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CONDENSERS & COOLING TOWERS

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Sachin Khandagale
Sachin Khandagale

introduction for condenser & cooling tower & their type

Engineering
1 of 20
Condensers & Cooling Towers by Mr. S. R. Khandagale 1
Condenser It is a device which condenses working fluid with the help of cooling media (another circulating fluid) • IF cooling media is air  Air cooled condenser mostly used in refrigeration or mobile equipment • IF cooling media is water  water cooled condenser mostly used in stationary plants 2
Steam condenser It is condenser which is used to condense steam Steam condensers are mostly water cooled i.e. in steam condenser working fluid steam cooling media water • Functions 1. Maintain condensing pressure below atmospheric  for improving efficiency 2. to supply hot(?) and pure water to cycle again 3
Elements in condensing plant • ( 4
Classification Depending upon contact of working fluid and cooling media A. Jet condenser  Direct Contact B. Surface Condenser  Indirect contact 5
Jet Condenser a. Low level jet condenser Cooling water required to lift up to 5.5 m i. Counter flow Cooling media & steam flow in opposite direction ii. Parallel Flow Cooling media & steam flow in same direction b. High level jet condenser Cooling water required to lift above 10.33 m c. Ejector jet condenser 6
1. Low level Counter flow jet steam condenser Condensate extraction pump  Required Cooling water pump Not required 7
2. High level counter flow jet condenser Cooling water pump  required Condensate extraction pump  not required 8
Ejector Condenser 1. Non return valve 2. Convergent Nozzle: It reduces pressure of cooling water 3. Convergent divergent nozzle It increases pressure on mix of cooling water and steam upto atmospheric This system is simple, reliable and cheap 9
B. Surface Condenser 1. Shell and tube surface condenser a. Single Pass b. Double Pass 2. Central flow surface condenser 3. Down flow surface condenser 4. Inverted flow surface condenser 5. Evaporative condenser 10
Shell and tube Surface Condenser Cooling water flows through tubes Steam flows through shell As cooling water passes 2 times it is double pass condenser 11
Down Flow Surface Condenser Steam extraction pump at down Baffles guides the steam flow . Also called cross flow heat exchanger as steam & water fow right angles to each other 12
CENTRAL FLOW SURFACE CONDENSER Air extraction pump is located at the center of the condenser tubes. Provides the better contact of steam 13
EVAPORATIVE CONDENSER (Cooling water evaporates) Cooling water evaporates  Steam through pipes  Cooling water sprinkles through nozzles Fins are provided to a)Act as obstruction to flow of water drops b) increase heat transfer surface area 14
JET CONDENSER SURFACE CONDENSER Direct contact Indirect contact Condensation due to mixing Condensation due to heat transfer by conduction and convection Maintenance cost is low Maintenance cost is high. Less Vacuum created More Vacuum created Small floor space required Large floor space required Condensate can not be directly used as feed water Condensate can be directly used as feed water Less power for pumping More power for pumping Less quantity of cooling water required Large quantity of cooling water required Suitable for low capacity plants Suitable for large capacity plants 15
Cooling Tower • Cooling towers are commonly used to remove excess heat that is generated & represent a relatively inexpensive and dependable means of removing low-grade heat from cooling water Working fluid cooling water Cooling media  air Some of cooling water evaporates leading to cooling effect 16
Cooling tower types • Natural draft Air circulation due to density differences • Mechanical or forced or induced draft Air circulation due to fans 17
Natural Draft Cooling Towers. Flow is due to sprays or a differential in air density air velocities for the vertical spray tower are relatively low normally used when operating temperatures are not critical to the system. staged pumping systems are normally recommended to reduce energy use in periods of reduced load and ambient conditions. 18
Mechanical / forced /induced draft cooling towers Air Circulation is due to fans Increased air flow improves evaporation rate centrifugal fan  Incoming air axial air  Outgoing air Higher capacity 19
Factors governing operation of Cooling tower • The dry-bulb and wet-bulb temperatures of the air • The temperature of warm water • The area of contact between air and hot water • The contact time between the air and the water • The air pressure drop • The desired temperature of the cooled water 20

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CONDENSERS & COOLING TOWERS

  • 2. Condenser It is a device which condenses working fluid with the help of cooling media (another circulating fluid) • IF cooling media is air  Air cooled condenser mostly used in refrigeration or mobile equipment • IF cooling media is water  water cooled condenser mostly used in stationary plants 2
  • 3. Steam condenser It is condenser which is used to condense steam Steam condensers are mostly water cooled i.e. in steam condenser working fluid steam cooling media water • Functions 1. Maintain condensing pressure below atmospheric  for improving efficiency 2. to supply hot(?) and pure water to cycle again 3
  • 4. Elements in condensing plant • ( 4
  • 5. Classification Depending upon contact of working fluid and cooling media A. Jet condenser  Direct Contact B. Surface Condenser  Indirect contact 5
  • 6. Jet Condenser a. Low level jet condenser Cooling water required to lift up to 5.5 m i. Counter flow Cooling media & steam flow in opposite direction ii. Parallel Flow Cooling media & steam flow in same direction b. High level jet condenser Cooling water required to lift above 10.33 m c. Ejector jet condenser 6
  • 7. 1. Low level Counter flow jet steam condenser Condensate extraction pump  Required Cooling water pump Not required 7
  • 8. 2. High level counter flow jet condenser Cooling water pump  required Condensate extraction pump  not required 8
  • 9. Ejector Condenser 1. Non return valve 2. Convergent Nozzle: It reduces pressure of cooling water 3. Convergent divergent nozzle It increases pressure on mix of cooling water and steam upto atmospheric This system is simple, reliable and cheap 9
  • 10. B. Surface Condenser 1. Shell and tube surface condenser a. Single Pass b. Double Pass 2. Central flow surface condenser 3. Down flow surface condenser 4. Inverted flow surface condenser 5. Evaporative condenser 10
  • 11. Shell and tube Surface Condenser Cooling water flows through tubes Steam flows through shell As cooling water passes 2 times it is double pass condenser 11
  • 12. Down Flow Surface Condenser Steam extraction pump at down Baffles guides the steam flow . Also called cross flow heat exchanger as steam & water fow right angles to each other 12
  • 13. CENTRAL FLOW SURFACE CONDENSER Air extraction pump is located at the center of the condenser tubes. Provides the better contact of steam 13
  • 14. EVAPORATIVE CONDENSER (Cooling water evaporates) Cooling water evaporates  Steam through pipes  Cooling water sprinkles through nozzles Fins are provided to a)Act as obstruction to flow of water drops b) increase heat transfer surface area 14
  • 15. JET CONDENSER SURFACE CONDENSER Direct contact Indirect contact Condensation due to mixing Condensation due to heat transfer by conduction and convection Maintenance cost is low Maintenance cost is high. Less Vacuum created More Vacuum created Small floor space required Large floor space required Condensate can not be directly used as feed water Condensate can be directly used as feed water Less power for pumping More power for pumping Less quantity of cooling water required Large quantity of cooling water required Suitable for low capacity plants Suitable for large capacity plants 15
  • 16. Cooling Tower • Cooling towers are commonly used to remove excess heat that is generated & represent a relatively inexpensive and dependable means of removing low-grade heat from cooling water Working fluid cooling water Cooling media  air Some of cooling water evaporates leading to cooling effect 16
  • 17. Cooling tower types • Natural draft Air circulation due to density differences • Mechanical or forced or induced draft Air circulation due to fans 17
  • 18. Natural Draft Cooling Towers. Flow is due to sprays or a differential in air density air velocities for the vertical spray tower are relatively low normally used when operating temperatures are not critical to the system. staged pumping systems are normally recommended to reduce energy use in periods of reduced load and ambient conditions. 18
  • 19. Mechanical / forced /induced draft cooling towers Air Circulation is due to fans Increased air flow improves evaporation rate centrifugal fan  Incoming air axial air  Outgoing air Higher capacity 19
  • 20. Factors governing operation of Cooling tower • The dry-bulb and wet-bulb temperatures of the air • The temperature of warm water • The area of contact between air and hot water • The contact time between the air and the water • The air pressure drop • The desired temperature of the cooled water 20