| Relevance of Course Objectives and Core Learning Outcomes(%) |
Teaching and Assessment Methods for Course Objectives |
| Course Objectives |
Competency Indicators |
Ratio(%) |
Teaching Methods |
Assessment Methods |
使環境工程系學生了解並熟悉常運用在環境工程上之物理原理計算與機制,以利應用
Apply the the mechanism of environmental physic principles to environmental engineering. |
| 1.Expertise in environmental engineering. |
| 2.Ability to plan and execute research on environmental engineering topics. |
| 3.Ability to write professional papers in environmental engineering. |
| 4.Innovative thinking and independent problem-solving skills. |
| 5.Ability to coordinate and integrate with people from different fields |
| 6.Good international outlook. |
| 7.Ability to lead, manage and plan. |
| 8.Ability to grow through lifelong self-learning. |
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| Course Content and Homework/Schedule/Tests Schedule |
| Week |
Course Content |
| Week 1 |
Screening
|
| Week 2 |
Coarse solids reduction |
| Week 3 |
Flow equalization
|
| Week 4 |
Mixing and flocculation
|
| Week 5 |
Gravity separation theory |
| Week 6 |
Midterm Exam 1 |
| Week 7 |
Introduction to Particulate Matters in Gaseous Streams |
| Week 8 |
Behaviors of Particulate Matters in Fluids and Equipment for removing Particulate Matters |
| Week 9 |
Equipment for removing Particulate Matters: Application of Gravitational Forces
|
| Week 10 |
Equipment for removing Particulate Matters: Application of Centrifugal Forces |
| Week 11 |
Equipment for removing Particulate Matters: Application of Electro-static Forces |
| Week 12 |
Equipment for removing Particulate Matters: Application of Inertial Forces |
| Week 13 |
Basic fluid mechanics of environmental transport |
| Week 14 |
Mass transfer: diffusive mass transport, convective diffusion, and dispersion |
| Week 15 |
Reaction kinetics |
| Week 16 |
Reactor engineering |
| Week 17 |
Interfacial mass transfer: water-air interface |
| Week 18 |
Final Exam |
|
| Evaluation |
| The assessment is carried out in three times, each time accounting for 1/3 of the score |
| Textbook & other References |
1.Metcalf & Eddy Inc., Wastewater Engineering: Treatment and Resource Recovery, Fifth Edition, McGraw-Hill,2014.
2.Walter J. Weber Jr. and Francis A. DiGiano, Process Dynamics in Environmental Systems, Wiley, New York, NY, USA, 1996.
3.Mark Clark, Transport Modeling for Environmental Engineers and Scientists. 2nd Ed., Wiley, New York, NY, USA, 2009. |
| Teaching Aids & Teacher's Website |
| Self-edited lecture notes |
| Office Hours |
| According to the tutoring time stipulated by the department |
| Sustainable Development Goals, SDGs |
| include experience courses:N |
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