【レポートの概要(一部)】
A. Executive Summary
B. Basics of the Nuclear Industry
B.1 History of Nuclear Power
B.2 Components & Parts of a Nuclear Power Plant
B.3 Analyzing the Fuel Cycle
B.4 Managing the Radioactive Waste
C. Profile of the Global Nuclear Power Industry
C.1 Industry Overview
C.2 Revival of Nuclear Power
C.2.1 What Drives this Revival?
C.3 Improving the Performance of Nuclear Reactors
C.4 Role of Research Reactors
C.5 Exploring the Possibility of Expansion of Nuclear Power Capacity
C.6 Addition of New Nuclear Power Capacity
C.6.1 Increased Nuclear Capacity
C.6.2 New Nuclear Plant Construction
C.6.3 Plant Life Extension and Decommissions
C.7 Public Acceptance of Nuclear Power
D. Leap of Technology: Accelerator-driven Nuclear Systems
D.1 Introduction
D.2 Accelerator-Driven Systems
D.3 Usage of Thorium
D.4 Waste Incinerator
D.5 ADS Research and Development
E. Nuclear Reactor Technology
E.1 How the Technology Works
E.1.1 Fission
E.1.2 Heat Generation
E.1.3 Cooling
E.1.4 Reactivity Control
E.1.5 Electrical Power Generation
E.2 Reactor Types
E.2.1 Classifying Reactors by Type of Nuclear Reaction
E.2.2 Classifying Reactors by Moderator Material
E.2.3 Classifying Reactors by Coolant
E.2.4 Classifying Reactors by Generations
F. Analyzing the Reactor Types
F.1 Radioisotope Thermoelectric Generator
F.1.1 Overview
F.1.2 Usage of Radioactive Material
F.1.3 Lifespan
F.1.4 Efficiency Factor
F.1.5 Risk of Radioactive Contamination
F.2 Pressurized Water Reactors
F.2.1 Overview
F.2.2 Design of the Reactor
F.2.3 Coolant in a PWR
F.2.4 Process of Moderation
F.2.5 Fuel in a PWR
F.2.6 Controlling the Reaction
F.2.7 Pros & Cons of PWR
F.3 Mitsubishi Advanced Pressurized Water Reactor
F.3.1 Overview
F.4 European Pressurized Reactor
F.4.1 Overview
F.4.2 Design of the EPR
F.4.3 Case Studies
F.5 Light Water Reactor
F.5.1 Overview
F.5.2 Design of the Reactor
F.6 Boiling Water Reactor
F.6.1 Overview
F.6.2 Design of the BWR
F.6.3 Safety Systems in Place
F.6.4 Pros & Cons of the BWR
F.7 Advanced Boiling Water Reactor
F.7.1 Overview
F.7.2 Design of the ABWR
F.8 Economic Simplified Boiling Water Reactor
F.8.1 Overview
F.9 Pressurized Heavy Water Reactor
F.9.1 Overview
F.9.2 Why Use Heavy Water?
F.9.3 Pros & Cons of the PHWR
F.10 Russian Reaktor Bolshoy Moschnosti Kanalniy (RBMK)
F.10.1 Overview
F.10.2 Design of the Reactor
F.10.3 Fuel Rods
F.10.4 Control Rods
F.10.5 Gas Circuit
F.10.6 Independent Cooling and Steam Circuits
F.10.7 Emergency Core Cooling System
F.10.8 Reactor Control
F.10.9 Containment of Accidents
F.10.10 Improvements in the Design after Chernobyl
F.10.11 Status of RBMK Reactors
F.11 Advanced Gas-Cooled Reactor
F.11.1 Overview
F.11.2 Design of the Reactor
F.11.3 Status of AGR Reactors
F.12 Breeder Reactor
F.12.1 Overview
F.12.2 Concept of Breeding versus Burnup
F.12.3 Nuclear Reprocessing
F.13 Thermal Breeder Reactor
F.13.1 Overview
F.14 Fast Breeder Reactor
F.14.1 Overview
F.14.2 Design of the Reactor
F.14.3 Plutonium Economy and Fast Breeder Reactors
F.14.4 Risks Associated with Fast Breeder Reactors
F.14.5 Market Status
F.15 Fast Neutron Reactor
F.15.1 Overview
F.15.2 Design of the Reactor
F.15.3 Market Status
F.15.4 Pros & Cons of the Reactor
F.16 Sodium-Cooled Fast Reactor
F.16.1 Overview
F.16.2 Fuel Cycle of the Reactor
F.16.3 Usage of Sodium as a Coolant
F.16.4 Designing
F.17 Molten Salt Reactor
F.17.1 Overview
F.17.2 Pros & Cons of the Reactor
F.17.3 Design Challenges
F.17.4 Issues with the Fuel Cycle
F.17.5 Molten Salt Fueled Reactors versus Molten Salt Cooled Solid Fuel Reactors
F.18 Traveling Wave Reactor
F.18.1 Overview
F.18.2 Fuel Type
F.18.3 Designing of the Reactor
F.19 Lead Cooled Fast Reactor
F.19.1 Overview
F.19.2 Market Status
F.20 Pebble Bed Reactors
F.20.1 Overview
F.20.2 Design of the Reactor
F.20.3 Safety Systems
F.20.4 Fuel Production
F.20.5 Issues with the Reactor Design
F.20.6 Market Status
L.20.7 Containment of Accidents
F.21 Pebble Bed Modular Reactor
F.21.1 Overview
F.21.2 Design of the Reactor
F.22 Aqueous Homogeneous Reactor
F.22.1 Overview
F.22.2 ARGUS Reactor
F.23 Integral Fast Reactor
F.23.1 Overview
F.23.2 Efficiency Factor and Fuel Cycle
F.23.3 Production of Nuclear Waste
F.23.4 Safety Systems
F.24 SSTAR
F.24.1 Overview
F.25 Clean And Environmentally Safe Advanced Reactor (CAESAR)
F.25.1 Overview
F.26 KAMINI
F.26.1 Overview
F.27 Generation IV Reactor
F.27.1 Overview
F.27.2 Reactor Types
F.28 Generation V+ Reactors
F.28.1 Overview
G. Nuclear Turbines versus Fossil Turbines
G.1 Overview
G.2 Differences in Operating Conditions
G.3 Design Issues
G.4 Problem of Water Droplet Erosion
G.5 Problem of Complex Manufacturing Process
G.6 Problem of Turbine Pipe Erosion
H. Impact of Power Uprating
H.1 Overview
H.2 Types of Power Uprates
H.3 Economic Benefits
I. Modernization of Steam Turbines for Nuclear Power Plants
I.1 Modernization Approach
I.2 Low Pressure Turbine Design Features for Nuclear Applications
I.3 Primary Points of HP and LP Nuclear Turbine Modernization
J. Analyzing the Major Turbines ? Company-wise
J.1 Doosan Nuclear Turbines
J.2 Mitsubishi US-APWR Nuclear Turbine
J.3 Alstom Nuclear Turbines
J.4 Hitachi Nuclear Turbine
J.5 Siemens Nuclear Turbines
J.6 General Electric Nuclear Turbines
J.7 Westinghouse Nuclear Turbine
K. New Research in Nuclear Turbine Technology
K.1 Long Last Stage Blades
K.2 Continuous Cover Blades (CCB)
L. Leading Industry Players
L.1 Alstom
L.1.1 Corporate Profile
L.1.2 Business Segment Analysis
L.1.3 SWOT Analysis
L.2 General Electric
L.2.1 Corporate Profile
L.2.2 Business Segment Analysis
L.2.3 SWOT Analysis
L.3 Hitachi
L.3.1 Corporate Profile
L.3.2 Business Segment Analysis
L.3.3 SWOT Analysis
L.4 Mitsubishi Heavy Industries
L.4.1 Corporate Profile
L.4.2 Business Segment Analysis
L.4.3 SWOT Analysis
L.5 Siemens AG
L.5.1 Corporate Profile
L.5.2 Business Segment Analysis
L.5.3 SWOT Analysis
L.6 Westinghouse Electric
L.6.1 Corporate Profile
L.6.2 Business Segment Analysis
L.6.3 SWOT Analysis
L.7 Doosan Heavy Industries and Construction Co., Ltd
L.7.1 Corporate Profile
L.7.2 Business Segment Analysis
L.7.3 SWOT Analysis
M. Glossary of Terms
【レポート販売概要】
■ タイトル:世界の原子力用タービン市場分析:Analyzing the Global Nuclear Turbine Market■ 発行日:2013年12月
■ 調査会社:Aruvian’s R’search
■ 商品コード:ARUV40131242
■ 調査対象地域:グローバル
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