Hard water is water that has a high mineral content, especially of calcium, magnesium and limestone. It comes about when water filters through chemicals like limestone, chalk or gypsum that occur naturally in the region’s soil. In South Africa, there are a significant number of areas that are affected by hard water such as the Northern and Southern Cape and the Limpopo Basin. Although this high mineral content could have slight positive effects on your health, it causes a lot of damage to water equipment, like geysers, bore hole pumps and kettles.
Limescale builds up on heating elements
Most geysers have standard heating elements, which is what heats the water in your geyser. These elements are made from coiled resistive wire covered by a soft metal. The high mineral content in hard water builds up on the hottest part of the geyser, which is (obviously) the heating element, causing a limescale build up.
Limescale reduces your geysers efficiency
Over time, this limescale build-up acts as an insulator forcing the element to work harder and harder to heat the water in the geyser. As the element becomes less and less efficient, the running costs of heating your geyser increase as it now takes more energy – usually in the form of costly electricity – to heat the water. Limescale build-up can cause an up to 50% reduction in efficiency in your geyser. Eventually the heating element will fail because of excessive heat required to heat through the limescale build-up. In fact, limescale build-up is the most common cause of failing geysers.
Research shows that limescale from hard water costs you money
An American study done by the *Battelle Memorial Institute in Columbus, Ohio found that every five grains per gallon (3,78litres) of water hardness causes a 4% loss in efficiency. Their research showed that water temperature decreased by 5°C with a limescale thickness of 2mm after 480 seconds, and a 0,5mm of hard scale increased energy costs by 9,4%.
One way to extend the life of your geyser’s heating element, is to replace the standard element with a self-limiting ceramic element, called PTC, that comes protected in a sleeve of marine-grade stainless steel. PTC elements have a lower operating temperature, 270°C compared to the 500°C operating temperatures of standard resistive elements. The lower heat reduces the precipitation of solids out of the water. PTC elements also have a low watt density which also helps in reducing scale build-up and the strong stainless steel casing provides long-term protection from scale build-up on the actual ceramic element.
Even in soft water areas, PTC elements are up to 25% more energy efficient as they operate at a lower temperature. Check out PTC elements from XTEND Elements, to solve your hard water heating issues.