Course / Course Details

Underground Space Technology

  • Sabitha image

    By - Sabitha

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Course Description

The Underground Space Technology course explores the utilization of underground spaces for various applications. Gain

insights into tunneling, underground construction, geotechnical engineering, underground transportation systems, and

underground storage facilities. This course covers the design, planning, and management of underground space projects,

as well as the technologies and techniques involved. Join us to acquire knowledge and skills in harnessing the potential of

underground spaces and contribute to sustainable urban development. IIT Roorkee July 2018

Course Outcomes

  • Design and plan underground tunnels using advanced geotechnical engineering techniques and sustainable construction methods
  • Apply tunneling technologies and excavation techniques for underground infrastructure projects effectively
  • Evaluate geological and environmental factors influencing underground space development and management
  • Implement safety protocols and risk mitigation strategies in underground construction and transportation systems
  • Utilize underground space for transportation, storage, and urban development to optimize land use
  • Manage underground project planning, budgeting, and resource allocation for efficient execution
  • Integrate innovative underground construction technologies to enhance project sustainability and efficiency
  • Assess environmental impacts and develop mitigation strategies for underground space projects
  • Apply geotechnical data analysis and modeling to support underground engineering decisions
  • Develop maintenance and monitoring plans for underground infrastructure ensuring long-term stability
  • Utilize digital tools and software for designing and managing underground space projects
  • Implement best practices for underground construction safety, quality control, and regulatory compliance
  • Innovate with emerging underground technologies to address urban space constraints and sustainability goals
  • Collaborate effectively with multidisciplinary teams to deliver complex underground space projects

Course Curriculum

  • 1 chapters
  • 61 lectures
  • 0 quizzes
  • N/A total length
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1 Underground Space Technology
7.34 Min

2 Lecture1 Basics of Rock Engineering Introduction
30.21 Min

3 Lecture 2 Basics of Rock Engineering coring sampling UCS of intact rock
24.31 Min

4 Lecture 4 Basics of Rock Engineering Classification of intact rocks concept of rock mass RQD
33.5 Min

5 Lecture 5 Basics of Rock Engineering Classification of rock mass 1
28.02 Min

6 Lecture 6 Basics of Rock Engineering Classification of rock mass Q system and GSI
34.17 Min

7 Lecture 7 Basics of Rock Engineering Failure criteria for rocks 1
32.57 Min

8 Lecture 3 Basics of Rock Engineering Tensile strength and shear strength of intact rock
22.17 Min

9 Lecture 8 Basics of Rock Engineering Empirical failure criteria
32.17 Min

10 Lecture 9 Tunneling underground excavations
30.28 Min

11 Lecture 10 Tunneling Ground conditions
26.43 Min

12 Lecture 11 Planning of and exploration for underground construction projects
30.17 Min

13 Lecture 12 Underground excavation failure mechanisms
21.2 Min

14 Lecture 13 Application of stereographic projection method roof failure
33.16 Min

15 Lecture 14 Application of stereographic projection method sidewall failures 1
18.38 Min

16 Lecture 15 Application of stereographic projection method sidewall failures 2
18.49 Min

17 Lecture 16 Elastic stress distribution around circular tunnels 01
41.29 Min

18 Lecture 17 Elastic stress distribution around circular tunnels 02
38.22 Min

19 Lecture 18 Elastic analysis of circular tunnels displacements
53.26 Min

20 Lecture 19 Thick wall cylinder in biaxial stress field
29.56 Min

21 Lecture 20 Stress distribution around non circular openings in elastic ground conditions 01
37.19 Min

22 Lecture 21 Stress distribution around non circular openings in elastic ground conditions 02
32.09 Min

23 Lecture 22 Stress distribution under different in situ stress conditions design principles
31.25 Min

24 Lecture 23 Stress distribution for multiple openings
28.56 Min

25 Lecture 24 Openings in laminated rocks 01
35.1 Min

26 Lecture 25 Openings in laminated rocks 02
25.47 Min

27 Lecture 26 Openings in laminated rocks 03
24.15 Min

28 Lecture 27 Openings in laminated rocks 04
23.41 Min

29 Lecture 28 Elasto plastic analysis of tunnels Tresca yield criterion 01
40.52 Min

30 Lecture 29 Elasto plastic analysis of tunnels Tresca yield criterion 02
28.33 Min

31 Lecture 30 Elasto plastic analysis of tunnels Mohr Coulomb criterion
36.34 Min

32 Lecture 31 Application of rock mass classification system Terzaghi s rock load theory 01
32.33 Min

33 Lecture 32 Application of rock mass classification system Terzaghi s rock load theory 02
28.41 Min

34 Lecture 33 Application of rock mass classification system rock mass rating RMR
32.01 Min

35 Lecture 34 Tunnel hazards
25.21 Min

36 Lecture 35 Tunnel hazards squeezing ground conditions
25.05 Min

37 Lecture 36 Application of rock mass classification system rock mass quality Q system 01
23.4 Min

38 Lecture 37 Application of rock mass classification system rock mass quality system 02 NATM NMT
42.44 Min

39 Lecture 38 Modulus of deformation of rock mass using Q system rock mass number plate loading test
26.05 Min

40 Lecture 39 Modulus of deformation of rock mass uni axial jacking plate jacking test
25.45 Min

41 Lecture 40 Modulus of deformation of rock mass radial jacking test and Goodman jack test
33 Min

42 Lecture 41 Rock mass support interaction analysis ground response and support reaction curves 01
39.53 Min

43 Lecture 42 Rock mass support interaction analysis ground response and support reaction curves 02
20.4 Min

44 Lecture 43 Rock mass support interaction analysis influencing factors Ladanyi s E P analysis
32.13 Min

45 Lecture 44 Ladanyi s elasto plastic analysis of tunnels analysis of stresses and deformations
27.58 Min

46 Lecture 45 Rock support interaction analysis required support line analysis of available support
26.48 Min

47 Lecture 46 Rock support interaction analysis for shotcrete concrete lining blocked steel sets
23.54 Min

48 Lecture 47 Rock support interaction analysis for ungrouted rock bolts grouted rock bolts cables
36.07 Min

49 Lecture 48 Calculation sequence for rock support interaction analysis 01
19.32 Min

50 Lecture 48 Calculation sequence for rock support interaction analysis 01
32.46 Min

51 Lecture 50 Calculation sequence for rock support interaction analysis example
1 Hour 10.21 Min

52 Lecture 51 Methods of tunnel excavation various support systems shotcrete
33.01 Min

53 Lecture 52 Shotcrete
17.36 Min

54 Lecture 53 Various support systems rock bolts
37.21 Min

55 Lecture 54 Permeability and groutability 01
24.39 Min

56 Lecture 55 Permeability and groutability 02
18.33 Min

57 Lecture 56 Rock stress determination flat jack test
54.35 Min

58 Lecture 57 Rock stress determination hydraulic fracturing technique
39.45 Min

59 Lecture 58 Instrumentation and monitoring of tunnels 01
39.23 Min

60 Lecture 59 Instrumentation and monitoring of tunnels 02
40.52 Min

61 Lecture 60 Few case studies
37.54 Min

Instructor

Sabitha

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  • Duration N/A

  • Lectures 61 lessons

  • Enrolled 0 students

  • Category: Technology

  • 0 Quizzes

  • Language: English

  • Skill Level Beginner

  • Certificate of Completion

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