This document discusses cooling towers. It begins by explaining that cooling towers are used to reject heat from cooling water by sending hot water through the tower and returning cooler water. It then covers the components of cooling towers, key terms like range and approach, how they work using psychrometric charts, design considerations, and parameters for measuring performance like temperature and flow rates. Routine maintenance is also discussed, like blowdown to control scale buildup and using inhibitors and filters.
2. Introduction
Classification of Cooling Tower
Components used in Cooling Tower to
manufacture
Introducing to various terms related Cooling
Tower
Assessment of Cooling Tower
Psychometric Chart
Design of Cooling Tower
Maintenance of Cooling Tower
3. Cooling towers are a very important part of many chemical
plants. The primary task of a cooling tower is to reject
heat into the atmosphere. They represent a relatively
inexpensive and dependable means of removing low-grade
heat from cooling water. The make-up water source is used
to replenish water lost to evaporation. Hot water from
heat exchangers is sent to the cooling tower. The water
exits the cooling tower and is sent back to the exchangers
or to other units for further codling. Typical closed loop
cooling tower system is shown in Figure
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18. Range :- This is the difference between the
cooling tower water inlet and outlet
temperature.
Approach:- This is the difference between
the cooling tower outlet coldwater
temperature and ambient wet bulb
temperature.
19. L(T1 – T2) = G(h2 – h1)
L/G = (h2 – h1) / (T1 – T2)
Where:
L/G = liquid to gas mass flow ratio (kg/kg)
T1 = hot water temperature (0oC)
T2 = cold-water temperature (0oC)
h2 = enthalpy of air-water vapor mixture at
exhaust wet-bulb temperature (same units as
above)
h1 = enthalpy of air-water vapor mixture at inlet
wet-bulb temperature (same units as above)
20. Frame and casing: Support exterior enclosures
Fill: Facilitate heat transfer by maximizing water
/ air contact
Cold water basin: Receives water at bottom of
tower
Drift eliminators: Capture droplets in air stream
Air inlet: Entry point of air
Louvers: Equalize air flow into the fill and retain
water within tower
Nozzles: Spray water to wet the fill
Fans: Deliver air flow in the tower
21. Measured parameters
I. Dry bulb temperature
II. Wet bulb temperature
III. Inlet water temperature
IV. Outlet water temperature
V. Exhaust air temperature
VI. Electrical reading of pump and fan motors
VII. Water flow rate
VIII. Air flow rate
22. Performance of Cooling Tower
I. Range
II. Approach
III. Effectiveness
IV. Cooling capacity
V. Evaporation loss
VI. Drift loss
VII. Windage loss
VIII. Cycles of concentration
IX. Liquid/ Gas ratio
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25. OBJECTIVE OF THE MODEL (To analyze how well
an organization is positioned to achieve its
intended objective
Usage
Improve the performance of a company
Examine the likely effects of future changes
within a company
Align departments and processes during a merger
or acquisition
Determine how best to implement a proposed
strategy
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36. Blow down
Deposition
Bacteria
Corrosion inhibitor
Scale remover
Side stream filter