There could be several reasons why your Hayward salt system is not producing chlorine.
One potential issue could be a low salt level in your pool. To ensure sufficient chlorine production, your pool water’s salt concentration should be between 2700-3400 ppm. If the salt concentration is too low, the system will not be able to adequately generate chlorine.
Another potential issue could be that the cell needs to be cleaned. If the electrodes have built-up calcium deposits or other contaminants, the system will not be able to efficiently generate chlorine.
You should clean the cell with a pool-safe cleaner, per the manufacturer’s instructions.
It is also possible that the cell itself may be defective. If the cell has worn out and needs to be replaced, then you will need to purchase a compatible cell.
Finally, it is possible that the system is incorrectly configured. Make sure that all the settings on the system are correct and that the pH and total alkalinity levels of your pool water are balanced.
If none of the above mentioned issues address your problem, then it may be a good idea to have a professional pool technician diagnose your system.
How do I know if my Hayward salt chlorinator is working?
The best way to know if your Hayward salt chlorinator is working is to check the output of chlorine in the pool water. You should be able to smell and detect a certain degree of chlorine in your pool water.
This can be done by going down to the pool area and testing the chlorine with a reliable and accurate test strip or kit. The amount of chlorine in your pool water should be in the range of 1-3ppm for the average pool.
If it’s below 1ppm, then it’s likely that your Hayward salt chlorinator is not working. Additionally, you should be able to see the chlorinator of Hayward running, with the LED lights on and with the clear lid off.
If the LED lights are on and the chlorine production is very low, it’s likely that your Hayward salt chlorinator is malfunctioning. You should check the lid of the chlorinator and check if there is any blockage or dirt that could be hampering chlorine production.
Lastly, you should check if there are any air bubbles coming out of the Hayward chlorinator which could indicate the need for descaling. If the device is descaled and is still not producing the required amount of chlorine, you should contact the manufacturer or seek professional help to get the device back in order.
Why is my chlorinator not filling with water?
The most common is that the suction valve or pump is blocked or clogged, or the pool filter or skimmer basket is full. Additionally, check to make sure that the pump is set to the correct pressure and settings for the chlorinator.
If it’s set too low or if the filter is clogged, it will not be able to draw enough water to function properly. You may also need to check for any leaks near the unit and around the tank, as this can also cause the water level to drop.
Lastly, make sure that the pool skimmer valve is open and allowing water flow into the chlorinator. If none of these solutions solves your problem, you may need to contact a service technician to further investigate the cause.
How do you test a turbo actuator?
Testing a turbo actuator requires the use of a diagnostic tester and reading of fault codes. First, make sure the engine is turned off and the ignition is off. Disconnect the electrical connections from the actuator.
Then, use a diagnostic tester to read the fault codes and ensure that the actuator is receiving the prescribed signals from the engine. If any fault codes are found, they should be resolved before continuing the test.
Next, apply 12 volts of power directly to the turbo actuator and check the operation of the actuator via the diagnostic tester. If the actuator is functioning correctly, the tester should register the joined DC voltage and display the corresponding curve of the actuator’s movement.
In addition, the turbo actuator should move to the extended position when power is applied.
Finally, hold the actuator in the fully extended position and ensure that the actuator holds at that position. The extended position should be either 3.2mm (M12) or 6.5mm (M14) from the actuator housing.
If the turbo actuator holds the extended position, it has passed the test and is ready for use. If the turbo actuator does not hold the extended position or does not register a change on the tester, it should be replaced.
What happens when a turbo actuator fails?
When a turbo actuator fails, it can cause a variety of problems. The most common symptom is a lack of power, as the turbocharger is not able to produce the correct boost pressure it needs to supply the engine with additional power.
Other symptoms may include loud engine noise, smoke from the exhaust, poor fuel economy, and increased turbo lag. In some cases, the boost pressure can be so low that the engine won’t start.
In a best-case scenario, the problem can be resolved by replacing the faulty actuator. However, if the problem is more serious and caused by a turbocharger malfunction, then the turbocharger will likely need to be taken out and inspected for further diagnosis.
Depending on the severity of the failure, the turbocharger may need to be completely replaced.
It is important to diagnose the problem as soon as possible to avoid further damage and costly repairs. If you suspect a failed turbo actuator or some other turbocharger related issue, it is best to seek the help of a qualified technician who can effectively diagnose and resolve the issue.
How long should a turbo last?
When properly cared for, a turbo can last up to three times longer than the lifetime of the engine it is connected to. Generally speaking, a turbocharger can last anywhere from 100,000 miles to 300,000 miles or more.
Many factors can influence a turbocharger’s lifespan, such as types of oil and oil filtration, driving habits, and how often the vehicle is used. Regular maintenance and oil changes are key to extending the life of your turbo.
Replacing the oil, filter, and spark plugs every 12,000 miles or sooner should help to enhance the longevity of your turbocharger. It is also important to note that the turbocharger itself may need to be replaced even if the engine is still in good condition.
If the turbo does not have enough lubrication, is not properly cooled, or is used at too high of an RPM without adequate back-pressure, it can fail even with a healthy engine.
How old is my Hayward turbo Cell?
The Hayward turbo Cell T-CELL-5 model was released in April of 2004. Therefore, if your Hayward turbo Cell is the T-CELL-5 model, then it is 16 years old. However, if you have a different model, you will need to check the release date for that specific model to determine its age.
How long does it take for chlorine generator to make chlorine?
It typically takes between 2 and 5 hours for a chlorine generator to make chlorine, depending on the size and model of the generator. The larger and more powerful models can produce chlorine in about 2 hours, while smaller, more basic models may take up to 5 hours.
Additionally, the level of chlorine generated can vary from 1 to 16 pounds within a 24-hour period. During this process the generator uses small amounts of salt dissolved in the swimming pool water to create the chlorine, through a process known as electrolysis.
The generator cycles the pool water through a chlorine cell, where an electrical current is used to break apart the salt. During this process, the generators produce chlorine, as well as other beneficial minerals such as calcium, magnesium, and potassium.
It’s important to note that chlorine generators require regular maintenance, testing, and an occasional cleaning or replacing of the chlorine cell.
What should my chlorine generator be set at?
When using a chlorine generator to disinfect your pool, it is important to ensure that the generator is set at the appropriate level in order to optimize the effectiveness of the chlorine production.
The optimal chlorine level will depend on several factors, such as the size of your pool, the amount of sunlight exposure, the pH level, and bather load. Generally, a good starting point is to set your generator at 2 to 3 ppm (parts per million) of available chlorine.
However, you will likely need to adjust the setting to ensure that the chlorine level is maintained in the ideal range of 1 to 3 ppm.
It is also important to monitor your chlorine level regularly in order to ensure that it does not exceed the ideal range, as too much chlorine can cause issues such as skin irritation, eye irritation, and fading of pool surfaces.
To help maintain the ideal chlorine level, you may need to periodically adjust the generator’s setting as conditions such as bather load, sunlight exposure, and pH levels can impact chlorine production.
Additionally, shock treatments may be necessary in order to maintain chlorine levels if they have been impacted by heavy bather loads or sunny days.
Overall, setting your chlorine generator at the optimal level helps to ensure that both the safety and cleanliness of your swimming pool is maintained.
How can I tell if my salt cell is bad?
The most reliable way to tell if your salt cell is bad is to check the system’s output levels. Look for signs such as lower levels of chlorine generation, cloudy pool water, stained surfaces, and the presence of algae and other contaminants.
If your water treatment pump is running too often and not producing the desired results, it’s another indication that your salt cell is bad. Additionally, inspect the salt cell itself. Signs of wear and tear, such as discoloration, may indicate that the cell is nearing the end of its life.
You may also need to replace the cell if it’s been in service for more than the manufacturer-recommended period of time. In any case, make sure to buy a cell that is compatible with your pool’s filtration system.
It’s also a good idea to speak to a professional before attempting to diagnose or replace the salt cell.
What temperature does a Hayward salt cell stop working?
The exact temperature at which a Hayward salt cell stops working depends on the model and type of cell, however most models will stop working when the temperature drops below 50°F (10°C). It is important to note that salt cells should never be operated in temperatures lower than this, as temperatures below 50°F can cause the cell’s operating system to freeze or corrode, decreasing its lifespan and potentially causing permanent damage.
To help maximize the life of the salt cell, it is best to keep the temperature around the cell between 55°F (13°C) and 105°F (41°C).
What happens if salt level is too high in pool?
If your pool’s salt level is too high, it can cause multiple problems. High salt levels can cause electrolosis, which is when the pool water becomes saturated with dissolved salt and minerals, creating conditions that corrode pool equipment and surrounding surfaces.
This can also cause metal ions to be released into the pool, which can cause skin and eye irritation as well as staining of pool surfaces. Besides these physical effects, high salt can also cause an increase in the pH of your pool water, making it more basic than it should be.
This can then cause algae growth and cloudy water if no action is taken to lower the pH and the amount of salt in the pool. For all these reasons, it is important to keep an eye on the salt levels in your pool and take action if the levels become too high.
How do I reset check cell light on Purechlor?
If your check cell light on your Purechlor water chlorinator is on and needs to be reset, you will need to complete the following steps:
1) Ensure that the valves to the pool and the check cell are open.
2) Unscrew the check cell cap and disconnect the 4-pin plug connected to the end of it.
3) Make sure the pool is filled with enough water prior to resetting the check cell.
4) While firmly holding the check cell casing, poke the reset button on the bottom of the cell for about a second.
5) Re-connect the 4-pin plug back to the end of the check cell and then screw the check cell cap back on.
6) Turn on the manual override switch to activate the chlorinator.
7) Adjust the run-time (RT) setting according to your needs.
8) Check the chlorine level of the pool with a test strip to ensure the chlorinator is operating properly.
By completing these steps, you should be able to reset your check cell light on the Purechlor water chlorinator. It is important to remember to keep the pool full at all times and to test the chlorine levels in the pool when resetting the check cell light.