Welcome

1. Welcome Introduction to Environmental Engineering Code No. (PE389) Lec. 4 Dr.Khaledali

2. Measurement of Water Quality-2

3. physical parameters of drinking water quality.

4. TURBIDITY • Water that is not clear but "dirty," in the sense that light transmission is inhibited, is considered turbid.

5. COLOR AND ODOR Color and odor are both important measurements in water treatment. Along with turbidity they are called physical parameters of drinking water quality. Color and odor are important from the standpoint of aesthetics (visual). If water looks colored or smells bad, people instinctively (automatically) avoid using it, even though it might be perfectly safe from the public health aspect. Both color and odor may be and often are caused by organic substances Color is measured by comparison with standards. When multicolored industrial wastes are involved, such color measurement is meaningless. Odor is measured by successive dilutions of the sample with odor-free water until the odor is no longer detectable. This test is obviously subjective and depends entirely on the olfactory senses of the tester.

6. SOLIDS • Wastewater treatment is complicated by the dissolved and suspended inorganic material the wastewater contains. • In discussion of water treatment, both dissolved and suspended materials are called solids. • The separation of these solids from the water is one of the primary objectives of treatment.

7. SOLIDS • The usual definition of solids, however, is the residue after evaporation at 103°C (slightly higher than the boiling point of water). • The solids thus measured are known as total solids (TS). Total solids are divided into two fractions: • the total dissolved solids (TDS) and • the total suspended solids (TSS).

8. SOLIDS • Suspended solids are separated from dissolved solids by filtering the water through a filter paper . • The suspended material is retained on the filter paper, while the dissolved fraction passes through. • If the initial dry weight of the filter paper is known, the subtraction of this from the total weight of the filter and the dried solids caught in the filter paper yields the weight of suspended solids, expressed in milligrams per liter.

9. SOLIDS Solids may be classified in another way: 1. Volatile Solids. Those that are volatilized at high temperature (600°C) 2. Fixed Solids. Those are not volatilized at 600°C. • Volatile solids are usually organic compounds. • Obviously, at 600°C, the temperature at which the combustion takes place, some of the inorganics are decomposed and volatilized, but this is not considered a serious drawback. • Measurement of the volatile fraction of suspended material, the volatile suspended solids, is made by burning the suspended solids and weighing them again. The loss in weight is interpreted as the volatile suspended solids.

11. Example • Given the following data: • Weight of a dish = 48.6212 g. • 100 mL of sample is placed in a dish and evaporated. • Weight of the dish and dry solids = 48.6432 g. • The dish is then placed in a 600°C furnace, then cooled. Weight = 48.6300 g. • Find the total, fixed, and volatile solids (expressed as mg/L).

13. Questions • Define turbidity? What is its importance and what is the units of its measurement • How can you determine color & odor? • Define pH? Mention two importance of determining pH? • what is the benefit of a high alkaline water? • Mention the classification of solids