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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 資源工学入門

資源工学入門

JA | EN

科目ナンバリング
  • U-ENG23 23250 LJ58
  • U-ENG23 23250 LJ73
  • U-ENG23 23250 LJ77
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 日本語
曜時限 火2
教員
  • 小池 克明(工学研究科 教授)
  • 三ケ田 均(工学研究科 教授)
  • 奈良 禎太(工学研究科 准教授)
  • 村田 澄彦(工学研究科 准教授)
授業の概要・目的 The lecture outlines the relationship between human society and earth resources to understand that the resource engineering is a comprehensive scientific field composed of multiple special fields. The area of interest is involved in resource science and earth science such as geology and geophysics. It aims to understand cooperative relations with engineering fields such as civil engineering and environmental engineering, and mechanical engineering, electric engineering, material engineering, etc.
到達目標 Understanding the necessity of earth resources engineering in human society, and acquiring the fundamental knowledge of academic field supporting the earth resource engineering.
授業計画と内容 1. Overview of the energy resource issues, once, outline the history of resource engineering related to industrial revolution and the development of human society, and how resource engineering evolved in relation to geology, geophysics. Also, clarify relationships with other fields of engineering.
2. Resources Geology, Four times, the history of the earth and the origins of the petroleum and natural gas deposit by the igneous deposits, hydrothermal deposits, sedimentary deposits, and sequestration. Fossil energy ① (conventional type): Petroleum, coal, natural gas origin and present status Fossil energy ② (unconventional type): Origin and current status of methane hydrate, shale gas, oil sands, coalbed methane, metal and mineral resources: Origin and current status of minings of various metals, mineral resources such as iron, base metals, rare metals, and nonmetal resources
3. Geophysical exploration, three times, outlines the geophysics required for energy and mineral resource development. After exploring seismology, electromagnetism, and the fundamentals of rock physics and application development to other technical fields, we will outline what kind of geophysical exploration technology is expected for future resource development.
4. Rock rock and rock dynamics, three times, ore development and CCS, radioactive waste, rock dynamics necessary for underground reservoir are outlined. Understand the relationship between stress and strain basement, destruction of the rock of the boring pit and gallery and the ground pressure acting underground.
5. Reservoir engineering, 3 times, production of fluid resources, CCS, understanding the importance of underground seepage flow related to underground storage such as radioactive waste and petroleum. Furthermore, we will learn about the importance and measurement method of physical quantities related to fluid movement such as fluid saturation rate and permeability necessary for utilizing underground pores such as oil layer management, coal bed methane, CCS etc.
6. Confirmation of proficiency level, once, confirm proficiency level throughout. The answers to tests will be provided to improve the understanding of students in reviewing what he/she did not provide right answers.
成績評価の方法・観点 Final evaluation to be made in the combination of a grade for the participation and the score of the final examination. The grade for the participation consists of the answers to quizzes, reports, etc.
履修要件 It is desirable that you take "resource energy theory" in the first term of second grade.
授業外学習(予習・復習)等 Each of lecturers may specify homeworks.
教科書
  • N.P.
参考書等
  • Each of the Lecturers may specify books or papers to be referenced.
実務経験のある教員による授業
  • 分類:

    実務経験のある教員による実務経験を活かした授業科目

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    シュルンベルジェ株式会社 10年 海洋研究開発機構 5.5年 JNOC(現JOGMEC)およびJAPEX 9年

  • 実務経験を活かした実践的な授業の内容:

    民間の実務で用いられる資源工学の知識について講義実施