Wednesday, October 23, 2019
Hardness of Water
INTRODUCTION: WHAT IS HARDNESS OF WATER:It is when water passes through or over deposit such as limestone; the level of Caà ²Ã¢ »and Mgà ²Ã¢ ºand HCOââÆ' ions present in the water can greatly increase and cause the water to be classified as hard water. This term results from the fact that cation and magnesium ions in water combine with soap molecules, making it hard to get suds. High level of water ion such as Caà ²Ã¢ » and Mgà ²Ã¢ ºÃ can cause scaly deposits in plumbing appliances & boilers.These two ions also combine chemically with soap molecules resulting in decreased cleansing. The American water works Association indicates that the ideal quality water should not contain more than 80mg/l of total hardness as CaCOââÆ'. High levels of total hardness are not considered a health concern. There are two types of Hardness:Temporary hardness: this is due to the presence of bicorbonates of calcium and magnesium. It can be easily removed by boiling. Permanent hardness: this is due to the presence of chlorides & sulphate of calcium & magnesium. This type of hardness cannot be removed by boiling.MOTIVATIONI was bothered that the water in Ilara community doesnââ¬â¢t combine easily with soap leading to excessive consumption of WATER.ENVIRONMENTAL SIGNIFICANCE:Scales are formed as inner coating of the pipelines prevents corrosion Absolute soft waters are corrosive and dissolve metalsMore causes of cardio vascular diseases are reported in soft water areas Hard water is useful to growth of children due to the presence of calcium Hard water cause excessive consumption of soap used for cleaning purpose, sodium soaps react with multivalent metallic cations to form a precipitate, thereby lose their surfactant properties. Lathering doesnââ¬â¢t take place until all hardness ions precipitate out.APPARATUS Conical Flask {250ml} Burette with retort stand Beaker Wash bottles Standard flask PipettesMETHOD Simple titration methodREAGENTS Ammonium chloride Amm onium hydroxide Ilara-Mokin water {HâââO} Magnesium sulphate Erichrome black T EDTA (Disodium salt).PREPARATION OF REAGENTS 1. Standard solution of EDTAThe usual reagent is the disodium salt, which is a dehydrate, Mr=372.24; it is available in sufficiently pure form to be used as a primary standard for most purposes. If necessary, it may be dried at 80à ° for four days to remove a small percentage of water that may have been absorbed. The solution should be stored in plastic containers rather than glass bottles. The solution is stable but if stored in glass bottles (particularly if the glass is new), the concentration of a dilute solution will decrease appreciably with time as metal ions are extracted out of the glass. To prepare 2 1 of the reagent, dissolve 7.44g of the salt in enough deionized water to make exactly 2 1 of solution. 2. Buffer solution(pH 10)Add 17.5g of ammonium chloride to 142cmà ³ of ammonium chloride to 142cmà ³ of 0.88 ammonia solution and make up to 25 0cmà ³ with deionized water. 3. Eriochrome Black T indicatorThis indicator can be purchased as a powder. The solid is hygroscopic, and so must be stored in a tightly stoppered container.EXPERIMENTAL PROCEDURE (testing of the Ilara-mokin water) We Pipetted 200ml of the water sample and transfer it to a clean 250ml conical flask. We Added 2ml of Ammonia buffer solution to the water sample so that the pH will be maintained between 9 & 10. We added few drops of EBT indicator to the conical flask and the sample turns to wine red in color. Before we started the titration; we rinsed the burette with few ml of EDTAà then Filled the burette with 0.02m EDTA solution & adjusted to zero then fixed it in retort stand. We titrated the sample against the EDTA solution in the burette till all calcium and magnesium ions present in the sample reacted with the EDTA.The appearance of blue color indicated that all Ca and Mg ions were complex with EDTA and forms a metal EDTA complex. i.e. the end poin t of the titration We Noted down the burette reading and repeated titration two more times.RESULT OF THE EXPERIMENTSAMPLE A FINAL READINNGS 1.50 1.40 1.40 INITIAL READINGS 0.00 0.00 0.00 TITRE VALUES 1.50 1.40 1.40Average titre value= 1.50 +1.40+1.40 =4.3 3 3à =1.43cmà ³Ã =1.43 x 20= 28.6 cmà ³SAMPLE B FINAL READINGS 2.90 3.10 2.90 INITIAL READINGS 0.00 0.00 0.00 TITRE VALUES 2.90 3.10 2.90Average titre value=2.90+3.10+2.90 = 8.90 3 3à =2.97cmà ³Ã =2.97 x 20= 59.4cmà ³
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