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Welcome . Introduction to Environmental Engineering. Code No. (PE389) . Lec . 3. Dr.Khaled ali. Measurement of Water Quality. Introduction ● Quantitative measurements of pollutants are obviously necessary before water pollution can be controlled.

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  1. Welcome Introduction to Environmental Engineering Code No. (PE389) Lec. 3 Dr.Khaledali

  2. Measurement of Water Quality

  3. Introduction ● Quantitative measurements of pollutants are obviously necessary before water pollution can be controlled. ● measurement of these pollutants is burdened by difficulties. 1. Sometimes specific materials responsible for the pollution are not known. 2. pollutants are generally present at low concentrations, and 2 very accurate methods of detection are required.

  4. Many water pollutants are measured in terms of milligrams of the substance per liter of water (mg/L). • In older publications pollutant concentrations are expressed as parts per million (ppm), a weight/weight parameter. If the liquid involved is water, ppm is identical with mg/L, since one liter (L) of water weighs 1000 grams (g). • A third commonly used parameter is percent, a weight/weight relationship. • Note that 10,000 ppm = 1% and is equal to 10,000 mg/L only when 1 mL = 1 g

  5. Chemical parameters Of Drinking Water Quality

  6. DISSOLVED OXYGEN (DO) Dissolved oxygen is inversely proportional to temperature, and the maximum oxygen that can be dissolved in water at most ambient temperatures is about10 mg/L. The saturation value decreases rapidly with increasing water temperature, as shown in Table 4-1.

  7. pH • The pH of a solution is a measure of hydrogen ion concentration, which in turn is a measure of its acidity. Pure water dissociates slightly into equal concentrations of hydrogen and hydroxyl (OH-) ions. H2O ↔ H+ + OH- • An excess of hydrogen ions makes a solution acidic, whereas any absence of H+ ions, or an excess of hydroxyl ions, makes it basic.

  8. ALKALINITY • A parameter related to pH is alkalinity, or the buffering capacity of the water against acids. • Water that has a high alkalinity can accept large doses of an acid without lowering the pH significantly. • Waters with low alkalinity, such as rainwater, can experience a drop in the pH with only a minor addition of hydrogen ion.

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