Chemical Engineering Operations
Transcription
Chemical Engineering Operations
11)11 111 1111 11 111 AL - 241ā B.E. / B.Tech. (Chemical Engineering) Seventh Semester (CGS) Chemical Engineering Operations - III Mass Transfer - II P Pages : 7 Time : Three Hours 7 CH 01 Max. Marks : 80 Note : 1. Answer three questions from Section A and three questions from Section B. 2. Due credit will be given to neatness and adequate dimensions. 3. Assume suitable data wherever necessary. 4. Diagrams and Chemicals equations should be given wherever necessary. 5. Illustrate your answer necessary with the help of neat sketches. SECTION - A 1. Explain the process of liquid - liquid extraction, counter current multiple contact with a single solvent using ternary diagram. 14 OR 2. 160cm3/s of a solvent S is used to treat 400cm3/s of a 10 per cent by mass solution of A in B, in a three-stage countercurrent multiple-contact liquid-liquid extraction plant. AL - 2429 1 P.T.O. What is the composition of the final raffinate ? 14 Equilibrium data : 0.15 0.10 kgA/kgB: 0.05 0.258 0.159 kg A / kg S : 0.069 Densities (kg/m3) : pA =1200 pB =1000 pS = 800 12. ā¢ 3. A solution of 5 per cent acetaldehyde in toluene is to be extracted with water iri a five stage co- current unit. If 25kg water / 100 kg feed is used, what is the mass of acetaldehyde extracted and the final concentration ? The equilibrium relation is given by : (kg acetaldehyde / kg water) = 2.20 (kg acetaldehyde / kg toluene) For a non-ideal system, where the molar latent heat is no longer constant and where there is a substantial heat of mixing, the calculations become much more tedious. For binary mixtures of this kind. explain the graphical model developed by RUHEMANN, PONCHON, and SAVARIT, based on the use of an enthalpy - composition chart to find the number of plates in the distillation column. 1 Aglit****** 13 ā¢ OR Explain the process of Differential extraction. using ternary diagram. Obtain the expression for final extract Ef and the solvent to be used 13 Sf. 4. Soda ash is mixed with lime and the liquor from the second of three thickeners and passed to the first thickener where separation is effected. The quantity of this caustic solution AL 2429 - 2 AL - 2429 7 213 / 32 Mole fraction of benzene in liquid 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 Mole fraction of benzene in vapour 0.22 0.38 0.51 0.63 0.7 0.78 0.85 0.91 0.96 0. 1. - . OR A 50 mole per cent mixture of benzene and . toluene is fractionated in a batch still which has the separating power of 8 theoretical plates. It is proposed to obtain a constant quality product containing 95 mole per cent benzene, and to continue the distillation until the still has a content of 10 mole per cent . benz.Whatwil rngeofux ratios used in the process? Show graphically the relation between the required reflux ratio and the amount of distillate removed. 13 leaving the first thickener is such as to yield 10 Mg of caustic soda per day of 24 hours. The solution contains 95 kg of caustic soda i 1000 kg of water, whilst the sludge leaving each of the thickeners consists of one part of solids to one of liquid. 13 Determine : a) the mass of solids in the sludge, b) the mass of water admitted to the third thickener and c) the percentages of caustic soda in the sludges leaving the respective thickeners. OR 6. A plant produces 100kg/s of titanium dioxide pigment which must be 99.9 per cent pure when dried. The pigment is produced by precipitation and the material, as prepared, is contaminated with 1 kg of salt solution containing 0.55 kg of salt / kg of pigment. The material is washed countercurrenfly with water in a number of thickeners arranged in series. How many thickeners will be required if water is added at the rate of 200kg/s and the solid discharged from each thickeners .removes 0.5kg of solvent/kg of pigment ? A mixture of 60 mole per cent benzene, 30 per cent of toluene and 10 per cent xylene is handled in a batch still. If the top product is to be 99 per cent benzene, determine : 13 a) the liquid composition on each plate at total reflux, b) the composition on the 2nd and 4th plates for R = 1.5, The relative volatility of benzene to toluene may be taken as 2.4. and the relative volatility of xylene to toluene as 0.43. OR 2429 6 AL 2429 - 3 What will be the required number of thickeners if the amount of solution removed in association with the pigment varies with the concentration of the solution in the thickener as follows : kg solute / kg solution 0 0.1 02 0.3 0.4 0.5 kg solution / kg pigment 0.30 0.32 0.34 0.36 0.38 0.40 The concentrated wash liquor is mixed with the material fed to the first thickener. Mole per cent CS2 in the vapour : 0 8.23 15.55 A continuous fractionating column, operating at atmospheric pressure, is to be designed to separate a mixture containing 15.67 per cent CS2 and 84.33 per cent CCI4 into an overhead product containing 91 per cent CS2 and a waste of 97.3 per cent CCI4, all by mass. A plate efficiency of 70 per cent and a reflux of 3.16 kmoVkmol of product may be assumed. Determine the number of plates required. The feed enters at 290K with a specific heat capacity of 1.7kJ/kg K and has a boiling point of 336K. The latent heats of CS2 and of CCI4 are 25.9MJ/kmol. The latent heat of CS2 and CCI4 is 25900 kJ/ kmol. AL - 2429 4 74.7 82.9 87.8 93.2 Mole per cent CS2 in the liquor : 0 2.96 6.15 11.06 14.35 25.85 39.0 53.18 66.30 75.75 86.011 OR 13 8. The locus of the point of intersection of the operating lines is of considerable importance, it is dependent on the temperature and physical condition of the feed. Explain the effect of the condition of the feed on the intersection of the operating lines for a fixed reflux ratio [q-lines]. SECTION - B 7. 26.6 33.2 49.5 63.4 9. lā A distillation column is fed with a mixture of benzene and toluene, in which the mole fraction of benzene is 0.35. The column is to yield a product in which the mole fraction of benzene is 0.95, when working with a reflux ratio of 3.2, and the waste from the column is not to exceed 0.05 mole fraction of benzene. If the plate efficiency is 60 per cent, estimate the number of plates required and the position of the feed point. The relation between the mole fraction of benzene in liquid and in vapour is given by : 1 14 AL - 2429 5 P.T.0