Hard water
Hard water is water that has high mineral content. Hard water is formed when water percolates through deposits of limestone, chalk or gypsum which are largely made up of calcium and magnesium carbonates, bicarbonates and sulfates.
Hard drinking water may have moderate health benefits, but can pose critical problems in industrial settings, where water hardness is monitored to avoid costly breakdowns in boilers, cooling towers, and other equipment that handles water. In domestic settings, hard water is often indicated by a lack of foam formation when soap is agitated in water, and by the formation of limescale in kettles and water heaters. Wherever water hardness is a concern, water softening is commonly used to reduce hard water's adverse effects.
Temporary hardness
Temporary hardness is a type of water hardness caused by the presence of dissolved bicarbonate minerals. When dissolved, these type of minerals yield calcium and magnesium cations and carbonate and bicarbonate anions. The presence of the metal cations makes the water hard. However, unlike the [|permanent hardness] caused by sulfate and chloride compounds, this "temporary" hardness can be reduced either by boiling the water, or by the addition of lime through the process of lime softening. Boiling promotes the formation of carbonate from the bicarbonate and precipitates calcium carbonate out of solution, leaving water that is softer upon cooling.Permanent hardness
Permanent hardness are generally difficult to remove by boiling. If this occurs, it is usually caused by the presence of calcium sulfate/calcium chloride and/or magnesium sulfate/magnesium chloride in the water, which do not precipitate out as the temperature increases. Ions causing permanent hardness of water can be removed using a water softener, or ion exchange column.Effects
With hard water, soap solutions form a white precipitate instead of producing lather, because the 2+ ions destroy the surfactant properties of the soap by forming a solid precipitate. A major component of such scum is calcium stearate, which arises from sodium stearate, the main component of soap:Hardness can thus be defined as the soap-consuming capacity of a water sample, or the capacity of precipitation of soap as a characteristic property of water that prevents the lathering of soap. Synthetic detergents do not form such scums.
in Germany. After being in service for about 180 years, the aqueduct had mineral deposits of up to thick along the walls.
Hard water also forms deposits that clog plumbing. These deposits, called "scale", are composed mainly of calcium carbonate, magnesium hydroxide, and calcium sulfate. Calcium and magnesium carbonates tend to be deposited as off-white solids on the inside surfaces of pipes and heat exchangers. This precipitation is principally caused by thermal decomposition of bicarbonate ions but also happens in cases where the carbonate ion is at saturation concentration. The resulting build-up of scale restricts the flow of water in pipes. In boilers, the deposits impair the flow of heat into water, reducing the heating efficiency and allowing the metal boiler components to overheat. In a pressurized system, this overheating can lead to failure of the boiler. The damage caused by calcium carbonate deposits varies on the crystalline form, for example, calcite or aragonite.
The presence of ions in an electrolyte, in this case, hard water, can also lead to galvanic corrosion, in which one metal will preferentially corrode when in contact with another type of metal, when both are in contact with an electrolyte. The softening of hard water by ion exchange does not increase its corrosivity per se. Similarly, where lead plumbing is in use, softened water does not substantially increase plumbo-solvency.
In swimming pools, hard water is manifested by a turbid, or cloudy, appearance to the water. Calcium and magnesium hydroxides are both soluble in water. The solubility of the hydroxides of the alkaline-earth metals to which calcium and magnesium belong increases moving down the column. Aqueous solutions of these metal hydroxides absorb carbon dioxide from the air, forming the insoluble carbonates, giving rise to the turbidity. This often results from the pH being excessively high. Hence, a common solution to the problem is, while maintaining the chlorine concentration at the proper level, to lower the pH by the addition of hydrochloric acid, the optimum value being in the range of 7.2 to 7.6.
Softening
It is often desirable to soften hard water. Most detergents contain ingredients that counteract the effects of hard water on the surfactants. For this reason, water softening is often unnecessary. Where softening is practiced, it is often recommended to soften only the water sent to domestic hot water systems so as to prevent or delay inefficiencies and damage due to scale formation in water heaters. A common method for water softening involves the use of ion exchange resins, which replace ions like Ca2+ by twice the number of monocations such as sodium or potassium ions.Washing soda is easily obtained and has long been used as a water softener for domestic laundry, in conjunction with the usual soap or detergent.
Health considerations
The World Health Organization says that "there does not appear to be any convincing evidence that water hardness causes adverse health effects in humans". In fact, the United States National Research Council has found that hard water actually serves as a dietary supplement for calcium and magnesium.Some studies have shown a weak inverse relationship between water hardness and cardiovascular disease in men, up to a level of 170 mg calcium carbonate per litre of water. The World Health Organization has reviewed the evidence and concluded the data was inadequate to allow for a recommendation for a level of hardness.
Recommendations have been made for the maximum and minimum levels of calcium and magnesium in drinking water, and a total hardness expressed as the sum of the calcium and magnesium concentrations of 2–4 mmol/L.
Other studies have shown weak correlations between cardiovascular health and water hardness.
Some studies correlate domestic hard water usage with increased eczema in children.
The Softened-Water Eczema Trial, a multicenter randomized controlled trial of ion-exchange softeners for treating childhood eczema, was undertaken in 2008. However, no meaningful difference in symptom relief was found between children with access to a home water softener and those without.
Measurement
Hardness can be quantified by instrumental analysis. The total water hardness is the sum of the molar concentrations of Ca2+ and Mg2+, in mol/L or mmol/L units. Although water hardness usually measures only the total concentrations of calcium and magnesium, iron, aluminium, and manganese can also be present at elevated levels in some locations. The presence of iron characteristically confers a brownish colour to the calcification, instead of white.Water hardness is often not expressed as a molar concentration, but rather in various units, such as degrees of general hardness, German degrees, parts per million, grains per gallon, English degrees, or French degrees. The table below shows conversion factors between the various units.
The various alternative units represent an equivalent mass of calcium oxide or calcium carbonate that, when dissolved in a unit volume of pure water, would result in the same total molar concentration of Mg2+ and Ca2+. The different conversion factors arise from the fact that equivalent masses of calcium oxide and calcium carbonates differ, and that different mass and volume units are used. The units are as follows:
- Parts per million is usually defined as 1 mg/L CaCO3. It is equivalent to mg/L without chemical compound specified, and to American degree.
- Grains per Gallon is defined as 1 grain of calcium carbonate per U.S. gallon, or 17.118 ppm.
- a mmol/L is equivalent to 100.09 mg/L CaCO3 or 40.08 mg/L Ca2+.
- A degree of General Hardness ' is defined as 10 mg/L CaO or 17.848 ppm.
- A Clark degree or English degrees is defined as one grain of CaCO3 per Imperial gallon of water, equivalent to 14.254 ppm.
- A French degree '' is defined as 10 mg/L CaCO3, equivalent to 10 ppm.
Hard/soft classification
Seawater is considered to be very hard due to various dissolved salts. Typically seawater's hardness is in the area of 6,630 ppm. In contrast, freshwater has hardness in the range of 15 to 375 ppm.
Indices
Several indices are used to describe the behaviour of calcium carbonate in water, oil, or gas mixtures.Langelier saturation index (LSI)
The Langelier saturation index is a calculated number used to predict the calcium carbonate stability of water. It indicates whether the water will precipitate, dissolve, or be in equilibrium with calcium carbonate. In 1936, Wilfred Langelier developed a method for predicting the pH at which water is saturated in calcium carbonate. The LSI is expressed as the difference between the actual system pH and the saturation pH:- For LSI > 0, water is super saturated and tends to precipitate a scale layer of CaCO3.
- For LSI = 0, water is saturated with CaCO3. A scale layer of CaCO3 is neither precipitated nor dissolved.
- For LSI < 0, water is under saturated and tends to dissolve solid CaCO3.
In practice, water with an LSI between −0.5 and +0.5 will not display enhanced mineral dissolving or scale forming properties. Water with an LSI below −0.5 tends to exhibit noticeably increased dissolving abilities while water with an LSI above +0.5 tends to exhibit noticeably increased scale forming properties.
The LSI is temperature sensitive. The LSI becomes more positive as the water temperature increases. This has particular implications in situations where well water is used. The temperature of the water when it first exits the well is often significantly lower than the temperature inside the building served by the well or at the laboratory where the LSI measurement is made. This increase in temperature can cause scaling, especially in cases such as hot water heaters. Conversely, systems that reduce water temperature will have less scaling.
Ryznar Stability Index (RSI)
The Ryznar stability index uses a database of scale thickness measurements in municipal water systems to predict the effect of water chemistry.Ryznar saturation index was developed from empirical observations of corrosion rates and film formation in steel mains. It is defined as:
- For 6.5 < RSI < 7 water is considered to be approximately at saturation equilibrium with calcium carbonate
- For RSI > 8 water is under saturated and, therefore, would tend to dissolve any existing solid CaCO3
- For RSI < 6.5 water tends to be scale form
Puckorius Scaling Index (PSI)
Other indices
Other indices include the Larson-Skold Index, the Stiff-Davis Index, and the Oddo-Tomson Index.Regional information
The hardness of local water supplies depends on the source of water. Water in streams flowing over volcanic rocks will be soft, while water from boreholes drilled into porous rock is normally very hard.In Australia
Analysis of water hardness in major Australian cities by the Australian Water Association shows a range from very soft to hard.Total hardness levels of calcium carbonate in ppm are:
In Canada
provinces contain high quantities of calcium and magnesium, often as dolomite, which are readily soluble in the groundwater that contains high concentrations of trapped carbon dioxide from the last glaciation. In these parts of Canada, the total hardness in ppm of calcium carbonate equivalent frequently exceed 200 ppm, if groundwater is the only source of potable water. The west coast, by contrast, has unusually soft water, derived mainly from mountain lakes fed by glaciers and snowmelt.Some typical values are:
In England and Wales
Information from the British Drinking Water Inspectorate shows that drinking water in England is generally considered to be 'very hard', with most areas of England, particularly east of a line between the Severn and Tees estuaries, exhibiting above 200 ppm for the calcium carbonate equivalent. Water in London, for example, is mostly obtained from the River Thames and River Lea both of which derive significant proportion of their dry weather flow from springs in limestone and chalk aquifers. Wales, Devon, Cornwall and parts of northwest England are softer water areas, and range from 0 to 200 ppm. In the brewing industry in England and Wales, water is often deliberately hardened with gypsum in the process of Burtonisation.Generally water is mostly hard in urban areas of England where soft water sources are unavailable. A number of cities built water supply sources in the 18th century as the industrial revolution and urban population burgeoned. Manchester was a notable such city in North West England and its wealthy corporation built a number of reservoirs at Thirlmere and Haweswater in the Lake District to the north. There is no exposure to limestone or chalk in their headwaters and consequently the water in Manchester is rated as 'very soft'. Similarly, tap water in Birmingham is also soft as it is sourced from the Elan Valley Reservoirs in Wales, even though groundwater in the area is hard.
In Ireland
The EPA has published a standards handbook for the interpretation of water quality in Ireland in which definitions of water hardness are given.In this section, reference to original EU documentation is given, which sets out no limit for hardness.
In turn, the handbook also gives no "Recommended or Mandatory Limit Values" for hardness.
The handbooks does indicate that above the midpoint of the ranges defined as "Moderately Hard", effects are seen increasingly: "The chief disadvantages of hard waters are that they neutralise the lathering power of soap.... and, more important, that they can cause blockage of pipes and severely reduced boiler efficiency because of scale formation. These effects will increase as the hardness rises to and beyond 200 mg/l CaCO3."