Q1. Study the phenol/water phase diagram below and answer the following questionsregarding systems occurring at 30 °C in equilibrium66.8°Temperature (°C)30VIII0One liquid phasehAWW Water (A)Phenol (B)dWTwo liquid phases11%Phenol63%PhenolC||0g1204060iPhenol in water (% by weight)80100A. Calculate the amount of phenol (g) in the water-rich phase and the phenol-rich phase at point (d) 24%w/w phenol in water, where the two liquid phasesseparate at 7% and 70% of phenol respectively, assuming total weight ofsystem is 135g.B. What is the total amount of water (g) in the water-rich phase and the phenol-rich phase at 60%w/w phenol assuming total weight of system is 50g.C. Determine the concentration (i.e. %w/w phenol in water) at which the systemseparates into equal weights of water-rich and phenol-rich phases, andcalculate the weight of phenol and water in these conjugate phasesassuming total weight of system is 45g.

A. Calculate the amount of phenol (g) in the water-rich phase and the phenol-rich phase at point (d)…

Answered: Q1. Study the phenol/water phase…

Introduction to Chemical Engineering Thermodynamics

8th Edition

ISBN:9781259696527

Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Chapter1: Introduction

Section: Chapter Questions

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3. The microstructure of a Cu-Ag alloy at 779°C consists of primary a (with mass fraction of 0.73) and eutectic structure (with mass fraction of 0.27). Determine the composition of this alloy. Temperature (°C) 1200 A 1000 Ⓒ 800 600 400 200 a C (Cu) B 8.0 (CE) -Solidus Solvus 20 20 a +L Composition (at% Ag) 40 -Liquidus 779°C (T) a+B 40 60 Composition (wt% Ag) T Liquid 60 71.9 (C₂) 80 80 B+L 91.2 (Cpg) 100 T 2200 G TITINTI B ++ H 2000 1800 F 1600 1400 1200 1000 800 600 400 100 (Ag) Temperature (°F)
A saturated solution containing 150 kilograms of sodium sulfate (mol. wt. = 142) in 600 kilograms of water is fed to Swenson-Walker crystallizer. The solubility of sodium sulfate at 10 °C is 9 kilogram of anhydrous salt per 100 kilogram of water, and the deposited crystals consist of the decahydrate (mol. Wt. = 322). Crystallization is by cooling at 10 °C. If 2% of the water was lost by evaporation during the cooling process, the percent (%) yield in the crystallizer is Blank 1%. **(Express your answer to two (2) decimal places. Do not put units on your answer)**

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