Chemical and Engineering Thermodynamics

1

Chemical and Engineering

Thermodynamics

Chapter 8Phase equilibrium in mixtures

Parts B ： IllustrationSandler

2 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

Illustration 8.1-1 Using azeotropic data to predict VLE of a bin

ary mixture Benzene and cyclohexane form an azeotrope at

0.525 mole fraction benzene at temperature of 77.6C and a total pressure of 1.013 bar. At this temperature the vapor pressure of pure benzene is 0.993 bar, and that of pure cyclohexane is 0.980 bar.

3 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

Illustration 8.1-1 Q1. Using the van Laar model, estimate the activity coeffi

cients of benzene and cyclohexane over the whole composition range. Use this activity coefficient information to compute the equilibrium pressure versus liquid composition and equilibrium vapor composition versus liquid composition curves at 77.6C.

Q2. Make predictions for activity coefficients of benzene and cyclohexane using regular solution theory, and compare these with the results obtained in part a.

4 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

利用共沸數據提供熱力學模式參數

製備活性係數之組成關係圖

製備壓力與組成關係圖

系統簡化計算之假設

5 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

氣液平衡的準據

組成的計算式之推演

Van Laar model

6 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

模式係數計算式之推導

7 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

共沸組成提供模式係數計算

取得本題目之混合物系統之兩個成分活性係數模式

數學分析的應用 自由度分析

8 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

系統自由度分析

獨立方程式共計 10 個

系統自由度為 0 可解

9 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

計算程序思考

Regular solution 模式

體積分率：將粒子大小的貢獻在記算式中表達

10 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

取得成分之活性係數模式

依前節之計算程序作計算

11 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

Illustration 8.1-2 Estimation of dew point and bubble point te

mperature Estimate the bubble-point and dew-point temperatures

of a 25mole percent n-pentane, 45 mole percent n-hexane, and 30 mole percent n-pentane mixture at 1.013 bar.

for P in bar, T in K, and R=8.314 J/mol K. The subscripts 5, 6, and 7 designate pentane, hexane, and heptane, respectively.

RT

BAPln i

ivap

i

12 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

計算霧點溫度與泡點溫度

三成份系統

提供飽和蒸汽壓模式

提供溶解度參數

13 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

溶解度參數表示可運用Regular solution model

多成分之平均溶解度參數定義

體積分率之定義

問題 已知液相組成與系統壓力

計算泡點溫度 已知氣相組成與系統壓力

計算霧點溫度

14 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

由溶解度參數判定溶液混合行為的複雜度

相律的自由度分析

系統自由度的分析

變數的個數

15 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

獨立方程式

系統自由度為 0 可解

16 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

計算程序分析 由各獨立方程式之自由度

分析無法順利建構一個計算程序

須採用疊代計算

疊代計算程序的思考架構

疊代計算收斂的指標

17 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

Illustration 8.1-3 Vapor-liquid equilibrium calculation A liquid mixture of 25mole percent n-

pentane, 45 mole percent n-hexane, and 30 mole percent n-pentane, initially at 69C and a high pressure , is partially vaporized by isothermally lowering the pressure to 1.013 bar. Find the relative amounts of vapor and liquid in the equilibrium and their compositions.

18 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

Flash distillation

在定溫與定壓下之閃沸蒸餾計算

定義 K-value

19 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

系統自由度分析 相律自由度分析

20 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

系統自由度為 0 可解

各個獨立方程式之自由度分析可之需要進行疊代計算

將運算式簡化整理

21 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

疊代計算程序

疊代計算收斂指標

計算結果

22 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

Illustration 8.1-4 Correlation of vapor-liquid equilibrium data Weissman and Wood have made very accurate

measurements of vapor-liquid equilibria in benzene-2,2,4-trimethyl pentane mixtures over a range of temperatures.

23 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

Their data for the vapor and liquid compositions and equilibrium total pressure at 55C are given in the following table:

xB yB P(bar) 0.0819 0.1869 0.26892 0.2192 0.4065 0.31573 0.3584 0.5509 0.35463 0.3831 0.5748 0.36088 0.5256 0.6787 0.39105 0.8478 0.8741 0.43277 0.9872 0.9863 0.43641

The vapor pressure of pure benzene at 55C is 0.43596 bar, and that of 2,2,4-trimethyl pentane is 0.23738 bar.

Calculate the activity coefficients of benzene and 2,2,4-trimethyl pentane and at each of the experimental points.

24 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

氣液相平橫數據的關連 求取熱力學模式的系統參

數

25 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

問題 計算活性係數與過剩 Gib

bs 自由能 求取活性係數模式參數

相平橫準據

活性係數計算關係式

剩餘 Gibbs 自由能與活性係數的關係式

26 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

選定ㄧ個溶液理論模式 最適化計算取得參數

活性係數模式的推演

27 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

活性係數之組成關係

28 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

Illustration 8.1-5 Predicting vapor-phase compositions from

P-T-x data Using only the liquid-phase mole fraction and

pressure data fir the n-pentane-propionaldehyde system at 40C given in Table 8.1-1, estimate the vapor compositions.

29 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

Table 8.1-1 x1 y1 P(bar) x1 y1 P(bar)

0 0 0.7609 0.4463 0.5877 1.3354 0.0503 0.2121 0.9398 0.5031 0.6146 1.3494 0.1014 0.3452 1.0643 0.5610 0.6311 1.3568 0.1647 0.4288 1.1622 0.6812 0.6827 1.3636 0.2212 0.4685 1.2173 0.7597 0.7293 1.3567 0.3019 0.5281 1.2756 0.8333 0.7669 1.3353 0.3476 0.5539 1.2949 0.9180 0.8452 1.2814 0.4082 0.5686 1.3197 1.0 1.0 1.1541

30 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

相平衡計算 P-T-x-y 數據 P-T-x 數據

( 預測氣相組成 )

採用 van Laar model

最適化計算的目標函數

31 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

取得最適化計算結果之模式參數

計算程序有關的討論與分析

溫度已知 液相組成已知 氣相成份行為與混合行為

皆視為理想的行為

32 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

Illustration 8.1-6 Predicting VLE from infinite dilution activit

y coefficients determined from Ebulliometry

A recent ebulliometric study of the n-pentane-propionaldehyde at 40C has shown that =3.848 and =3.979. Use this information to compute the P-x-y diagram for this system at 40C.

33 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

由 Ebulliometry 量測無限稀釋溶液之性質

問題 製作壓力與組成的關係圖

滑性係數模式由無限稀釋溶液性質求取

34 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

計算程序思考

35 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

Illustration 8.1-7 Computing the solvent partial

pressure above a polymer + solvent mixture

The Flory-Huggins model

volume fraction

2)1(11

1lnln BBB

BB mx

jjj

BBB nVx

Vn

36 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration In the processing of polymers, and als

o for polymer devolatilization (the removal of the solvent from the polymer), it is important to be able to calculate the equilibrium partial pressure of a solvent above solvent-polymer mixtures of different compositions. Calculate the partial pressure of benzene in benzene + polyisobutylene (PIB) mixtures at 298.15 and 312.75 K.

37 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration In this calculation you can assume that

polyisobutylene has a negligible vapor pressure, and that the Flory-Huggins model describes the solution behavior of this polymer + solvent mixture. Do the calculations for values of the Flory-Huggins parameter equal 0.5 to 1.0.

38 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration Data

The molar volume of benzene is 88.26 cm3/mol, its molecular weight is 78, and its vapor pressures are =0.1266 bar at 298.15 K and 0.2392 bar at 312.75 K, respectively.The molecular weight of the PIB is 40,000, the monomeric unit in PIB has a molecular weight of 104, and the monomeric volume is 131.9 cm3/mol monomer.

39 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

聚合物溶液系統的計算 計算溶劑分壓

物理性質數據

40 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

計算苯的分壓 工程應用上的價值？

解題 聚合物單體數

莫耳分率 體積分率 聚合物的片斷數

以溶劑分子大小為基準

41 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

聚合物的活性係數模式

相平衡時的推導計算式

計算程序 選定溫度 設定溶劑重 選定溶解度參數

42 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

計算莫耳分率與體積分率 計算溶劑的活性係數 計算溶劑苯在氣相的分壓

另一個組成的計算

43 Chapter 8Phase equilibrium in mixture

sParts B ： Illustration

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