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Cooling tower

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hyder mohammed
hyder mohammed

1) Cooling towers are commonly used to dissipate heat from water-cooled refrigeration and air conditioning systems. They work by exposing water to atmospheric air, allowing some of the water to evaporate and transfer heat from the remaining liquid water into the air stream. 2) There are two main types of cooling towers: direct contact towers which expose water directly to air, and indirect contact towers which involve two separate fluid circuits that transfer heat indirectly. 3) Cooling towers can be categorized as natural draft, forced draft, or induced draft depending on whether they use natural convection or fans to force or draw air through the tower.

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University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower Chapter Nine Cooling Tower 9.1 Introduction Most air-conditioning systems and industrial processes generate heat that must be removed and dissipated. Water is commonly used as a heat transfer medium to remove heat from refrigerant condensers or industrial process heat exchangers. In the past, this was accomplished by drawing a continuous stream of water from a utility water supply or a natural body of water, heating it as it passed through the process, and then discharging the water directly to a sewer or returning it to the body of water. 9.2 Cooling towers Overcome most of these problems and therefore are commonly used to dissipate heat from water-cooled refrigeration, air-conditioning, and industrial process systems. The water consumption rate of a cooling tower system is only about 5% of that of a once-through system, making it the least expensive system to operate with purchased water supplies. Additionally, the amount of heated water discharged (blowdown) is very small, so the ecological effect is greatly reduced. Lastly, cooling towers can cool water to within 2 to 3 K of the ambient wet-bulb temperature, or about 20 K lower than can air-cooled systems of reasonable size. This lower temperature improves the efficiency of the overall system, thereby reducing energy use significantly and increasing process output. 9.3 Principle of operation A cooling tower cools water by a combination of heat and mass transfer. Water to be cooled is distributed in the tower by spray nozzles, splash bars, or film-type fill, which exposes a very large water surface area to atmospheric air. Atmospheric air is circulated by (1) fans, (2) convective currents, (3) natural wind currents, or (4) induction effect from sprays. A portion of the water absorbs heat to change from a liquid to a vapor at constant pressure. This heat of vaporization at atmospheric pressure is transferred from the water remaining in the liquid state into the airstream.
University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower 9.4 Types of cooling tower Two basic types of evaporative cooling devices are used. 1- The direct-contact or open cooling tower (Figure 1), exposes water directly to the cooling atmosphere, thereby transferring the source heat load directly to the air. 2- Indirect or closed-circuit cooling tower involves indirect contact between heated fluid and atmosphere (Figure 2), essentially combining a heat exchanger and cooling tower into one relatively compact device. Fig. 1 Direct-Contact or Open Evaporative Cooling Tower Fig. 2 Indirect-Contact or Closed-Circuit Evaporative Cooling Tower Direct-contact devices, the most rudimentary is a spray filled tower that exposes water to the air without any heat transfer medium or fill. In this device, the amount of water surface exposed to the air depends on the spray efficiency, and the time of contact depends on the elevation and pressure of the water distribution system. Indirect-contact (closed-circuit) cooling towers contain two separate fluid circuits: (1) an external circuit, in which water is exposed to the atmosphere as it cascades over the tubes of a coil bundle, and (2) an internal circuit, in which the fluid
University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower to be cooled circulates inside the tubes of the coil bundle. In operation, heat flows from the internal fluid circuit, through the tube walls of the coil, to the external water circuit and then, by heat and mass transfer, to atmospheric air. As the internal fluid circuit never contacts the atmosphere, this unit can be used to cool fluids other than water and/or to prevent contamination of the primary cooling circuit with airborne dirt and impurities. Some closed-circuit cooling tower designs include cooling tower fill to augment heat exchange in the coil (Figure 3). Figure 3. Indirect-contact cooling tower To increase contact surfaces as well as time of exposure, a heat transfer medium, or fill, is installed below the water distribution system, in the path of the air. The two types of fill in use are splash-type and film-type. Splash-type fill Maximizes contact area and time by forcing the water to cascade through successive elevations of splash bars arranged in staggered rows. Film-type fill Achieves the same effect by causing the water to flow in a thin layer over closely spaced sheets, principally polyvinyl chloride (PVC), that are arranged vertically.
University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower Figure 4. Splash-type fill Figure 5. Film-type fill Either type of fill can be used in counter flow and cross-flow towers. For thermal performance levels typically encountered in air conditioning and refrigeration, a tower with film-type fill is usually more compact. However, splash- type fill is less sensitive to initial air and water distribution and, along with specially configured, ore widely spaced film-type fills, is preferred for applications that may be subjected to blockage by scale, silt, or biological fouling.
University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower 9.5 Different parts of cooling tower 1- Eliminator: It is not allowed to pass water. Eliminator is placed the at top of tower, from which only hot air can pass. 2- Spray Nozzles and Header: These parts are used to increase the rate of evaporation by increasing surface area of water. 3- PVC Falling: It reduces the falling speed of hot water and it is similar to beehive. 4- Mesh: When the fan is ON, it uses atmosphere air which contains some unwanted dust particles. Mesh is used to stop these particles and do not allow to enter dust in to cooling tower. 5- Float Valve: It is used to maintain level of water. 6- Bleed Valve: It is used to control the concentration of minerals and salt. 7- Body: Body or outer surface of cooling tower is often made up from FRP (fiber reinforced plastic), which protects the internal parts of cooling tower. Figure 6. Parts of Cooling Tower 9.6 Types of Direct-Contact Cooling Towers Cooling towers fall into two main categories (see Figure 6): 1- Natural draft (Non-Mechanical-Draft Towers) 2- Mechanical draft.
University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower Mechanical draft towers are available in the following airflow arrangements: 3- Counter flows induced draft. 4- Counter flow forced draft. 5- Cross flow induced draft. Figure 7. Types of Direct-Contact Cooling Towers 9.7 Natural draft towers or hyperbolic cooling tower It makes use of the difference in temperature between the ambient air and the hotter air inside the tower. It works as follows: β€’ Hot air moves upwards through the tower (because hot air rises). β€’ Fresh cool air is drawn into the tower through an air inlet at the bottom. β€’ Due to the layout of the tower, no fan is required and there is almost no circulation of hot air that could affect the performance. a b Figure 8 Types of Natural draft towers. a- vertical Spray Tower, b- horizontal Spray Tower
University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower Cross flow Counter flow Figure 9 Types of flow tower fill. a b Figure 10 Types of cross flow tower fill. a- Induced draft, single-flow cross flow tower fill b- Induced draft double-flow cross flow tower fill 9.8 Mechanical draft cooling towers ο‚· Mechanical draft towers have large fans to force or draw air through circulated water. The water falls downwards over fill surfaces, which help increase the contact time between the water and the air - this helps maximize heat transfer between the two.
University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower ο‚· Cooling rates of mechanical draft towers depend upon various parameters such as fan diameter and speed of operation, fills for system resistance etc. ο‚· Mechanical draft towers are available in a large range of capacities. Towers can be either factory built or field erected – for example concrete towers are only field erected. ο‚· Many towers are constructed so that they can be grouped together to achieve the desired capacity. Thus, many cooling towers are assemblies of two or more individual cooling towers or β€œcells.”. A- Forced Draft Cooling Towers (Figure 11) How it works: air is blown through the tower by a fan located in the air inlet ο‚· Advantages: 1- Suited for high air resistance due to centrifugal blower fans 2- Fans are relatively quiet ο‚· Disadvantages: Recirculation due to high air-entry and low air-exit velocities, which can be solved by locating towers in plant rooms combined with discharge ducts Figure 11 Factory-Assembled Counter flow Forced-Draft Tower
University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower B- Induced Draft Cooling Towers Two types of induced draft cooling towers: cross flow and counter flow ο‚· Advantage: Less recirculation than forced draft towers because the speed of exit air is 3-4 times higher than entering air. ο‚· Disadvantage: Fans and the motor drive mechanism require weather-proofing against moisture and corrosion because they are in the path of humid exit air. 1- Induced draft counter flow cooling tower (Figure 12) ο‚· Hot water enters at the top ο‚· Air enters at bottom and exits at top ο‚· Uses forced and induced draft fans Figure 12 Induced draft counter flow cooling tower 2- Induced draft cross flow cooling tower (Figure 13) ο‚· Water enters top and passes over fill ο‚· Air enters on one side or opposite sides ο‚· Induced draft fan draws air across fill Figure 13 Induced draft cross Flow cooling tower
University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower C- Indirect-contact cooling tower (also known as closed-circuit cooling tower) involves indirect contact between the fluid being cooled and the atmosphere, essentially combining a heat exchanger and cooling tower into one relatively compact device. The indirect-contact cooling towers, according to their fan configurations, can also be classified as induced draft counter flow, induced draft cross flow, forced draft counter flow and forced draft cross flow cooling towers. There are two separate fluid circuits in an indirect contact cooling tower. An external circuit allows water exposed to the atmosphere, while internal circuit consists of the tubes of coil bundle carrying fluid to be cooled. Heat flows from the internal fluid circuit, through the tube walls of the coil to external water circuit. Heat is then transferred to the atmospheric air. Figure 14 shows the typical configuration of closed-circuit cooling tower with no fill material. Figure 14 Typical configuration of closed-circuit cooling tower with no fill material

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Cooling tower

  • 1. University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower Chapter Nine Cooling Tower 9.1 Introduction Most air-conditioning systems and industrial processes generate heat that must be removed and dissipated. Water is commonly used as a heat transfer medium to remove heat from refrigerant condensers or industrial process heat exchangers. In the past, this was accomplished by drawing a continuous stream of water from a utility water supply or a natural body of water, heating it as it passed through the process, and then discharging the water directly to a sewer or returning it to the body of water. 9.2 Cooling towers Overcome most of these problems and therefore are commonly used to dissipate heat from water-cooled refrigeration, air-conditioning, and industrial process systems. The water consumption rate of a cooling tower system is only about 5% of that of a once-through system, making it the least expensive system to operate with purchased water supplies. Additionally, the amount of heated water discharged (blowdown) is very small, so the ecological effect is greatly reduced. Lastly, cooling towers can cool water to within 2 to 3 K of the ambient wet-bulb temperature, or about 20 K lower than can air-cooled systems of reasonable size. This lower temperature improves the efficiency of the overall system, thereby reducing energy use significantly and increasing process output. 9.3 Principle of operation A cooling tower cools water by a combination of heat and mass transfer. Water to be cooled is distributed in the tower by spray nozzles, splash bars, or film-type fill, which exposes a very large water surface area to atmospheric air. Atmospheric air is circulated by (1) fans, (2) convective currents, (3) natural wind currents, or (4) induction effect from sprays. A portion of the water absorbs heat to change from a liquid to a vapor at constant pressure. This heat of vaporization at atmospheric pressure is transferred from the water remaining in the liquid state into the airstream.
  • 2. University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower 9.4 Types of cooling tower Two basic types of evaporative cooling devices are used. 1- The direct-contact or open cooling tower (Figure 1), exposes water directly to the cooling atmosphere, thereby transferring the source heat load directly to the air. 2- Indirect or closed-circuit cooling tower involves indirect contact between heated fluid and atmosphere (Figure 2), essentially combining a heat exchanger and cooling tower into one relatively compact device. Fig. 1 Direct-Contact or Open Evaporative Cooling Tower Fig. 2 Indirect-Contact or Closed-Circuit Evaporative Cooling Tower Direct-contact devices, the most rudimentary is a spray filled tower that exposes water to the air without any heat transfer medium or fill. In this device, the amount of water surface exposed to the air depends on the spray efficiency, and the time of contact depends on the elevation and pressure of the water distribution system. Indirect-contact (closed-circuit) cooling towers contain two separate fluid circuits: (1) an external circuit, in which water is exposed to the atmosphere as it cascades over the tubes of a coil bundle, and (2) an internal circuit, in which the fluid
  • 3. University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower to be cooled circulates inside the tubes of the coil bundle. In operation, heat flows from the internal fluid circuit, through the tube walls of the coil, to the external water circuit and then, by heat and mass transfer, to atmospheric air. As the internal fluid circuit never contacts the atmosphere, this unit can be used to cool fluids other than water and/or to prevent contamination of the primary cooling circuit with airborne dirt and impurities. Some closed-circuit cooling tower designs include cooling tower fill to augment heat exchange in the coil (Figure 3). Figure 3. Indirect-contact cooling tower To increase contact surfaces as well as time of exposure, a heat transfer medium, or fill, is installed below the water distribution system, in the path of the air. The two types of fill in use are splash-type and film-type. Splash-type fill Maximizes contact area and time by forcing the water to cascade through successive elevations of splash bars arranged in staggered rows. Film-type fill Achieves the same effect by causing the water to flow in a thin layer over closely spaced sheets, principally polyvinyl chloride (PVC), that are arranged vertically.
  • 4. University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower Figure 4. Splash-type fill Figure 5. Film-type fill Either type of fill can be used in counter flow and cross-flow towers. For thermal performance levels typically encountered in air conditioning and refrigeration, a tower with film-type fill is usually more compact. However, splash- type fill is less sensitive to initial air and water distribution and, along with specially configured, ore widely spaced film-type fills, is preferred for applications that may be subjected to blockage by scale, silt, or biological fouling.
  • 5. University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower 9.5 Different parts of cooling tower 1- Eliminator: It is not allowed to pass water. Eliminator is placed the at top of tower, from which only hot air can pass. 2- Spray Nozzles and Header: These parts are used to increase the rate of evaporation by increasing surface area of water. 3- PVC Falling: It reduces the falling speed of hot water and it is similar to beehive. 4- Mesh: When the fan is ON, it uses atmosphere air which contains some unwanted dust particles. Mesh is used to stop these particles and do not allow to enter dust in to cooling tower. 5- Float Valve: It is used to maintain level of water. 6- Bleed Valve: It is used to control the concentration of minerals and salt. 7- Body: Body or outer surface of cooling tower is often made up from FRP (fiber reinforced plastic), which protects the internal parts of cooling tower. Figure 6. Parts of Cooling Tower 9.6 Types of Direct-Contact Cooling Towers Cooling towers fall into two main categories (see Figure 6): 1- Natural draft (Non-Mechanical-Draft Towers) 2- Mechanical draft.
  • 6. University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower Mechanical draft towers are available in the following airflow arrangements: 3- Counter flows induced draft. 4- Counter flow forced draft. 5- Cross flow induced draft. Figure 7. Types of Direct-Contact Cooling Towers 9.7 Natural draft towers or hyperbolic cooling tower It makes use of the difference in temperature between the ambient air and the hotter air inside the tower. It works as follows: β€’ Hot air moves upwards through the tower (because hot air rises). β€’ Fresh cool air is drawn into the tower through an air inlet at the bottom. β€’ Due to the layout of the tower, no fan is required and there is almost no circulation of hot air that could affect the performance. a b Figure 8 Types of Natural draft towers. a- vertical Spray Tower, b- horizontal Spray Tower
  • 7. University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower Cross flow Counter flow Figure 9 Types of flow tower fill. a b Figure 10 Types of cross flow tower fill. a- Induced draft, single-flow cross flow tower fill b- Induced draft double-flow cross flow tower fill 9.8 Mechanical draft cooling towers ο‚· Mechanical draft towers have large fans to force or draw air through circulated water. The water falls downwards over fill surfaces, which help increase the contact time between the water and the air - this helps maximize heat transfer between the two.
  • 8. University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower ο‚· Cooling rates of mechanical draft towers depend upon various parameters such as fan diameter and speed of operation, fills for system resistance etc. ο‚· Mechanical draft towers are available in a large range of capacities. Towers can be either factory built or field erected – for example concrete towers are only field erected. ο‚· Many towers are constructed so that they can be grouped together to achieve the desired capacity. Thus, many cooling towers are assemblies of two or more individual cooling towers or β€œcells.”. A- Forced Draft Cooling Towers (Figure 11) How it works: air is blown through the tower by a fan located in the air inlet ο‚· Advantages: 1- Suited for high air resistance due to centrifugal blower fans 2- Fans are relatively quiet ο‚· Disadvantages: Recirculation due to high air-entry and low air-exit velocities, which can be solved by locating towers in plant rooms combined with discharge ducts Figure 11 Factory-Assembled Counter flow Forced-Draft Tower
  • 9. University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower B- Induced Draft Cooling Towers Two types of induced draft cooling towers: cross flow and counter flow ο‚· Advantage: Less recirculation than forced draft towers because the speed of exit air is 3-4 times higher than entering air. ο‚· Disadvantage: Fans and the motor drive mechanism require weather-proofing against moisture and corrosion because they are in the path of humid exit air. 1- Induced draft counter flow cooling tower (Figure 12) ο‚· Hot water enters at the top ο‚· Air enters at bottom and exits at top ο‚· Uses forced and induced draft fans Figure 12 Induced draft counter flow cooling tower 2- Induced draft cross flow cooling tower (Figure 13) ο‚· Water enters top and passes over fill ο‚· Air enters on one side or opposite sides ο‚· Induced draft fan draws air across fill Figure 13 Induced draft cross Flow cooling tower
  • 10. University of Kufa – College of Engineering Air Conditioning Engineering Department / 4 th Year By M.Sc.: Hyder M. Abdul Hussein Equipment Technology – Chapter Nine – Cooling Tower C- Indirect-contact cooling tower (also known as closed-circuit cooling tower) involves indirect contact between the fluid being cooled and the atmosphere, essentially combining a heat exchanger and cooling tower into one relatively compact device. The indirect-contact cooling towers, according to their fan configurations, can also be classified as induced draft counter flow, induced draft cross flow, forced draft counter flow and forced draft cross flow cooling towers. There are two separate fluid circuits in an indirect contact cooling tower. An external circuit allows water exposed to the atmosphere, while internal circuit consists of the tubes of coil bundle carrying fluid to be cooled. Heat flows from the internal fluid circuit, through the tube walls of the coil to external water circuit. Heat is then transferred to the atmospheric air. Figure 14 shows the typical configuration of closed-circuit cooling tower with no fill material. Figure 14 Typical configuration of closed-circuit cooling tower with no fill material