Energy consumption in water cooling towers consists of the heating energy used for freezing and the electric energy consumed in fan motors which are the main elements of cooling. The amount of water evaporated during heat transfer is the second class consumption in the towers.
Our writing concerns the use of electricity in water cooling towers.
In the start motors of the electric motors, the engine stops at 0 hz, yada is working at 50 hz.
Intelligent editing in electric motors is possible with drives called yada invertors, which can provide you with speed control in motors.
It will be possible to operate the fan motors especially in the range of 50-20 Hz with the drives.
How smart editing should be done.
Elements required for editing
Driver for each engine
Heat sensor (pt 100)
Various switchgear materials
Smart editing scenario
The plant should specify a temperature value for the water cooling tower. Let's say the temperature is 30 degrees
The rough work can be described as setting the fan speed to keep the system at 30 degrees.
When the temperature reaches the set value of 30 degrees above the fan, the fan will accelerate to the set value,
On the contrary, when the set value reaches a value below 30, the fan will slow down and try to increase to the set value.
Exceptions to the script
Unless otherwise stated or there are no errors in the design, there is no such thing as not reaching the set value of the user including the seasonal peak temperatures. (if periodic maintenance and cleaning are done in time and the tower filling materials are not dirty in the blocked area)
Exception can only be seen at very low wet and dry temperatures
If the actual temperature value falling below the set value of 30 degrees continues to fall despite the fan speed automatically decreasing to the minimum (20 Hz), it is necessary to add a stop to the scenario.
This posture should be determined based on the set point. Generally, this value is determined to be 3 degrees at 2 degrees, depending on the sensitivity of the system. If the actual temperature is set to 30 degrees, the tower will stop automatically when the temperature drops to 27 degrees Celsius and wait in stand-by until it reaches the set point again. When the actual value of the system reaches 30 degrees, the fan motor will automatically restart at the minimum speed of 20 Hz.
It is not suitable to operate electric motors at lower speeds of 20 Hz. It is possible but not appropriate. Continuous operation under these conditions will cause the engine to overheat due to low cycle, cause the resins to be damaged by high temperature and cause the engine to burn continuously.
In addition to providing energy saving (electricity and water saving)
Ramped stop will affect the fan block and engine life positively, thanks to the take-off and revolutions, which will be used as often as needed (probably at lower speeds than full speed).