Determination of Total Solids

TOTAL SOLIDS

AIM:- To determine the total solids, total organic solids and total inorganic solids in the sample water.

APPARATUS:-

1. Oven or stream bath.
2. Balance
3. Crucible or dish
4. Muffle furnace.

THEORY:- The sum total of foreign matter present in water is termed as total solids. Total solids is the matter that remains as residue after evaporation of the sample and its subsequent drying at a temperature of 103 to 105⁰C. This includes the solids in suspension, colloidal and in dissolved form. The quantity of suspended solids is determined by filtering the sample of water through a fine filter and then drying and weighing the filter. The quantity of dissolved and colloidal solids is determined by evaporating the filtered water and weighing the residue. The total solids in a sample water can be directly determined by evaporating the water and weighing the residue. The total solids consists of volatile (organic) and non-volatile (inorganic or fixed). If the residue of total solids is fused in a muffle furnace, the organic compounds decompose where as only inorganic solids will remain. By weighing we can determine the inorganic solids and deducting it from total solids, we can calculate organic solids. The solids are added to water by sewage, industrial wastes, mineral content, silt, clay and organic matter.

RELAVENCE:- Solids affects the water or effluent quality adversely in a number of ways. Water with high solids concentration generally of inferior palatability, and may induce an unfavorable physiological effects on human system. Highly mineralized waters also are unsuitable for many industrial applications. The permissible amount of total solids in domestic water supplies is limited to 500ppm, although higher amounts upto 1000ppm are also sometimes permitted. Waters with very high levels of non-filterable residue may be aesthetically objectable for bathing. The determination of solids help in the design of sedimentation and coagulation units.

PROCEDURE:-

i)                    Weigh an empty dish or crucible and note down it weight as “W₁” grams.

ii)                  Measure a suitable volume of sample water and place it in a dish.

iii)                Place the dish into a steam bath or oven and evaporate the water.

iv)                Remove the dish from the oven and place it in a disiccator and allow it to cool. After it has cooled to room temperature, measure the weight of dish along with solids (i.e. residue). Let this weight be “W₂” grams.

v)                  Place the dish in the muffle furnace at a temperature of 550 + 50⁰C and ignite for 15 to 20 minutes.

vi)                Remove the dish from muffle furnace and place it in disiccator, allow it to cool to room temperature. Take the weight of the dish as “W₃” grams.

OBSERVATIONS:-

Empty weight of crucible = w₁ (g) =

Weight of crucible after evaporation water = w₂ (g) =

Weight of crucible after keeping in muffle furnace = w₃ (g) =

CALCULATIONS:-

Total solids in mg/lit =     (W₂ – W₁)*1000*1000

                                          ml of sample water

Total volatile solids in mg/lit =   (W₂ – W₃)*1000*1000

                                                       ml of sample water    

Total fixed solids in mg/lit = Total solids – Volatile solids.

RESULTS:-

INTERPRETATION OF RESULTS:-