Discoloured Water, Lime Scale, Anode Maintenance

Discoloured Water

•Water rich in iron or other minerals can produce red or brown staining. Heating water generally worsens this situation.

•Black water can be an indication of organic contami- nates in the water supply. This can be problematic in areas where the water is obtained from surface or con- taminated sources. Organic particles can develop bac- terial growth, causing potential health hazards.

•Contact your water supplier for proper filtration or water conditioning equipment.

•For bacterial problems contact your local health author- ity. See also “Hot Water Odour”.

•A sudden appearance of rust-coloured water may indi- cate that the anode(s) has been depleted. Once deplet- ed, the anode’s inner steel core becomes exposed causing it to corrode and release iron particles into the water. See also “Anode Maintenance”.

Lime Scale

Over time all immersion type elements accumulate lime scale on their surfaces. Various conditions affecting this buildup include:

•Volume of hot water used; as the consumption of hot water increases, more scale results.

•Water temperature; the hotter the water the more scale is deposited.

•Purity of the water supply.

If it becomes necessary to delime the elements, use a non- metallic (soft) tool or scraper to remove the scale taking care not to damage the surface of the element. Alternatively, use a non-muriatic delimer that is approved for use with potable water to dissolve the lime scale.

DANGER! Do not use muriatic or hydrochloric acid based deliming solutions.

Anode Maintenance

A new anode is about 20mm (13/16 in.) to 22mm (7/8 in.) diameter and has a steel wire core approximately 3mm (1/8 in.) diameter in the center. The anode should be replaced when this wire is visible. Operating a water heater without an actively working anode(s) will void the warranty.

To check/replace the anode:

1.Turn "OFF" the electrical supply to the water heater.

2.Close the cold water supply valve.

3.Open a nearby hot water faucet served by the system to depressurize the system.

4.Connect a hose to the drain valve and drain 22 litres (6 USG.) as directed in “Draining, Flushing and Sediment

Removal”.

CAUTION! The water being drained can be extremely hot! The drain hose should be rated for at least 94°C (200°F). If the drain hose does not have this rating, open the cold water supply valve and a nearby hot water faucet served by the system until the water flow is no longer hot. Close the cold water supply valve and resume.

5.Using a 1 5/16" socket, remove the anode(s) and inspect it. The surface may be rough, full of pits and crevices, but this is normal. If it is less than approximately 10mm (3/8

in.) in diameter, or the inner steel core exposed, the anode(s) should be replaced.

NOTE: The anode(s) has been factory installed using a power tool. It may be necessary for a second person to sta- bilize the heater. A few sharp blows on the handle of the socket wrench should loosen the anode nut. If an impact wrench (power drive) is available, this is an easier way to remove an anode.

6.Apply Teflon® tape or sealing compounds approved for use with potable water to the threads of the anode(s) and install into the tank top.

7.Open the cold water supply valve and open a nearby hot water faucet to purge air from the water tank as directed in “Filling the Water Heater”.

8.Check for leaks, repair as required, and re-test.

9.Turn the electrical supply to the heater “ON”.

Troubleshooting Checklist

Before placing a service call, perform the following checks to see if the problem can be identified and corrected easily. Correcting a fault identified by this list may eliminate the need for a service call and quickly restore hot water service. Refer to Figure 1 to identify the location of all of the heater’s major components.

DANGER! BE SURE TO TURN OFF THE POWER TO THE HEATER WHEN CHECKING EQUIPMENT.

Insufficient or no hot water:

1.Ensure the electrical supply to the water heater is in the "ON" position.

2.Check that all the fuses are intact;

•Fuses are usually contained in the electrical disconnect switch.

•There are also fuses in the heater control panel.

3.If the water is now cold but was excessively hot, the high-limit switch may have tripped.

•To reset, open the component panel cover, remove the insulation plug to access the high-limit switch. Depress the red button to manually reset the switch.

NOTE: If the high-limit switch trips repeatedly the water heater should be inspected by a qualified service techni- cian.

4. A large demand for hot water may have been more than the heater can supply.

•Allow a recovery period to restore water temperature

after large demands.

5. Check incoming water supply temperature.

•If the incoming water temperature is cooler than normal,

it will lengthen the time required to heat water to the desired temperature

6.Look for leakage in the hot water supply lines.

7.Operation of the water heater may be affected by the buildup of sediment or lime scale.

•Follow the instructions given in “Draining, Flushing and Sediment Removal”.

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73992 specifications

GSW 73992, an innovative model in the world of advanced non-metallic materials, has garnered attention for its exceptional performance and unique characteristics. Engineered to meet the demanding needs of various industries such as aerospace, automotive, and construction, GSW 73992 stands out due to its remarkable properties and cutting-edge technologies.

One of the main features of GSW 73992 is its lightweight nature. Weighing significantly less than traditional metal counterparts, this material enables designers and engineers to reduce overall weight without compromising structural integrity. This attribute is particularly advantageous in the aerospace sector, where weight savings translate into improved fuel efficiency and enhanced performance.

The technology behind GSW 73992 is grounded in advanced composite engineering. Utilizing a combination of high-strength fibers and resins, GSW 73992 exhibits exceptional tensile strength and impact resistance. Its ability to withstand harsh environmental conditions, including extreme temperatures and moisture, makes it a preferred choice for applications requiring durability and reliability.

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GSW 73992 also boasts excellent thermal insulation properties. Its low thermal conductivity ensures minimal heat transfer, making it ideal for applications in building materials and automotive components where temperature regulation is crucial. This feature enhances energy efficiency and contributes to sustainability efforts by reducing the need for additional insulation materials.

Additionally, GSW 73992 offers design flexibility, allowing manufacturers to create complex shapes and forms that would be difficult to achieve with traditional metals. This adaptability opens up new possibilities in product design, enabling creative solutions that can cater to specific industry needs.

Overall, GSW 73992 represents a significant advancement in material science, combining lightweight construction, high strength, resistance to environmental stressors, and design versatility. Its array of features positions it as a game-changer for industries seeking to improve performance while adhering to modern sustainability standards. As the demand for innovative materials continues to grow, GSW 73992 is poised to play a pivotal role in shaping the future of engineering and manufacturing.

GSW 73992 warranty Discoloured Water, Lime Scale, Anode Maintenance, Troubleshooting Checklist

Models: 73992