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現在位置: ホーム ja シラバス(2020年度) 工学部 地球工学科 Water Resources Engineering

Water Resources Engineering

JA | EN

科目ナンバリング
  • U-ENG23 33531 LE73
開講年度・開講期 2020・後期
単位数 2 単位
授業形態 講義
対象学生 学部生
使用言語 英語
曜時限 水1
教員
  • 立川 康人(工学研究科 教授)
  • 堀 智晴(防災研究所 教授)
  • KIM,SUNMIN(工学研究科 准教授)
授業の概要・目的 Methodology for water resources development, management and conservation is introduced from the engineering viewpoint. Main topics are distribution of water resource on the earth, grasp and prediction of water demand, planning and design of water resources systems, estimation and prediction of river flow, policy and water rights, and operation of reservoirs.
到達目標 The goal is to understand the basic theory and methodology for water demand prediction, water resources systems design, river flow estimation, water resources policy and reservoir operation.
授業計画と内容 The 1st Class: Water resources systems planning
Target of water resources engineering. Temporal and spatial distribution of water resources on the earth.

The 2nd - 3rd Classes: Development of water resources
Concept and measures of water resources develeopment. Efficiency and limit of water resources development.

The 4th Class: Design of water resources systems,
Estimation of water demand and design of water resources systems.

The 5th - 6th Class: Operation and management of water resources systems
Planning and management, off-line and real time operation, optimization of reservoir control.

The 7th Class: Social and legislation system for water resources
Social and legislation system for water resources, water right, public and private water, management and defect.

The 8th Class: Hydrologic predictions
Hydrologic predictions play an important role for water resources evaluation. The basic role of hydrologic predictions for a river planning and river management are explained.

The 9th - 12th Class: Hydrologic frequency analysis
The basis of the hydrologic frequency analysis is explained. Hydrologic variables used for the river planning and water resources planning are introduces as probabilistic variables; the concept of non-exceedance and exceedance probability and T-year probabilistic hydrologic variables are explained. Then, the procedure of hydrologic frequency analysis, distribution functions used for the frequency analysis, and estimation methods of parameters of a distribution function is described.

The 13th - 14th Class: Real-time hydrologic forecasting
Methods for real-time rainfall forecasting and river discharge forecasting are focused.

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The 15th Class: Feedback
Achievement assement is intended to measure students' knowledge, skill and aptitude on the subject.
成績評価の方法・観点 Grading is done based on the mark on regular examination. Performance in the assignment and quiz in the classes is also taken into account. Minimum passing grade is sixty percent.
履修要件 It is desirable that students have already learned fundamental hydrology and systems analysis for planning and management.
授業外学習(予習・復習)等 Explained in the classes.