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Campus Asia Program-English courses in Nagasaki University
Cource of Civil and Enviromental Engineering
Subject Advanced structural design Lecturer Dr. YamaguchiE-mail [email protected]
Day・Period undecidedClass Period Forth Quarter 11/28-03/31
Credits 2
Course Outline and Objectives
Hybrid structures with steel and concrete which is the main construction materials have expanded coverage as a reasonable structural form that makes the best use of the merit of both and supplements the weak point. Therefore, it is being acknowledged as the third structural form following steel structures and concrete structures. From that background, as an extension of steel and concrete structural mechanics in the faculty, special basic knowledge concerning design and construction of the hybrid structures is master.
GoalThe advantage and the problem of the hybrid structures are understood.The mechanics of composite structures such as beams, decks, and columns is understood.
Contents
1. Background2. Current status and issues of infrastructure(1)3. Current status and issues of infrastructure(2)4. Definition and classification of hybrid structures5. Presentation(1)6. Feature, history and application experience of hybrid structures7. Structure and joint method of composite structures8. Structure and joint method of combined structures9. Theory of hybrid structures : Composite and non-composite10. Theory of hybrid structures : Theory of elasticity of composite structures11 Theory of hybrid structures : Theory of plasticity of composite structures12. Theory of hybrid structures : Theory and design of composite column13. Theory of hybrid structures : Theory and design of composite decks14.Examination15. Presentation(2)
Campus Asia Program-English courses in Nagasaki University
Subject Advanced Environmental HydraulicsLecturer Prof. Tada AkihideE-mail [email protected]
Day・Period undicidedClass Period Third Quarter 09/29-11/27
Credits 2
Course Outline and Objectives
水理学は、河川工学、海岸工学、上下水道工学、発電水力、水資源工学、潅漑工学などすべての水工学の数理的基礎を形成する学問である。本特論では欧書の解説と問題の演習を中心に進め、土木工学の分野で主として取り扱われる開水路の流れをきちんと理解して、実際の水路の設計ができるようにする。
Goal開水路流れの数理的取扱いを充分理解し、とくに水路の設計等に関する各種計算ができること、および現場の簡単な問題には自ら応用できること.
Contents
第 1 回 講義の概論、講義スケジュールの説明、成績評価法の説明 第 2 回 流れの基礎原理(開水路流れとその分類) 第 3 回 流れの基礎原理(開水路とその性質) 第 4 回 流れの基礎原理(エネルギーと運動量の保存則) 第 5 回 流れの基礎原理(エネルギーと運動量の保存則) 第 6 回 流れの基礎原理(限界流の計算と応用) 第 7 回 等流とその公式 第 8 回 等流の計算 第 9 回 等流の水路設計 第 10 回 等流の境界層、表面粗度、流速分布 第 11 回 漸変流の理論と解析 第 12 回 漸変流の計算法(その1) 第 13 回 実用上の諸問題 第 14 回 演習問題Ⅰ 第 15 回 演習問題Ⅱ
Campus Asia Program-English courses in Nagasaki University
Campus Asia Program-English courses in Nagasaki University
Subject Advanced Coastal Environmental EngineeringLecturer Prof. Tada AkihideE-mail [email protected]
Day・Period Mon1, Thu1Class Period Forth Quarter 11/28-03/31
Credits 2
Course Outline and Objectives
近年、人間活動が活発になるに従い、海域への影響範囲が海岸近傍から水深の深い沿岸海域へと急速に拡大しつつある。このような中、海岸環境および沿岸域環境を望ましい姿に保全しながら沿岸域を有効利用していくためには、沿岸域における流動特性および物質輸送機構を明らかにする必要がある。そのための基礎知識として、沿岸域や海洋で生じている様々な物理現象について講義する。
Goal長波の波動方程式および潮汐残差流の説明ができることを到達目標とする。
Contents
第 1回 ガイダンスおおよび潮汐・潮流について(起潮力、調和解析)第 2回 長波の理論①(長波の波動方程式とその解法)第 3回 〃 ②(湾水振動)第 4回 長波の理論③(長波の変形)第 5回 〃 ④(流動に及ぼす地球自転の影響)第 6回 潮汐残差流第 7回 吹送流:風に伴う流れ① 第 8回 吹送流:風に伴う流れ②(エクマン流)第 9回 密度流:密度差に伴う流れ①第10回 密度流:密度差に伴う流れ② 第11回 物質輸送機構を支配する拡散方程式第12回 拡散・分散機構 第13回 海水交換第14回 情報化技術を駆使した現地観測方法第15回 水環境問題に関する数値シミュレーションの現状
Campus Asia Program-English courses in Nagasaki University
Subject Advanced Maintenance and Management of InfrastructureLecturer Dr. Okumatsu ToshihiroE-mail [email protected]
Day・Period Mon2, Thu2Class Period Third Quarter 09/29-11/27
Credits 2
Course Outline and Objectives
focus on asset management, measurement techs and identification base analysis.
Goalunderstanding maintenance techs , health diagnosis, and structural identification with measurement data.
Contents
1. background2. Life cycle of infrastructures3. asset management 4. diagnosis method and techs5. maintenance of structures (concrete structure)6. maintenance of structures(steel structure)7. case study of infra maintenance8. maintenance based on bridge measurement9. analysis based on measurement data(1)(method)10. analysis based on measurement data(2)(modeling)11. analysis based on measurement data(3)(filtering)12. execution of maintenance (vibration monitoring)13. execution of maintenance (evaluation)14. database15. report
Campus Asia Program-English courses in Nagasaki University
Subject Advanced Geoenvironmental EngineeringLecturer Prof. Jiang YujingE-mail [email protected]
Day・Period Mon2, Wed1Class Period Forth Quarter 11/28-03/31
Credits 2
Course Outline and Objectives
Learn the theory and evaluation method for evaluating behavior of rock structures (tunnel / underground caving, rock slope, geological disposal etc.) constructed in rock mass. In addition, the theories and methods for safe radioactive waste geological storage are also lectured.
GoalUnderstanding the basic principle and control method of geosphere environments.
Contents
1st: Introduction2nd: Principle of Rock Mechanics (Part 1: intact rock / discontinuity)3rd: Principle of Rock Mechanics (Part 2: deformability / anisotropy of rock)4th: Principle of Rock Mechanics (Part 3: permeability of rock)5th: Environmental Factors of Underground (Part 1: interaction between the ground and groundwater)6th: Environmental Factors of Underground (Part 2: environmental factors of groundwater)7th: Block Theory (formation condition of key block / behavior evaluation of jointed rock mass)8th: Distinct Element Method (Part 1: basic principle, constitutive law, treatment of contact and rotation)9th: Distinct Element Method (Part 2: Flow of water in crack, rock joint network analysis)10th: Concept and Modeling of Mass Transfer in Rock Mass11th: Pathway of Mass Transfer12th: Advection and Diffusion13th: Radioactive Waste Geological Processing (hydraulic characteristics of rock mass / coupling problem of rock mass)14th: Radioactive Waste Geological Processing (transfer mechanism in rock mass)15th: Radioactive Waste Geological Processing (long-term underground environment function)16th: Presentation and Discussion
Campus Asia Program-English courses in Nagasaki University
Subject Advanced Remote SensingLecturer Dr. Seto ShintaE-mail [email protected]
Day・Period Mon3, Wed1Class Period Third Quarter 09/29-11/27
Credits 2
Course Outline and Objectives
To understand the basic theory of remote sensing in civil engineering.
Goal To use remote sensing data for your master thesis.
Contents
1. Introduction2. What is remote sensing3. Earth observation satelites4. Precipitation5. Radiation6. Radiative Transfer7. Mie scattering8. Rayleigh approximation9. Radiative Transfer Model (RTM)10. Usage of RTM11. Application of RTM12. Radar13. Backscattering and attenuation14. Z-R relation15. Attenuation correction
Campus Asia Program-English courses in Nagasaki University
Course of Water and Enrivonmental Engineering
Subject Advanced Surface ChemistyLecturer Prof. Tanabe ShujiE-mail [email protected]
Day・Period Mon1, Thu1Class Period Forth Quarter 11/28-03/31
Credits 2
Course Outline and Objectives
There are three state or phase on the all materials that we use in our life, i.e., gas, liquid, and solid. In many case, the boundary exists between two different states or phase. The boundary (sometimes we call "surface") has unique properties because electronic state is terminated on it. One of most important property is chemisorption. This subject will provide some unique properties and phenomena of surface and boundary, and discuss about some famous literatures.
Goal Understanding the surface properties, X-ray analysis, adsorption phenomena.
Contents
1 Introduction2 Surface properties-13 Surface properties-24 Surface properties-35 Surface properties-46 Temperature programmed desorption (TPD)7 Temperature programmed reduction (TPR)8 X-ray absorption spectrum-19 X-ray absorption spectrum-210 Surface structure and bulk structure11 Surface structure and bulk structure12 Adsorption-113 Adsorption-214 Adsorption-315 Conclusions16 Further latest works
Campus Asia Program-English courses in Nagasaki University
SubjectMathematical and physical methods for water environmental engineering and sciece
Lecturer Prof. Itayama Tomoaki, Prof. Tada AkihideE-mail [email protected], [email protected]
Day・Period Tue2, Tue3Class Period Third Quarter 09/29-11/27
Credits 2
Course Outline and Objectives
For the students in "International Water Engineering Course",basic knowledges and techniques of mathematics and physics are given to solve practical water environmental problems.
Goal
1) Students understand basic calculus and linear algebra for physics and hydrodynamics.2) Students understand basic physics (Mechanics, Electric circuits and field, thermal physics, hydrodynamics)
Contents
1st Basic vector algebra and calculus for mechanics 2nd Equation of motion and potential filed 3rd Conservation law and collision of particles 4th Linear and nonlinear dynamics 5th Molecular dynamics and coupled system 6th Molecular motion in electromagnetic field 7th Dynamics of electric circuits 8th Ideal gas and Boltzmann distribution 9th Stochastic dynamics and Brownian motion 10th Quantum state and Entropy 11th Calculus in hydrodynamics 12th Linear Algebra problem in hydrodynamics 13th Vector analysis in hydrodynamics 14th Differential equation’s solution for long wave 15th Solution on one-dimensional diffusion equation 16th Summary and Presentation
Campus Asia Program-English courses in Nagasaki University
Subject Environmental material science and chemistryLecturer Prof. Itayama Tomoaki, Prof. Tanabe Shuji, Prof. Murakami HirotoE-mail [email protected], [email protected], [email protected]
Day・Period Fri2, Fri3Class Period Third Quarter 09/29-11/27
Credits 2
Course Outline and Objectives
The basic theory and applications of chemistry and materials science in water treatment will be lectured. The knowledge of thermodynamics, equilibrium, reaction rate, polymer science, biology, and microbes is important if you want to solve severe environmental issues. This subject provides some clues which help you to consider the solution against the issues.
Goal Understanding chemistry and materials science in water environment
Contents
1st Chemical bond and chemical reaction 2nd Entropy and free energy 3rd Solution chemistry 4th Rate of chemical reaction 5th Equilibrium and free energy 6th Complicated chemical reactions 7th Polymer science 8th Synthesize of polymer 9th Property of polymer 10th Characterization of polymer 11th Microbial cell and Biomaterials 12th Genes in microbes 13th Bio-energetics 14th Growith of microbes 15th Diversity of microbes and microbial ecosystem 16th Presentation
Campus Asia Program-English courses in Nagasaki University
Subject Environmental Date AnalysisLecturer Dr. Moriyama MasaoE-mail [email protected]
Day・Period Mon3, Mon4Class Period Third Quarter 09/29-11/27
Credits 2
Course Outline and Objectives
To understand the environmental data analysis, the lecture and practice which covers physics and statistics related to the environmental data measurement and analysis are made.
Goal1. The phisical parameter detection principal will be understood.2. The evaluation scheme of the measurement system will be understood.3. Various statistical data analysis method will be understood.
Contents
1. Basic physics for the sensor (4 lectures) How to detect the various physical parameters. Dynamics, fluid dymamics, thermodymamics, Electromagnetic theory and optics.
2. Measurement system design (3 lectures) Evaluation scheme of the measurement system. Amplifier, A/D converter and sampling theory.
3. Statistical data processing (8 lectures) Information retrieval from the measured data. Least squere method, analysis of variance, quantification theory, clustering and time series analysis.
Campus Asia Program-English courses in Nagasaki University
Subject Hydrosphere modeling practicum ALecturer Dr. Suzuki SuzukiE-mail [email protected]
Day・Period Mon4, Mon5Class Period Forth Quarter 11/28-03/31
Credits 1
Course Outline and Objectives
The course aims to a better understanding of numerical models for environmental impact assessment and effect evaluation of the environmental rehabilitation approaches
GoalStudents in this course will learn fundamental principles, theories and application techniques of the numerical models for environmental impact assessment.
Contents
01. Introduction02. Outline over Environmental Analysis Numerical models and applications03.Installation of Simulation Platform04. Preparations for Simulation Exercises in a Pilot Water Body - Hydrodynamics I05. Handling Practice on the Application Suite06. Preparations for Simulation Exercises in a Pilot Water Body - Hydrodynamics I07. Preparations for Simulation Exercises in a Pilot Water Body - Hydrodynamics II08. Reproduction of the Present Physical Condition 09. Principles of Water Quality and Ecosystem Analysis10. Handling Practice on the Application Suite I11. Handling Practice on the Application Suite II12. Preparations for Simulation Exercises in a Pilot Water Body - Water Quality and Ecosystem I13. Preparations for Simulation Exercises in a Pilot Water Body - Water Quality and Ecosystem II14. Reproduction of the Present Environmental Condition I15. Reproduction of the Present Environmental Condition II
Campus Asia Program-English courses in Nagasaki University
Subject Hydrosphere modeling practicum BLecturer Dr. Seto ShintaE-mail [email protected]
Day・Period Thu4, Thu5Class Period Third Quarter 09/29-11/27
Credits 1
Course Outline and Objectives
In this class, students review basic knowledge of hydrology, use a numerical model for hydrological simulation, and learn programming language and some software for data analysis and visualization.
GoalStudents will learn how to use a hydrological model to simulate river discharge and how to manipulate, analyze, and visualize hydrological data.
Contents
01. Introduction02. Basics of data processing 03. Basics of data visualization 04. Basics of data manipulation (1)05. Basics of data manipulation (2)06. Overview of a hydrological model07. Surface meteorological data for hydrological modeling08. Preparation of surface meteorological data09. Land surface process10. Application of land surface process11. Analysis of land surface outputs12. River routing process13. Preparation of river network data14. Application of river routing process15. Analysis of river routing outputs
Campus Asia Program-English courses in Nagasaki University
Subject Transport theory in water environment and water engineeringLecturer Prof. Tanabe ShujiE-mail [email protected]
Day・Period Thu3, Thu4Class Period Forth Quarter 11/28-03/31
Credits 2
Course Outline and Objectives
The basic theory and applications of hydrodynamics, material transport, hydraulics, fluid dynamics in chemical engineering apparatus will be lectured. The knowledge of hydrodynamics on open and closed system in our society is very important if you want to solve severe environmental issues. This subject provides some clues which help you to consider the solution against the issues.
Goal Understanding the hydrodynamics.
Contents
1st Guidance, basic knowledge of hydrodynamics; mass conservation law 2nd Basic knowledge of hydrodynamics; energy conservation law 3rd Basic knowledge of hydrodynamics; momentum conservation law 4th Fluid resistance; frictional loss and form loss in flow currents 5th Material transport in flow current; advection and diffusion 6th Material transport in flow current; settling, sedimentation etc. 7th Material transport in lakes and marshes, estuary; tidal currents, density current, density stratification, wind-driven current 8th Material transport in lakes and marshes, estuary; red tide, anoxic water and heavy metal pollution 9th Environmental hydraulics in groundwater; 10th Water treatment and chemical engineering 11th Fluid dynamics in chemical apparatus 12th Energy conservation law 13th Basics of plant design 14th Heat transfer and mass transfer 15th Further transfer theory 16th Examination
Campus Asia Program-English courses in Nagasaki University
Subject Restoration and conservation of water environment Lecturer Prof. Itayama TomoakiE-mail [email protected]
Day・Period Fri3, Fri4Class Period Forth Quarter 11/28-03/31
Credits 2
Course Outline and Objectives
Students study on aquatic ecosystem based on the material cycles and population dynamics and community structure of ecosystem. Based on understanding aquatic ecosystem, students learn on the problems of pollution of water environment, practical methods of conservation and restoration for polluted and deteriorated water environment.
Goal
On successful completion ofn this subject, students should be able to:(a) Understand aquatic ecosystem;(b) Understand restoration and conservation of aquatic ecosystem;(c) Understanding on pollution ecology(c) Perform a numerical simulation on ecosystem.
Contents
1st Reviews of aquatic ecosystem 2nd Physical structure of aquatic ecosystem 3rd Chemistry of natural water 4th Phytoplankton, nutrients and eutrophication 5th Competition among phytoplankton 6th Toxic cyanobacteria and harmful algae 7th Zooplankton and Grazing 8th Material cycle and Energy flow 9th Benthic ecosystem 10th Chemical pollution(I) 11th Chemical pollution(II) 12th Management and conservation of water environment (I) 13th Management and conservation of water environment (II) 14th Restoration of water environment (I) 15th Restoration of water environment (II) 16th Presentation
Campus Asia Program-English courses in Nagasaki University
Subject Modern water treatment engineeringLecturer Prof. Itayama Tomoaki, Prof. Tanabe Shuji, Dr. Fujioka TakahiroE-mail [email protected], [email protected],[email protected]
Day・Period Tue3, Tue4Class Period Forth Quarter 11/28-03/31
Credits 2
Course Outline and Objectives
This subject leads students to understand on conventional physico-chemical water treatment, membrane filtration system and biological wastewater treatment (activated sludge system).
Goal
On successful completion of in this subject, students should be able to:(a) understand conventional physico-chemical water treatment system.(b) understand membrane filtration system. (c) understand biological wastewater treatment system (activated sludge) and the simulation model.
Contents
1 Planning of water system by T. Fujioka 2 Water Quality by T. Fujioka 3 Coagulation by T. Fujioka 4 Sedimentation by T. Fujioka 5 Micro Filtration (MF) and Ultra Filtration (UF) by T. Fujioka 6 Nano Filitration (NF) and Reverse Osmosis (RO) by T. Fujioka 7 Design of RO system by T. Fujioka 8 Adsorption for Water Treatment by S. Tanabe 9 Overview of Wastewater Treatment by T. Itayama 10 Principle of Activated Sludge Treatment (I) by T. Itayama 11 Principle of Activated Sludge Treatment (II) by T. Itayama 12 Principle of Activated SludgeTreatment (III) by T. Itayama 13 Design of Activated Sludge Treatment System by T. Itayama 14 Simulation Model of Activated Sludge Treatment (I) by T. Itayama 15 Simulation based Design of Activated Sludge Treatment System (II) by T. Itayama 16 Simulation based Design of Activated Sludge Treatment System (II) by T. Itayama
