| 課程大綱 Syllabus |
學生學習目標
Learning Objectives |
單元學習活動
Learning Activities |
學習成效評量
Evaluation |
備註
Notes |
序
No. | 單元主題
Unit topic |
內容綱要
Content summary |
| 1 | Introduction to separation processes |
1. Industrial chemical processes
2. separation process development example |
1. To understand the roles of separation in chemical process industry
2. To learn how to develop separation process |
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| 2 | Adsorption |
1. Applications of adsorption
2. Adsorbents
3. Adsorption isotherm |
1. To learn different applications of separation by adsorption
2. To learn various adsorbents
3. To learn adsorption equilibrium |
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| 3 | Adsorption |
1. Fixed bed adsorption
2. Non-inference adsorption
3. Wave theory for adsorption column dynamics |
1. To learn operation of fixed bed adsorption
2. To understand the relation between adsorption isotherm and column dynamics
3. To learn the wave propagation theory |
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| 4 | Adsorption |
1. Multiple component adsorption isotherm
2. Coherence condition for multiple component adsorption
3. Breakthrough curves of multiple component adsorption column
4. Chromatography separation of multiple components |
1. To learn adsorption isotherm models of multiple component systems
2. To learn how to apply wave theory for multiple component separation by adsorption |
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| 5 | Ion exchange |
1. Binary ion exchange equilibrium
2. Ion exchange column dynamics of binary system
3. Breakthrough curve of binary ion exchange column
4. Regeneration curve of binary ion exchange column |
1. To learn binary ion exchange equilibrium
2. To learn binary ion exchange column dynamics |
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| 6 | Ion exchange |
1. Multiple ion exchange equilibrium
2. Ion exchange column dynamics of multiple system
3. Breakthrough curve of multiple ion exchange column
4. Regeneration curve of multiple ion exchange column
5. GAS–SOLID SYSTEMS
6. MULTIPHASE SYSTEMS |
1. To learn multiple ion exchange equilibrium
2. To learn multiple ion exchange column dynamics |
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| 7 | Extraction |
1. Solid liquid extraction isotherm
2. Stage operation of solid liquid extraction |
1. To learn solid liquid extraction isotherm
2. To learn how to design and operate multiple stage solid liquid extraction |
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| 8 | Extraction |
1. Liquid liquid extraction isotherm
2. Stage operation of liquid liquid extraction
3. Aspen liquid liquid extraction |
1. To learn liquid liquid extraction isotherm
2. To learn how to design and operate multiple stage liquid liquid extraction
3. To learn how to use Aspen for liquid liquid extraction design |
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| 9 | Absorption |
1. Gas liquid equilibrium
2. Gas liquid mass transfer
3. Absorption column design
4. Aspen absorption |
1. To learn Henry's law for gas liquid absorption
2. To learn how to design and operate column of gas liquid absorption
3. To learn how to use Aspen for absorption |
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| 10 | Distillation |
1. Binary system vapor liquid equilibrium
2. Flash of binary system
3. McCabe-Thiele method for distillation column design |
1. To learn how to calculate bubble point curve and dew point curve of binary systems
2. To learn the McCabe-Thiele method for binary distillation |
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| 11 | Distillation |
1. Multiple component system vapor liquid equilibrium
2. Aspen short-cut distillation
3. Aspen rigorous distillation |
1. To learn Aspen short-cut distillation
3. To learn Aspen rigorous distillation |
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| 12 | Aspen project |
1. Project description for mixed solvent separation
2. Distillation sequence |
1. To understand project requirement
2. To learn the utility cost of different distillation sequence |
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| 13 | Aspen project |
1. Oral presentation of separation project by Aspen
2. Written report of separation project by Aspen |
1. To present the design project
2. To learn how to work as a team to accomplish a design project |
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