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Arafat Hossain
Arafat Hossain
EngineeringBusinessTechnology
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Heat ExchangersHeat Exchangers
 Coolers and heaters are heatCoolers and heaters are heat exchangers and they transfer heatexchangers and they transfer heat energy from one medium to another.energy from one medium to another.  Consist of two channels or system ofConsist of two channels or system of channels, one for each medium.channels, one for each medium.  Mediums are separated by partitionsMediums are separated by partitions through which heat is transferred fromthrough which heat is transferred from the warmer to the cooler one. Heat canthe warmer to the cooler one. Heat can only flow from a higher heat source to aonly flow from a higher heat source to a lower heat region.lower heat region.
 Heat exchangers are called by variousHeat exchangers are called by various names such as coolers, heaters,names such as coolers, heaters, condensers and evaporators. The freshcondensers and evaporators. The fresh water coolers, fuel oil heaters, lubricatingwater coolers, fuel oil heaters, lubricating oil coolers, air coolers are just some of theoil coolers, air coolers are just some of the heat exchangers found on board ships.heat exchangers found on board ships.
CoolersCoolers  On board ships, the main engine is cooledOn board ships, the main engine is cooled by the jacket cooling water and lubricatingby the jacket cooling water and lubricating oil. These fluids are then passed throughoil. These fluids are then passed through a cooler where sea water is used as thea cooler where sea water is used as the cooling medium to cool the fresh watercooling medium to cool the fresh water and the lubricating oil. After being cooledand the lubricating oil. After being cooled the fluids return back to the main enginethe fluids return back to the main engine and the sea water is dischargedand the sea water is discharged overboard.overboard.
HeatersHeaters  Heaters are used for various purposes onHeaters are used for various purposes on board ships. The most essential one isboard ships. The most essential one is used for the fuel oil heating. Theused for the fuel oil heating. The temperature of the fuel oil is raised bytemperature of the fuel oil is raised by passing steam through the heating tubespassing steam through the heating tubes and the oil on the outside of these tubes.and the oil on the outside of these tubes. Thus heat is transferred from the steam toThus heat is transferred from the steam to the fuel oil.the fuel oil.
Types of Heat ExchangersTypes of Heat Exchangers  In theIn the shell & tube typeshell & tube type heat exchangerheat exchanger one medium flows through a set of tubesone medium flows through a set of tubes and the other medium flows on theand the other medium flows on the outside. Thus heat transfer take placeoutside. Thus heat transfer take place across the tube walls.across the tube walls.  In theIn the plate typeplate type heat exchanger, a setheat exchanger, a set of corrugated plates are tightly packedof corrugated plates are tightly packed with spaces in between. The differentwith spaces in between. The different mediums flow on either sides of the platemediums flow on either sides of the plate and heat transfer takes place across theand heat transfer takes place across the plate.plate.
 Tubular exchangers are used in greatTubular exchangers are used in great numbers, far more than any other type ofnumbers, far more than any other type of exchanger. They are made in a wideexchanger. They are made in a wide variety of sizes and styles.variety of sizes and styles.  Tubular exchangers are so widely usedTubular exchangers are so widely used because the technology is wellbecause the technology is well established for making precision metalestablished for making precision metal tubes capable of containing hightubes capable of containing high pressures in a variety of materials. Therepressures in a variety of materials. There is virtually no limit to the range ofis virtually no limit to the range of pressures and temperatures that can bepressures and temperatures that can be accommodated.accommodated.
 1.1. Liquid/liquidLiquid/liquid.. This is by far the mostThis is by far the most common application of tubularcommon application of tubular exchangers. Typically, cooling water onexchangers. Typically, cooling water on one side is used to cool a hot effluentone side is used to cool a hot effluent stream. Both fluids are pumped throughstream. Both fluids are pumped through the exchanger so that the principal modethe exchanger so that the principal mode of heat transfer is forced convective heatof heat transfer is forced convective heat transfer.transfer.
 2.2. Liquid/gasLiquid/gas.. This is also very common,This is also very common, typically for the air cooling of a hot liquidtypically for the air cooling of a hot liquid effluent. The liquid is pumped through theeffluent. The liquid is pumped through the tubes with very high rates of convectivetubes with very high rates of convective heat transfer. The air, in cross-flow overheat transfer. The air, in cross-flow over the tubes, may be in the forced or freethe tubes, may be in the forced or free convective mode. Heat-transferconvective mode. Heat-transfer coefficients on the air side are lowcoefficients on the air side are low compared with those on the liquid side.compared with those on the liquid side. Fins are usually added on the outsides (airFins are usually added on the outsides (air side) of the tubes to compensate.side) of the tubes to compensate.
 3.3. Gas/gasGas/gas.. This type of exchanger isThis type of exchanger is found in the exhaust-gas/air preheating,found in the exhaust-gas/air preheating, steel furnaces, and etc. Insteel furnaces, and etc. In many casesmany cases one gas is compressed so the density isone gas is compressed so the density is high, while the other is at low pressurehigh, while the other is at low pressure with a low density. Normally the high-with a low density. Normally the high- density fluid flows inside the tubes.density fluid flows inside the tubes. Internal and external fins are sometimesInternal and external fins are sometimes provided to enhance the heat transfer.provided to enhance the heat transfer.
 4.4. Condensers.Condensers. These may be liquidThese may be liquid (water) or gas (air) cooled. Alternatively,(water) or gas (air) cooled. Alternatively, the heat from condensing steams may bethe heat from condensing steams may be used to heat another processing fluid.used to heat another processing fluid. Normally the condensing fluid is routed inNormally the condensing fluid is routed in either of two ways:either of two ways:
 a.a. Outside the tubes with liquid cooling,Outside the tubes with liquid cooling, i.e., a water-cooled steam condenser. Finsi.e., a water-cooled steam condenser. Fins are not necessary either inside or outsideare not necessary either inside or outside the tubes.the tubes.  b.b. Inside the tubes with gas cooling, i.e.,Inside the tubes with gas cooling, i.e., an air-cooled Freon condenser heat pumpan air-cooled Freon condenser heat pump or refrigerating system. Fins are normallyor refrigerating system. Fins are normally provided on the outsides of the tubes.provided on the outsides of the tubes. The tubes may be flattened to obtain aThe tubes may be flattened to obtain a better ratio of surface area to flow crossbetter ratio of surface area to flow cross
5.5. Evaporators and boilersEvaporators and boilers  a. Fired systems,a. Fired systems, in which the combustionin which the combustion of fuels at very high temperatures butof fuels at very high temperatures but ambient pressure (and low density)ambient pressure (and low density) generate steam under pressure. Normallygenerate steam under pressure. Normally the water and/or steam is contain insidethe water and/or steam is contain inside the tubes (water tube boiler), and pin fins,the tubes (water tube boiler), and pin fins, studs, or some other form of extendedstuds, or some other form of extended surface is applied to the tubes to enhancesurface is applied to the tubes to enhance the heat transfer. In smaller systems thethe heat transfer. In smaller systems the combustion products may pass throughcombustion products may pass through the tubes (fire tube boilers).the tubes (fire tube boilers).
 b. Unfired systems.b. Unfired systems. These embrace aThese embrace a great variety of different boiler andgreat variety of different boiler and evaporator heat exchangers. Manyevaporator heat exchangers. Many chemical and food-processing applicationschemical and food-processing applications involve the use ofinvolve the use of steamsteam oror electricelectric heating to evaporate solvents, concentrateheating to evaporate solvents, concentrate solutions, distill liquors, or dehydratesolutions, distill liquors, or dehydrate compounds.compounds.
Type of Flow and Flow Patterns inType of Flow and Flow Patterns in HeatHeat  Laminar FlowLaminar Flow
 TurbulentTurbulent FlowFlow
Flow ArrangementsFlow Arrangements  Parallel Flow PatternParallel Flow Pattern  In this type, both the hot andIn this type, both the hot and thethe cold fluids flow in the samecold fluids flow in the same direction.direction.  This type is not normally usedThis type is not normally used inin marine practice except incasesmarine practice except incases where a combination of thewhere a combination of the basic flow arrangement is used.basic flow arrangement is used.  This is due to its inherentThis is due to its inherent poorer heat transfer rates.poorer heat transfer rates.  Advantages –Advantages – a) lower heat transfer surfacea) lower heat transfer surface temperature.temperature. b) more even heat transferb) more even heat transfer
Contra or Counter Flow PatternContra or Counter Flow Pattern  This arrangement is widelyThis arrangement is widely used but the use of baffles orused but the use of baffles or multi-passes of coolant upsetmulti-passes of coolant upset the basic flow arrangement sothe basic flow arrangement so that in most cases athat in most cases a combination of all three iscombination of all three is used.used.  Plate type of heat exchangerPlate type of heat exchanger can use this arrangementcan use this arrangement without combination with anywithout combination with any other.other.  Advantages –Advantages – a) best heat transfer rates.a) best heat transfer rates. b) closer temperatureb) closer temperature differential.differential. c) outlet temperature of coolantc) outlet temperature of coolant can be higher than outletcan be higher than outlet temperature of hot fluidtemperature of hot fluid
Cross Flow PatternCross Flow Pattern  Exchangers such as airExchangers such as air coolers for dieselcoolers for diesel engines, super-heatersengines, super-heaters or tubular gas heaters inor tubular gas heaters in boilers use thisboilers use this arrangement but again itarrangement but again it is usual to find that theis usual to find that the heat basic flow isheat basic flow is complicated by multi-complicated by multi- passes and the result ispasses and the result is a combination of flowa combination of flow arrangements.arrangements.

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  • 2.  Coolers and heaters are heatCoolers and heaters are heat exchangers and they transfer heatexchangers and they transfer heat energy from one medium to another.energy from one medium to another.  Consist of two channels or system ofConsist of two channels or system of channels, one for each medium.channels, one for each medium.  Mediums are separated by partitionsMediums are separated by partitions through which heat is transferred fromthrough which heat is transferred from the warmer to the cooler one. Heat canthe warmer to the cooler one. Heat can only flow from a higher heat source to aonly flow from a higher heat source to a lower heat region.lower heat region.
  • 3.  Heat exchangers are called by variousHeat exchangers are called by various names such as coolers, heaters,names such as coolers, heaters, condensers and evaporators. The freshcondensers and evaporators. The fresh water coolers, fuel oil heaters, lubricatingwater coolers, fuel oil heaters, lubricating oil coolers, air coolers are just some of theoil coolers, air coolers are just some of the heat exchangers found on board ships.heat exchangers found on board ships.
  • 4. CoolersCoolers  On board ships, the main engine is cooledOn board ships, the main engine is cooled by the jacket cooling water and lubricatingby the jacket cooling water and lubricating oil. These fluids are then passed throughoil. These fluids are then passed through a cooler where sea water is used as thea cooler where sea water is used as the cooling medium to cool the fresh watercooling medium to cool the fresh water and the lubricating oil. After being cooledand the lubricating oil. After being cooled the fluids return back to the main enginethe fluids return back to the main engine and the sea water is dischargedand the sea water is discharged overboard.overboard.
  • 5. HeatersHeaters  Heaters are used for various purposes onHeaters are used for various purposes on board ships. The most essential one isboard ships. The most essential one is used for the fuel oil heating. Theused for the fuel oil heating. The temperature of the fuel oil is raised bytemperature of the fuel oil is raised by passing steam through the heating tubespassing steam through the heating tubes and the oil on the outside of these tubes.and the oil on the outside of these tubes. Thus heat is transferred from the steam toThus heat is transferred from the steam to the fuel oil.the fuel oil.
  • 6. Types of Heat ExchangersTypes of Heat Exchangers  In theIn the shell & tube typeshell & tube type heat exchangerheat exchanger one medium flows through a set of tubesone medium flows through a set of tubes and the other medium flows on theand the other medium flows on the outside. Thus heat transfer take placeoutside. Thus heat transfer take place across the tube walls.across the tube walls.  In theIn the plate typeplate type heat exchanger, a setheat exchanger, a set of corrugated plates are tightly packedof corrugated plates are tightly packed with spaces in between. The differentwith spaces in between. The different mediums flow on either sides of the platemediums flow on either sides of the plate and heat transfer takes place across theand heat transfer takes place across the plate.plate.
  • 7.  Tubular exchangers are used in greatTubular exchangers are used in great numbers, far more than any other type ofnumbers, far more than any other type of exchanger. They are made in a wideexchanger. They are made in a wide variety of sizes and styles.variety of sizes and styles.  Tubular exchangers are so widely usedTubular exchangers are so widely used because the technology is wellbecause the technology is well established for making precision metalestablished for making precision metal tubes capable of containing hightubes capable of containing high pressures in a variety of materials. Therepressures in a variety of materials. There is virtually no limit to the range ofis virtually no limit to the range of pressures and temperatures that can bepressures and temperatures that can be accommodated.accommodated.
  • 8.  1.1. Liquid/liquidLiquid/liquid.. This is by far the mostThis is by far the most common application of tubularcommon application of tubular exchangers. Typically, cooling water onexchangers. Typically, cooling water on one side is used to cool a hot effluentone side is used to cool a hot effluent stream. Both fluids are pumped throughstream. Both fluids are pumped through the exchanger so that the principal modethe exchanger so that the principal mode of heat transfer is forced convective heatof heat transfer is forced convective heat transfer.transfer.
  • 9.  2.2. Liquid/gasLiquid/gas.. This is also very common,This is also very common, typically for the air cooling of a hot liquidtypically for the air cooling of a hot liquid effluent. The liquid is pumped through theeffluent. The liquid is pumped through the tubes with very high rates of convectivetubes with very high rates of convective heat transfer. The air, in cross-flow overheat transfer. The air, in cross-flow over the tubes, may be in the forced or freethe tubes, may be in the forced or free convective mode. Heat-transferconvective mode. Heat-transfer coefficients on the air side are lowcoefficients on the air side are low compared with those on the liquid side.compared with those on the liquid side. Fins are usually added on the outsides (airFins are usually added on the outsides (air side) of the tubes to compensate.side) of the tubes to compensate.
  • 10.  3.3. Gas/gasGas/gas.. This type of exchanger isThis type of exchanger is found in the exhaust-gas/air preheating,found in the exhaust-gas/air preheating, steel furnaces, and etc. Insteel furnaces, and etc. In many casesmany cases one gas is compressed so the density isone gas is compressed so the density is high, while the other is at low pressurehigh, while the other is at low pressure with a low density. Normally the high-with a low density. Normally the high- density fluid flows inside the tubes.density fluid flows inside the tubes. Internal and external fins are sometimesInternal and external fins are sometimes provided to enhance the heat transfer.provided to enhance the heat transfer.
  • 11.  4.4. Condensers.Condensers. These may be liquidThese may be liquid (water) or gas (air) cooled. Alternatively,(water) or gas (air) cooled. Alternatively, the heat from condensing steams may bethe heat from condensing steams may be used to heat another processing fluid.used to heat another processing fluid. Normally the condensing fluid is routed inNormally the condensing fluid is routed in either of two ways:either of two ways:
  • 12.  a.a. Outside the tubes with liquid cooling,Outside the tubes with liquid cooling, i.e., a water-cooled steam condenser. Finsi.e., a water-cooled steam condenser. Fins are not necessary either inside or outsideare not necessary either inside or outside the tubes.the tubes.  b.b. Inside the tubes with gas cooling, i.e.,Inside the tubes with gas cooling, i.e., an air-cooled Freon condenser heat pumpan air-cooled Freon condenser heat pump or refrigerating system. Fins are normallyor refrigerating system. Fins are normally provided on the outsides of the tubes.provided on the outsides of the tubes. The tubes may be flattened to obtain aThe tubes may be flattened to obtain a better ratio of surface area to flow crossbetter ratio of surface area to flow cross
  • 13. 5.5. Evaporators and boilersEvaporators and boilers  a. Fired systems,a. Fired systems, in which the combustionin which the combustion of fuels at very high temperatures butof fuels at very high temperatures but ambient pressure (and low density)ambient pressure (and low density) generate steam under pressure. Normallygenerate steam under pressure. Normally the water and/or steam is contain insidethe water and/or steam is contain inside the tubes (water tube boiler), and pin fins,the tubes (water tube boiler), and pin fins, studs, or some other form of extendedstuds, or some other form of extended surface is applied to the tubes to enhancesurface is applied to the tubes to enhance the heat transfer. In smaller systems thethe heat transfer. In smaller systems the combustion products may pass throughcombustion products may pass through the tubes (fire tube boilers).the tubes (fire tube boilers).
  • 14.  b. Unfired systems.b. Unfired systems. These embrace aThese embrace a great variety of different boiler andgreat variety of different boiler and evaporator heat exchangers. Manyevaporator heat exchangers. Many chemical and food-processing applicationschemical and food-processing applications involve the use ofinvolve the use of steamsteam oror electricelectric heating to evaporate solvents, concentrateheating to evaporate solvents, concentrate solutions, distill liquors, or dehydratesolutions, distill liquors, or dehydrate compounds.compounds.
  • 15. Type of Flow and Flow Patterns inType of Flow and Flow Patterns in HeatHeat  Laminar FlowLaminar Flow
  • 17. Flow ArrangementsFlow Arrangements  Parallel Flow PatternParallel Flow Pattern  In this type, both the hot andIn this type, both the hot and thethe cold fluids flow in the samecold fluids flow in the same direction.direction.  This type is not normally usedThis type is not normally used inin marine practice except incasesmarine practice except incases where a combination of thewhere a combination of the basic flow arrangement is used.basic flow arrangement is used.  This is due to its inherentThis is due to its inherent poorer heat transfer rates.poorer heat transfer rates.  Advantages –Advantages – a) lower heat transfer surfacea) lower heat transfer surface temperature.temperature. b) more even heat transferb) more even heat transfer
  • 18. Contra or Counter Flow PatternContra or Counter Flow Pattern  This arrangement is widelyThis arrangement is widely used but the use of baffles orused but the use of baffles or multi-passes of coolant upsetmulti-passes of coolant upset the basic flow arrangement sothe basic flow arrangement so that in most cases athat in most cases a combination of all three iscombination of all three is used.used.  Plate type of heat exchangerPlate type of heat exchanger can use this arrangementcan use this arrangement without combination with anywithout combination with any other.other.  Advantages –Advantages – a) best heat transfer rates.a) best heat transfer rates. b) closer temperatureb) closer temperature differential.differential. c) outlet temperature of coolantc) outlet temperature of coolant can be higher than outletcan be higher than outlet temperature of hot fluidtemperature of hot fluid
  • 19. Cross Flow PatternCross Flow Pattern  Exchangers such as airExchangers such as air coolers for dieselcoolers for diesel engines, super-heatersengines, super-heaters or tubular gas heaters inor tubular gas heaters in boilers use thisboilers use this arrangement but again itarrangement but again it is usual to find that theis usual to find that the heat basic flow isheat basic flow is complicated by multi-complicated by multi- passes and the result ispasses and the result is a combination of flowa combination of flow arrangements.arrangements.