Materias
Referencia: Código 08011
Marzo de 2019 - Suchintya Kumar Sur - Refª 8011
Suchintya Kumar Sur
Marzo de 2019 Páginas: 428
Código 8011 ISBN/EAN: 9780815378051
This book deals with the narratives of water to watt, which includes elementary conceptual design, modern planning, scheduling and monitoring systems, and extensive pre- and post-investigations pertaining to hydropower facilities. It also includes explorations to ensure aspects of dam safety evaluation, effective contract management, specialized construction management techniques, and preferred material and equipment handling systems. Special emphasis is placed upon health, safety, environmental, and risk management concepts. The book discusses a standard QA/QC system to measure and assure quality and an environmental impact assessment to reach the set target in the stipulated timeline within the approved budget.
Key Features:
CHAPTER 01 Introduction
1.1 Introduction to Objectives, Scope & Outcomes
1.2 Out comes
1.3 Theme & Philosophy
1.4 Concept of Hydro Power Project
1.5 Global Status of Hydro Power
1.6 Definition of Hydro Power
Chapter 02 Planning, Project Cost Estimation and Future of Small Hydro Power (SHP) Large Hydro And Its Various Schemes
2.1 Global Definition & various rated capacity of SHP
2.2 Type of Facilities & its applicability
2.3 How small scale Hydro is utilised world wide:
2.4 Planning Of Small Hydro Power (SHP)
2.5 Benefits of Small Hydro Power(SHP)
2.6 Project Cost Estimation and Future of SHP
2.7 Type of Major Hydro ProjectChapter 03 Concept of Forces Acting on Gravity Dam & its Stability
3.1 Terminology and Some Definitions Related to Gravity Dam
3.2 Concept of Forces Acting on Gravity Dam
3.3 Requirement of Stability
3.4 Forces acting on dam
3.5 Category of Forces to be resisted by Dam
3.6 Assumptions for Consideration of Stability
3.7 Load Combination
3.8 Reaction of Foundation
3.9 Resistance against over turning
3.10 Sliding Resistance
3.11 Factor of Safety
3.12 Discussion on Earthquake Engineering of Dam
Chapter 04 Contract & Administration Management
4.0 Introduction
4.1 Component of Contract Management
4.2 Function of Contract Management
4.3 Type Of Contract
4.4 Item Rate Contract
4.5 Cost Plus Contract
4.6 Turn Key Contract
4.7 Estimation and Tendering process of Concrete Gravity Dam
4.8 Type of Estimates
4.9 Start-up, Testing, Pre- Commissioning and Commissioning
4.10. Start-up
4.11 Liquidation of Punch List.
4.12 Performance Test 106
4.13Project Closed out Report
Chapter 05 Site Mobilisation and Kick-Off
5.1 Introduction
5.2 Infrastructure Development by Project Authority.
5.3 Role of Construction Manager
5.4 Planning for Mobilization and Kick-off Meeting
5.5 Site Mobilisation
5.6 Initial Site Activities
5.7 Blasting Operation in Stone Quarry
Chapter 06 River Diversion
6.1 Introduction
6.2 Diversion Requirement
6.3 Method Of Diversion
6.4 Various River Diversion
Chapter 07 Reinforcement Cutting and Bending Yard
7.1 Purpose
7.2 Type of Steel used in civil engineering work
7.3 Planning and setting up Bar Bending Yard
7.4 Splicing and its types
7.5 Setting up Bar Bending Yard
Chapter 08 Investigation & Exploration of Dam & Reservoir Site
8.1 Fundamental
8.2 Dam site Investigation
8.3 Geological Exploration
8.4 Stages of Geological Explorations
8.5 Permeability Assessment of Foundation
8.6 Definition of Grout and Determination Grout holes
Chapter 09 Construction Methodology of Dam Foundation and Technology of its Foundation Treatment
9.0 Foundation
9.1 Layout of Foundation
9.2 Identification and Removal of over burden
9.3 Geological Mapping
9.4 Foundation Treatment
9.5 Consolidation Grouting in foundation area
9.6 Discussion on procedure of Grouting, Grouting Material& Equipment
9.7 Curtain Grouting
9.8 Dental Treatment of Fault zone, Shear Zone
9.9 Case Study
9.10 FAQ on Grouting Grout pressure, multistage grouting, permeability test etc
9.11 Technical Discussion on Karst or Sink Holes
9.12 Sink Hole/Karst topography is a matter of concern for Hydel Project
Chapter 10 Concrete and its application in concrete gravity dam
10.1 Group of Concrete
10.2 Classification of Concrete with type of cement used
10.3 Classification of concrete as per weight
10.4 Grades of Concrete
10.5 Some special concrete
10.6 Classification of Concrete Mix
10.7 Parameters that control Character of Concrete
10.8 Mix Design and its requirement
10.9 Example of Mix Design of Mass Concrete
10.10 Batching and Placement of Concrete
Chapter 11 Design Requirement For Temperature control in Mass Concrete
11.1 Concept of Mass Concrete
11.2 Significance of Thermal Stresses in Mass Concrete
11.3 Concept of Thermal Cracking
11.4 Parameters initiates in rise of temperature
11.5 Computation of Temperature of Concrete
11.6 Methodology of Controlling Temperature in concrete
Chapter 12 Joints in Concrete Structures
12.0 Introduction
12.1 Type of Joints
12.2 Construction Joint in Dam construction
12.3 Construction Joint in Tunnel Construction
12.4 Construction Joint In Bridge
12.5 Contraction Joints in Concrete Structures
12.6 Expansion Joint
12.7 Cold Joint in Concrete
12.8 Sealant Material
12.9 Repair of Cracks and Grouting Procedure
Case Study: Repair of Bauxite Secondary Crusher Foundation.
Analysis Technique on Water Permeability in Concrete with Cold Joint considering Micro Pore Structure and Mineral Admixture
Analysis Technique on Water Permeability in Concrete with Cold Joint considering Micro Pore Structure and Mineral Admixture
Chapter 13 Quality Assurance and Quality Control(QA/QC)
13.0 What is Quality
13.1 Quality Assurance
13.2 Quality Control
13.3 Quality Policy
13.4 Quality Manual
13.5 Job Procedure
13.6 Indicative Inspection and Test Plan
13.7 Records are to be maintained at Site
Chapter 14 Health, Safety & Environment HSE
14.0 Introduction
14.1 Purpose
14.2 Safety Policy
14.3 Safety Oath
14.4 Action Plan
14.5 Risk and Hazard Assessment
14.6 Controlling Measures
14.7 Hazard Identification and Risk Assessment of Dam work.
Chapter 15 Fabrication and Erection of Steel Structure & Penstock
15.1 Fabrication
15.2 Material
15.3 Plans and Drawings
15.4 Fabrication Procedure
15.5 Welding Procedure
15.6 Shop Fabrication
15.7 Glimpse on Penstock Fabrication
Chapter 16 Environmental Assessment of Hydro Power Project
16.0 Introduction
16.1 Environmental Impact Assessment (EIA
16.2 EIA Process
16.3 Role in EIA Process
16.4 Effectiveness of EIA
16.5 Benefit of ETA
16.6 Cost Of ETA
16.7 Environmental Impact Due to Construction Hydro Power Project
16.8 Terms of Reference of Hydro Power Project
16.9 Anticipated Impact, Mitigation Measures and Environmental Management Plan.
16.10 Application Prior Environmental Clearance
16.11 Case Study
Chapter 17 Estimation & Cost Analysis of Hydro Power Project
17.1 Introduction
17.2 Process of Capital Cost Estimate of Hydro Project
17.3 Break Down Cost Percentage
17.4 Levelised Cost of Electricity(LCOE)
17.5 Determination of Tariff of Hydro Power Project
Chapter 18 Hydro Electric Power House
18.0 Hydro Electric Power House
18.1 Classification of Power House
18.2 Function Of Power House
18.3 What does a Power House need to accomplish these activities
18.4 Lay out of Power House and its dimensions
18.5 Hydraulic Turbine,Heads & its types
18.6 Selection of Turbine
18.7 Setting of Turbine
18.8 Selection Procedure of Turbine
18.9 Example
18.10 Generator and Driving System
18.11 Rating and various characteristics
18.12 Components of Hydro Generator
18.13 Control System
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