engine, i.e. steam engine and turbines. 2. At low pressures for industrial process work in cotton mills, sugar factories, breweries, etc, and 3. For producing hot water, which can be used for heating installations at much lower pressures. INTRODUCTION
  • 4.  Boiler Shell  Combustion  Grate  Furnace  Heating surface  Mountings  Accessories IMPORTANT COMPONENTS OF STEAM BOILER
  • 5. 1. Boiler shell: It is made up of steel plates bent into cylindrical form and riveted or welded together. 2. Combustion chamber: It is the space, generally below the boiler shell, meant for burning fuel in order to produce steam from the water continued in the shell. 3. Grate: It is a platform, in the combustion chamber, upon which fuel (coal and wood) is burnt. The grate, generally, consists of cast iron bars which are spaced apart so that air (required for combustion) can pass through them. 4. Furnace: It is the space, above the grate and below the boiler shell, in which the fuel is actually burnt. The furnace is also called fire box. IMPORTANT COMPONENTS OF STEAM BOILER
  • 6. 5. Heating surface: It is that space, above the grate and below the boiler shell, in which the fuel is actually burnt. 6. Mountings: These are the fittings which are mounted on the boiler for its proper functioning. They include water level indicator, pressure gauge, safety valve etc. It may be noted that a boiler cannot function safely without the mountings. 7. Accessories : These are the devices, which form an integral part of a boiler, but are not mounted on it. They include superheater, economiser, feed pump etc. it may be noted that the accessories help in controlling and running the boiler efficiently. IMPORTANT COMPONENTS OF STEAM BOILER
  • 7. ESSENTIALS OF A GOOD STEAM BOILER 1. It should produce maximum quantity of steam with the maximum fuel consumption. 2. It should be economical to install and should require little attention during operation. 3. It should rapidly meet the fluctuation of load. 4. It should be capable of quick starting. 5. It should be light in weight. 6. It should occupy a small space. 7. The joints should be few and accessible for inspection. 8. The mud and other deposits should be reduced to a minimum. But it should be sufficient to secure easy ignition, and smokeless combustion of the fuel on reduced load. 9. The tubes should not accumulate soot or water deposits, and should have a reasonable margin of strength to allow for wear or corrosion. 10. The tubes should not accumulate soot or water deposits, and should have as reasonable margin of strength to allow for wear or corrosion. 11. The water and flue gas circuits should be designed to allow a maximum fluid velocity without incurring heavy frictional losses. 12. It should comply with safety regulations as laid down in the Boilers Act.
  • 8. 1. According to the contents in the tube: The steam boilers, according to the contents in the tube may be classified as : (a) Fire tube or Smoke tube boiler (b) Water tube boiler 2. According to the position of the furnace: The steam boilers, according to the position of the furnace are classified as : (a) Internally fired boilers (b) Externally fired boilers 3. According to the axis of the shell: (a) Vertical Boilers (b) Horizontal Boilers CLASSIFICATION OF STEAM BOILERS
  • 9. CLASSIFICATION OF STEAM BOILERS 4. According to the number of Tubes: (a) Single tube boilers (b) Multi tubular boilers 5. According to the method of circulation of Water and Steam (a) Natural circulation (b) Forced circulation boilers 6. According to the Use: (a) Natural Circulation Boiler (b) Forced Circulation Boiler 7. According to the Surface of Heat: The steam Boilers may also be classified according to the source of Heat supplied.
  • 10.  A Simple vertical boiler produces steam at a low pressure and in small qualities. It is, therefore used for low power generation or at places where the space is limited.  It consists of a cylindrical shell surrounding a nearly cylindrical fire box. The fire box is slightly tapered towards the top to allow the ready passage of the steam to the surface.  At the bottom of the fire box is a grate. The fire box is fitted with two or more inclined cross tubes F, F.  The inclination is provided to increase the heating surface as well as to the end of end of each water tube for cleaning deposits.  A manhole is provided at the top for a man to enter and clean the boiler. A mud hole is provided at the bottom of the shell to remove the mud, that settles down.  The space between the boiler shell and fire box is filled with water to be heated. SIMPLE VERTICAL BOILER
  • 11.  There are various designs of vertical multi tubular boilers.  A Chochran boiler is considered to be one of the most efficiently type of such boilers. It is an improved type of simple vertical boiler.  This boiler consists of an external cylindrical shell and a fire box. The shell and fire box are both hemispherical. The hemispherical crown of the boiler shell gives maximum space and strength to withstand the pressure of steam inside the boiler. The hemisphere spherical crown of the fire box is also advantageous for resisting intense heat.  The fire box and the combustion chamber is connected through a short pipe. The flue gases from the combustion chamber flow to the smoke box pass to the atmosphere through a chimney.  The combustion chamber is lined with fire bricks on the shell side. A manhole near the top of the crown on the shell is provided for cleaning.  At the bottom of the fire box, there is a grate (in case of firing) and the coal is fed through the fire hole. If the boiler is used for oil firing, no grate is provided, but the bottom of the fire box is lined with firebricks. The oil burner is fitted at the fire hole. COCHRAN BOILER OR VERTICAL MULTI- TUBULAR BOILER
  • 12.  The marine steam boilers of the scotch or tank type are used for marine works, particularly due to their compactness, efficiency in operation and their ability to use any type of water. It does not require brick work setting and external flues.  It has a drum of diameter from 2.5 to 3.5 meters placed horizontally. These steam boilers may be single ended or double ended upto 6.5 meters. A single ended boiler has one to four furnaces which enter from front end of the boiler.  A double ended boiler has furnaces on both of its ends, and may have furnaces from two to four in each end.  A single ended scotch marine steam boiler is fired by four furnaces, as shown in fig.  The furnaces are generally corrugated for strength. Each furnace has its own combustion chamber. There are fine flat plates in the combustion chamber, which require staying, i.e., the top plate, back plate, two side plates and the tube plate. There are a number of smoke tubes placed horizontally and connect the combustion chamber to chimney.  The front and back shell are strengthened by longitudinal stays.  The combustion chamber walls from the best heating surfaces. The furnaces tubes, smoke tubes and the combustion chamber, all being surrounded by water, give a very large heating surface area in proportion to the cubical size of boiler.  The water circulates around the smoke tubes. The level of chamber, are forwarded by draught through the smoke tubes, and finally up the chimney. The smoke box is provided with a door for cleaning the tubes and smoke box. SCOTCH MARINE BOILER
  • 13.  It is a stationary, fire tube, internal ly fired horizontal and natural circulati on boiler .  It is used whe re p res sure an d po we r req u i red a re mo der at e . T h ese b o i l ers ha v e a cy l i nd r ic a l she l l of 1 .7 5 m to 2 .75 m diameter .  Its l eng th v ar i es fr o m 7 .2 5 m t o 9 m . It has tw o i nt er na l f l ue tubes ha v i ng d i a me ter a bou t 0.4 t i m es t hat of she l l. Th is typ e of bo i l e r is se t b r ic k wor k fo r m i ng ex te rna l f l u e so t ha t pa r t of t he heat i ng s ur face is o n the external shell.  A La ncash i r e b o i le r w i th b r ic k wo r k s et t i ng i s sh ow n i n f ig . Th e b o i l er cons i sts o f a lo ng cy l i n der ex t erna l shell (1) built of steel plates, in sections riveted together .  It has t wo l arg e i nt e rna l f lu e tub es (2) . T hese ar e red uced in d ia m ete r a t the ba c k end o f th e f lu e tub e s on wh ic h so l i d fue l i s b urn t . At the end o f t he f i re g ra te , th ere is a br i c k a rch (5 ) t o def l ect th e f l ue g ase s upwards . Th e hot f lu e gases, aft er l ea v in g th e i nt erna l f l ue tu bes pas s do wn to th e bot to m tube (6 ). T hese f l ue g ase s m o ve to th e fro nt of the bo i l e r wh er e th ey d i v i de and f l o w i n to the s id e f l ue (7 ). T he f l ue gas es then e nte r the main flue(9), which leads them to chimney . Th e da m pe r (8 ) is f i t ted at th e en d o f s i d e f l ues to c ont ro l t he dra ugh t ( i.e r ate of f l ow of a i r) an d t hus r egu la te the rate of generation of steam. These dampers are operated by chain passing over a pulley on the front of the boiler . A spring loaded safety valve (10) and a stop valve (11) is mounted as shown in Fig. Th e s top va l v e sup p l i es ste a m t o th e e ng ine as req u ir ed . A h i gh s tea m and l ow wat er va l v e (1 2) to a l s o provided . A perforated feed pipe (14) controlled by a feed valve is used for feeding water uniform ly . When the boiler is strongly heated, the steam generated carries a large quality of water as far as possible . The stop valve thus receives dry steam. A b l o w – of f coc k ( 1 6) re m o ves m ud, e tc . ., tha t set t l es do wn at t 5he bo tt o m o f th e bo i l e r , by fo rc i ng out so m e of the wa ter . It is a ls o us ed to e m pty w ate r i n the b o i le r, w here e ve r re qu i red f or i nspe ct i on . Man ho l es a re provides at the top and bottom of the boiler for cleaning and repair . LANCASHIRE BOILER
  • 14.  It is similar to a Lancashire boiler in all respects, except there is only one flue tube in Cornish boiler instead of two in Lancashire boiler, as shown in Fig.  The diameter of Cornish boiler is generally 1m to 2 m and its length varies from 5 m to 7.5 m.  The diameter of flue tube may be about 0.6 times that of shell.  The Capacity and Working pressure of a Cornish boiler is low as compared to Lancashire boiler. CORNISH BOILER
  • 15.  It is a multi – tubular, horizontal, internally fired and mobile boiler. The principle feature of this boiler is to produce steam at a very high rate.  A modern type of a locomotive boiler is shown in Fig.  It consists of a Shell or Barrel having 1.5 meters diameter and 4 meters in length . The coal is fed into the fire through the fire door and burns on grate.  The flue gases from the grate are deflected by a brick arch, and thus whole of the fire box is properly heated.  There are about 157 thin tubes of fire tubes F (47.5 m diameter) and 24 thick or superheated tubes G ( 130 mm diameter). The flue gases after passing through these tubes enter a smoke box. The gases are then lead to atmosphere through a chimney. The barrel contains water around the tubes, which is heated up by the flue gases and gets converted into gases and gets converted into steam.  A stop valve as regulator is provided inside a cylindrical steam done. This is operated by a regulator shaft from the engine room by a driver. The header is divided into two portions, one is the superheated steam from the regulator to the saturated steam chamber.  It then leads the steam to the superheated tubes, and after passing through these tubes, the steam returns back to the superheated steam chamber.  The superheated steam now flows through the steam pipe to the cylinder, one on each side.  The draught is due to exhaust steam from the cylinders, which is discharged through the exhaust pipe. The front door can be opened for cleaning or repairing the smoke box. LOCOMOTIVE BOILER
  • 16.  It is a straight tube, stationary type water tube boiler, as shown in Fig. It consists of a steam and water drum (1).  It is connected by a short tube with uptake header or riser (2) at the back end.  The water tubes (5) (100 mm diameter) are inclined to the horizontal and connects the uptake header to the downtake header. Each row of the tubes is connected with two headers, and there are plenty of such rows. The headers are curved when viewed in the direction of tubes so that one tube is not in the space of other, and hot gases car, pass properly after heating all the tubes. The headers are provided with hand holes in the front of the front of the tubes and are covered with caps (18).  A mud box (6) is provided with each downtake header and the mud, that settles down is removed. There is a slow moving automatic chain grate on which the coral is fed from the hopper (21).  A fire bricks baffle causes hot gases to move upward and downwards and again upwards before leaving the chimney. The dampers (17) are operated by a chain (17) are operated by a chain (22) which passes over a pulley to the front of a boiler to regulate the draught.  The boiler is suspended on steel girders, and surrounded on all the four sides by fire brick walls. The doors (4) are provided for a man to enter the boiler for repairing and cleaning.  Water continues to circulate like this till it is evaporated. A steam superheater consists of a large number of steel tubes (10) and contains two boxes: one is superheated steam box (11) and other is saturated steam box (12).  The steam generated above the water level in the drum flows in the dry pipe (13) and through the inlet tubes into the superheated steam box (11). It then passes through the tubes (10) into the saturated steam box (12). The steam, during its passage through tubes (10), gets further heated and becomes superheated. The steam is now taken through the outlet pipe (14) to the stop valve (15).  The boiler is fitted with usual mountings, such as safety valve (19), feed valve (20), water level indicator (8) and pressure gauge (9). BABCOCK AND WILCOX BOILER
  • 17.  This is a modern high pressure water tube steam boiler working on a forced circulation.  The circulation is maintained by a centrifugal pump, driven by a steam turbine, using steam from the boiler . The forced circulation is maintained by a centrifugal pump, driven by a steam turbine, using steam from the boiler. The forced circulation causes the feed water to circulate through the water walls and drums equal to ten times the mass of steam evaporated. This prevents the tubes from being over-heated.  A diagramactic sketch of La- Mont steam boiler is shown in Fig 13.8.  The feed water steam boiler is shown in Fig.  The feed water passes through the economiser to an evaporating drum. It is then drawn to the circulating pump through the tube . The pump delivers the feed to the headers, at a pressure.  The water and steam distributes water through nozzles into the generating tubes acting in parallel.  The header distributes water through nozzles into the generating tubes acting in parallel.  The water and steam distributes water through nozzles into the generating tubes acting in parallel.  The water and steam distributes water through nozzles into the generating tubes acting in parallel.  The water and steam from these tubes passes into the drum. The steam in the drum is then drawn through the superheater. LA-MONT BOILER
  • 18.  This is a water tube boiler using a forced circulation. Its main principle of working is to evaporate he feed water by means of superheated steam from the superheater.  The hot gases from the furnace are used for superheating.  A diagramatic sketch of a Laeffier steam boiler is shown in Fig.  The feed water from the economiser tubes is drawn from the evaporating drum by a steam circulating pump.  This steam passes through the tubes of the combustion chamber walls and then enters the superheater.  From the superheater, about one- third of the superheated steam passes to the turbine and the remaining two- third is used to evaporate the feed water in the evaporating drum. BENSON BOILER
  • 19. COMPARISON BETWEEN WATER TUBE AND FIRE TUBE BOILERS Sl. No. Water tube Boiler Fire Tube Boiler 1 The water circulates inside the tube which are surrounded by hot gases from the furnace. The hot gases from the furnace pass through the tubes which are surrounded by water. 2 It generates steam at a higher pressure upto 165 bar. It can generate steam only upto 24. 5 bar. 3 The rate of generation of steam is high i.e. upto 450 tonnes per hour. The rate of generation of steam is low, i.e. upto 9 tonnes per hour. 4 For a given power, the floor area required for the generation of steam is less. i.e. about 5 m² per tonnes per hour. The floor area required is more, i.e. about 8 m² per tonne per hour of steam generation. 5 Overall efficiency with economizer is upto 90 % Its overall efficiency is only 75% 6 It can be transported and erected easily as its various parts can be separated. The transportation and erection is difficult. 7 It is preferred for widely fluctuating loads. It can also cope reasonably with sudden increase in load but for a shorter period. 8 The direction of water circulation is well defined. The water does not circulate in a definite direction. 9 The operation cost is high. The operating cost is less. 10 The operating cost is high. The operating cost is less. 11 The bursting doe not produce does not produce any destruction to the whole boiler. The burning produces greater risk to the damage of the property. 12 It is used for large power plants. It is not suitable for large plants.