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世界の使用済み核燃料市場:乾式貯蔵への注目

Global Market for Nuclear Spent Fuel - Focus on Dry Storage 2015

発行 Aruvian's R'search 商品コード 310686
出版日 ページ情報 英文 310 pages
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世界の使用済み核燃料市場:乾式貯蔵への注目 Global Market for Nuclear Spent Fuel - Focus on Dry Storage 2015
出版日: 2015年04月01日 ページ情報: 英文 310 pages
概要

当レポートでは、世界の使用済み核燃料市場について、乾式貯蔵に重点を置いて分析しており、世界における原子力発電市場の概要、使用済み核燃料の概要、使用済み燃料の処理・貯蔵、主要地域・国別の使用済み核燃料市場、使用済み燃料プールおよび乾式キャスク貯蔵などの調査をまとめ、主要企業のプロファイルとともに、お届けいたします。

エグゼクティブサマリー

世界の原子力発電市場の概要

  • 産業概要
  • 産業統計
  • 産業額・規模の分析
  • アジア太平洋地域における原子力発電
  • 欧州における原子力発電
  • MEA(中東・アフリカ)における原子力発電
  • 北米における原子力発電
  • 南米における原子力発電

世界の原子力発電産業:ポーターのファイブフォース戦略分析

  • イントロダクション
  • 買い手の交渉力
  • 供給企業の交渉力
  • 競争企業間の敵対関係
  • 新規参入企業の脅威
  • 代替品の脅威

使用済み核燃料のイントロダクション

  • 産業定義・調査範囲
  • 使用済み核燃料とは?
  • 使用済み核燃料の種類
  • 使用済み燃料の特徴
  • 構成、発熱および放射線
  • 使用済み燃料からの崩壊熱
  • 放射線の課題
  • 商業用原子炉・使用済み燃料の貯蔵
  • 使用済み燃料の廃棄
  • 使用済み核燃料によるリスク
  • 使用済み核燃料のモニタリング
  • 使用済み核燃料の将来の課題
  • 輸送キャスク

使用済み燃料の処理・貯蔵

  • 概要
  • 使用済み燃料プール
  • 乾式キャスク貯蔵
  • 乾式貯蔵キャスクの種類
  • 高レベル廃棄物の貯蔵

地域における使用済み核燃料の廃棄

  • 概要
  • 米国
  • カナダ
  • フランス
  • 日本
  • スウェーデン・フィンランド
  • スイス

使用済み燃料プール

  • 概要
  • 使用済み燃料プールの構造
  • 使用済み燃料プール関連のリスク

使用済み核燃料の加工

  • イントロダクション
  • 再処理製品
  • 規制の枠組み
  • 再処理向けPUREXプロセス
  • 廃棄用使用済み核燃料の輸入

世界の使用済み核燃料キャスク貯蔵市場

  • 産業概要
  • 乾式キャスク貯蔵のメリット
  • キャスクの貯蔵容量
  • 排出燃料アセンブリー
  • 使用済み燃料貯蔵キャスク市場:需要別
  • 使用済み燃料貯蔵キャスク市場:収益別
  • 産業区分
  • コスト分析
  • 競合情勢

産業への影響

  • 規制の枠組み
    • 主な規制・政策
    • 再処理・放射性廃棄物の政策
    • 地域における処分場用地のプロセス
  • 産業成長の促進因子
  • 産業が直面している課題
  • SNF貯蔵による危険・潜在的リスク
  • 技術課題

世界の使用済み核燃料貯蔵市場:主要地域の分析

  • アジア太平洋地域
  • 欧州
  • 北米

世界の使用済み核燃料貯蔵市場:主要市場の分析

  • カナダ
  • 中国
  • フランス
  • ドイツ
  • 日本
  • ロシア
  • 韓国
  • ウクライナ
  • 英国
  • 米国

主要企業

  • Areva SA
  • 日立造船
  • Holtec International Inc.
  • 三菱重工業
  • Transnuclear Inc.
  • British Nuclear Fuels Plc
  • GNS Gesellschaft fur Nuklear-Service mbH
  • NAC International
  • OCL Corporation

用語

調査手法

図表

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目次

Spent nuclear fuel (SNF) or used nuclear fuel is fuel that has been irradiated in a nuclear power reactor at a nuclear power plant. Spent nuclear fuel contains plutonium, uranium or even thorium that has been permanently withdrawn from the nuclear reactor. There are many different types of spent nuclear fuel that are stored worldwide today. Some of the categories of SNF include materials production fuels, naval nuclear propulsion fuel, research reactor fuel, specialty fuel and the most common - commercial nuclear power reactor fuels.

Spent nuclear fuel is generally stored either in spent fuel pools or in dry casks. At present, most spent nuclear fuel is stored in spent fuel pools at individual nuclear reactor sites. Dry cask storage is gaining popularity in recent years, particularly after the Fukushima nuclear disaster of 2011. In dry cask storage, spent nuclear fuel assemblies are generally placed in canisters that have a heavy shielding around them. The shield has vents that allow air to flow through the canister wall in order to cool the fool.

Aruvians Rsearch analyzes the global market for nuclear spent fuel in its research offering Global Market for Nuclear Spent Fuel - Focus on Dry Storage. The report primarily focuses on the dry storage of spent nuclear fuel in casks. The report analyzes the major markets globally for nuclear spent fuel storage sector.

Aruvian's report on the Global Market for Nuclear Fuel - Focus on Dry Storage begins with an overview of the global nuclear power market through an industry overview, industry statistics, industry volume and value analysis, along with an analysis of nuclear power in key regions of Asia Pacific, Europe, Middle East & Africa and North & South America.

We also carry out a Porter's Five Forces Strategy Analysis on the Global Nuclear Power Industry.

Moving to the analysis of nuclear spent fuel market, we begin the section with an industry definition and report coverage. Basics of nuclear spent fuel are looked at, along with the characteristics of spent nuclear fuel. Composition, heat generation and radioactivity of SNF are analyzed. Risks from SNF, monitoring of spent fuel, future issues with SNF and transportation of SNF are also analyzed in the report.

Moving on the handling and storage of spent nuclear fuel, we analyze the technologies of spent fuel pools and dry cask storage. Types of dry cask storage and the storage of high level waste are also looked at. The geological disposal of spent nuclear fuel is also analyzed by key markets of US, Canada, France, Japan, Sweden & Finland and Switzerland.

An overview of spent nuclear fuel pools is included in the report, along with a look at processing of spent nuclear fuel. Regulatory framework, PUREX process for reprocessing and the phenomenon of importing spent nuclear fuel for disposal are analyzed in the report.

Since the focus of this research report is on the global market for nuclear spent fuel storage in Dry Casks, we analyze the industry through an industry overview, advantages of dry cask storage, worldwide storage capacity of casks, the market for spent fuel storage casks by demand and revenues (in USD Million), as well as an industry segmentation. Global industry statistics of discharged nuclear fuel assemblies are analyzed in the report. A cost analysis of the global market for nuclear spent fuel storage in dry casks is carried out in the report.

Impacts on the global market for nuclear spent fuel storage in dry casks are looked at. Impacts analyzed include key regulations and policies, industry growth drivers and challenges facing the sector.

We analyze the key regions for global nuclear spent fuel storage in dry casks. Regions analyzed include Asia Pacific, Europe and North America. Each region is analyzed through an industry overview, statistics on discharged fuel assemblies and the market analysis by demand and revenues. The market is analyzed from 2002 till 2020. Forecast for each region is also included in the analysis.

Key markets analyzed in the report include Canada, China, France, Germany, Japan, Russia, South Korea, Ukraine, United Kingdom and the United States. Each market is analyzed through an industry overview, statistics on discharged fuel assemblies and the market analysis by demand and revenues. The market is analyzed from 2002 till 2020. Forecast for each country is also included in the analysis.

Competition in the industry along with an analysis of the key players is carried out through a business profile, products & services analysis, financial analysis and a SWOT analysis. Major industry players analyzed include Areva SA, Hitachi Zosen Corporation, Holtec International Inc, Mitsubishi Heavy Industries, Transnuclear Inc, British Nuclear Fuels, GNS Gesellschaft fur Nuklear-Service mbH, NAC International and OCL Corporation.

With nearly 100 tables and figures, this report on the Global Market for Nuclear Spent Fuel - Focus on Dry Storage is a complete coverage of this market with data coverage from the year 2002 till 2020.

Table of Contents

A. Executive Summary

B. Overview of the Global Nuclear Power Market

  • B.1 Industry Overview
  • B.2 Industry Statistics
  • B.3 Industry Value & Volume Analysis
  • B.4 Nuclear Power in Asia Pacific
  • B.5 Nuclear Power in Europe
  • B.6 Nuclear Power in MEA
  • B.7 Nuclear Power in North America
  • B.8 Nuclear Power in South America

C. Global Nuclear Power Industry: Porter's Five Forces Strategy Analysis

  • C.1 Introduction
  • C.2 Bargaining Power of Buyers
  • C.3 Bargaining Power of Suppliers
  • C.4 Competitive Rivalry in the Industry
  • C.5 Threat of New Entrants
  • C.6 Threat of Substitutes

D. Introduction to Nuclear Spent Fuel

  • D.1 Industry Definition & Report Coverage
  • D.2 What is Nuclear Spent Fuel?
  • D.3 Types of Spent Nuclear Fuel
  • D.4 Characteristics of Spent Fuel
  • D.5 Composition, Heat Generation & Radioactivity
  • D.6 Decay Heat from Spent Fuel
  • D.7 Issue of Radioactivity
  • D.8 Commercial Nuclear Reactors & Storage of Spent Fuel
  • D.9 Disposal of Spent Fuel
  • D.10 Risks from Nuclear Spent Fuel
  • D.11 Monitoring of Spent Fuel
  • D.12 Future Issues with Nuclear Spent Fuel
  • D.13 Transportation Casks

E. Handling & Storage of Spent Fuel

  • E.1 Overview
  • E.2 Spent Fuel Pools
  • E.3 Dry Cask Storage
    • E.3.1 Dry Cask Storage in the United States
    • E.3.2 Dry Cask Storage in Canada
    • E.3.3 Dry Cask Storage in Germany
    • E.3.4 Dry Cask Storage in Russia
    • E.3.5 Dry Cask Storage in Ukraine
  • E.4 Types of Dry Storage Casks
    • E.4.1 Metal Casks
    • E.4.2 Concrete Casks
    • E.4.3 Comparative Analysis of Metal and Concrete Casks
  • E.5 Storage of High Level Waste

F. Geological Disposal of Spent Nuclear Fuel

  • F.1 Overview
  • F.2 United States
  • F.3 Canada
  • F.4 France
  • F.5 Japan
  • F.6 Sweden & Finland
  • F.7 Switzerland

G. Spent Fuel Pools

  • G.1 Overview
  • G.2 Structure of Spent Fuel Pools
  • G.3 Risks Associated with Spent Fuel Pools

H. Processing of Spent Nuclear Fuel

  • H.1 Introduction
  • H.2 Reprocessing Products
  • H.3 Regulatory Framework
  • H.4 PUREX Process for Reprocessing
  • H.5 Importing Spent Nuclear Fuel for Disposal

I. Global Market for Nuclear Spent Fuel Storage in Casks

  • I.1 Industry Overview
  • I.2 Advantages of Dry Cask Storage
  • I.3 Storage Capacity of Casks
  • I.4 Discharged Fuel Assemblies
  • I.5 Market for Spent Fuel Storage Casks by Demand
  • I.6 Market for Spent Fuel Storage Casks by Revenues
  • I.7 Industry Segmentation
  • I.8 Cost Analysis
  • I.9 Competitive Landscape

J. Impacts on the Industry

  • J.1 Regulatory Framework
  • J.2 Key Regulations & Policies
  • J.3 Reprocessing and Radioactive Waste Policies
  • J.4 Processes for Geological Repository Siting
  • J.5 Factors Driving Industry Growth
  • J.6 Challenges Facing the Industry
  • J.7 Hazards & Potential Risks with SNF Storage
  • J.8 Technical Issues

K. Global Nuclear Spent Fuel Storage Market: Analysis of Key Regions

  • K.1 Asia Pacific
    • K.1.1 Industry Overview
    • K.1.2 Discharged Fuel Assemblies
    • K.1.3 Market for Spent Fuel Storage Casks by Demand
    • K.1.4 Market for Spent Fuel Storage Casks by Revenues
  • K.2 Europe
    • K.2.1 Industry Overview
    • K.2.2 Discharged Fuel Assemblies
    • K.2.3 Market for Spent Fuel Storage Casks by Demand
    • K.2.4 Market for Spent Fuel Storage Casks by Revenues
  • K.3 North America
    • K.3.1 Industry Overview
    • K.3.2 Discharged Fuel Assemblies
    • K.3.3 Market for Spent Fuel Storage Casks by Demand
    • K.3.4 Market for Spent Fuel Storage Casks by Revenues

L. Global Nuclear Spent Fuel Storage Market: Analysis of Key Markets

  • L.1 Canada
    • L.1.1 Industry Overview
    • L.1.2 Discharged Fuel Assemblies
    • L.1.3 Market for Spent Fuel Storage Casks by Demand
    • L.1.4 Market for Spent Fuel Storage Casks by Revenues
    • L.1.5 Competitive Landscape
  • L.2 China
    • L.2.1 Industry Overview
    • L.2.2 Discharged Fuel Assemblies
    • L.2.3 Market for Spent Fuel Storage Casks by Demand
    • L.2.4 Market for Spent Fuel Storage Casks by Revenues
    • L.2.5 Competitive Landscape
  • L.3 France
    • L.3.1 Industry Overview
    • L.3.2 Discharged Fuel Assemblies
    • L.3.3 Market for Spent Fuel Storage Casks by Demand
    • L.3.4 Market for Spent Fuel Storage Casks by Revenues
    • L.3.5 Competitive Landscape
  • L.4 Germany
    • L.4.1 Industry Overview
    • L.4.2 Discharged Fuel Assemblies
    • L.4.3 Market for Spent Fuel Storage Casks by Demand
    • L.4.4 Market for Spent Fuel Storage Casks by Revenues
    • L.4.5 Competitive Landscape
  • L.5 Japan
    • L.5.1 Industry Overview
    • L.5.2 Discharged Fuel Assemblies
    • L.5.3 Market for Spent Fuel Storage Casks by Demand
    • L.5.4 Market for Spent Fuel Storage Casks by Revenues
    • L.5.5 Competitive Landscape
  • L.6 Russia
    • L.6.1 Industry Overview
    • L.6.2 Discharged Fuel Assemblies
    • L.6.3 Market for Spent Fuel Storage Casks by Demand
    • L.6.4 Market for Spent Fuel Storage Casks by Revenues
    • L.6.5 Competitive Landscape
  • L.7 South Korea
    • L.7.1 Industry Overview
    • L.7.2 Discharged Fuel Assemblies
    • L.7.3 Market for Spent Fuel Storage Casks by Demand
    • L.7.4 Market for Spent Fuel Storage Casks by Revenues
    • L.7.5 Competitive Landscape
  • L.8 Ukraine
    • L.8.1 Industry Overview
    • L.8.2 Discharged Fuel Assemblies
    • L.8.3 Market for Spent Fuel Storage Casks by Demand
    • L.8.4 Market for Spent Fuel Storage Casks by Revenues
    • L.8.5 Competitive Landscape
  • L.9 United Kingdom
    • L.9.1 Industry Overview
    • L.9.2 Discharged Fuel Assemblies
    • L.9.3 Market for Spent Fuel Storage Casks by Demand
    • L.9.4 Market for Spent Fuel Storage Casks by Revenues
    • L.9.5 Competitive Landscape
  • L.10 United States
    • L.10.1 Industry Overview
    • L.10.2 Discharged Fuel Assemblies
    • L.10.3 Market for Spent Fuel Storage Casks by Demand
    • L.10.4 Market for Spent Fuel Storage Casks by Revenues
    • L.10.5 Competitive Landscape

M. Major Industry Players

  • M.1 Areva SA
    • M.1.1 Business Profile
    • M.1.2 Products & Services
    • M.1.3 Financial Analysis
    • M.1.4 SWOT Analysis
  • M.2 Hitachi Zosen Corporation
    • M.2.1 Business Profile
    • M.2.2 Products & Services
    • M.2.3 Financial Analysis
    • M.2.4 SWOT Analysis
  • M.3 Holtec International Inc.
    • M.3.1 Business Profile
    • M.3.2 Products & Services
    • M.3.3 Financial Analysis
    • M.3.4 SWOT Analysis
  • M.4 Mitsubishi Heavy Industries
    • M.4.1 Business Profile
    • M.4.2 Products & Services
    • M.4.3 Financial Analysis
    • M.4.4 SWOT Analysis
  • M.5 Transnuclear Inc.
    • M.5.1 Business Profile
    • M.5.2 Products & Services
    • M.5.3 Financial Analysis
    • M.5.4 SWOT Analysis
  • M.6 British Nuclear Fuels Plc
  • M.7 GNS Gesellschaft für Nuklear-Service mbH
  • M.8 NAC International
  • M.9 OCL Corporation

N. Glossary of Terms

O. Research Methodology

List of Figures

  • Figure 1: Nuclear Electricity Production and Share of Total Electricity Production (in TWh), 1971-2013
  • Figure 2: Value of the Global Nuclear Energy Industry (in USD Billion), 2009-2013
  • Figure 3: Volume of the Global Nuclear Energy Industry (in million GWh), 2009-2013
  • Figure 4: Porter's Five Forces Analysis of the Global Nuclear Power Industry
  • Figure 5: Spent Nuclear Fuel Pool at a Nuclear Power Plant
  • Figure 6: Nuclear Fuel Assembly
  • Figure 7: SNF Storage Pool Location in Boiling Water Reactor
  • Figure 8: PWR SNF Storage Pool Location
  • Figure 9: Decay Heat as Function of Time from 0.01 years to 100 years for Low-Enriched Uranium Spent Fuel with Burnups of 33, 43, 53 and 63 GWd/tHM
  • Figure 10: Ingestion Radiotoxicity of Spent Nuclear Fuel
  • Figure 11: Decay Heat
  • Figure 12: Fuel Pellet and Fuel Rod Assembly for a Commercial Nuclear Power Reactor
  • Figure 13: Canister in a Transfer Cask in a Spent Nuclear Fuel Pool
  • Figure 14: Historical & Projected Amounts of Spent Nuclear Fuel Discharged, Reprocessed & Stored, 1990-2020
  • Figure 15: Dry Cask Storage at the Connecticut Yankee Spent Fuel Storage Facility
  • Figure 16: Spent Fuel Pool from the Shutdown Caorso Nuclear Power Plant
  • Figure 17: Spent Fuel Pool
  • Figure 18: Dry Fuel Storage Technologies: Casks at the ZWILAG Facility in Switzerland (L) & Fort St. Vrain Vault in US (R)
  • Figure 19: Example of Dry Cask Storage
  • Figure 20: Dry Cask Storage Area
  • Figure 21: Multipurpose Constor Storage, Transport, and Disposal Cask
  • Figure 22: Storage Hall for Vitrified Waste at La Hague, France
  • Figure 23: Decay Heat Generated by Spent PWR Fuel Irradiated to 50 GWd/tHM
  • Figure 24: Swedish Concept for the Disposal of Spent Nuclear Fuel as an Example of the Multi-Barrier Concept.
  • Figure 25: Prototype Deposition Machine for Vertical Disposal
  • Figure 26: Wet Storage System - Spent Fuel Pool
  • Figure 27: Schematic of Dry Cask Storage Systems
  • Figure 28: Independent Spent Fuel Installation - Dry Cask Storage
  • Figure 29: Number of Discharged Fuel Assemblies Worldwide (in Units), 2002-2020
  • Figure 30: Share of Discharged Fuel Assemblies being stored in Dry Storage (in Units), 2002-2020
  • Figure 31: Global Demand for Spent Fuel Casks (in Units), 2002-2020
  • Figure 32: Value of the Global Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Figure 33: Asia Pacific & Europe Market for Nuclear Spent Fuel Storage Casks, Share of Concrete vs Metal Casks (%), 2014
  • Figure 34: North America Market for Nuclear Spent Fuel Storage Casks, Share of Concrete vs Metal Casks (%), 2014
  • Figure 35: Cost of Metal versus Concrete Storage Casks (in USD Million), 2014
  • Figure 36: Proposed Design of Sweden's Underground Repository
  • Figure 37: Number of Discharged Fuel Assemblies in Asia Pacific (in Units), 2002-2020
  • Figure 38: Share of Discharged Fuel Assemblies being stored in Dry Storage in Asia Pacific (in Units), 2002-2020
  • Figure 39: Demand for Spent Fuel Casks in Asia Pacific (in Units), 2002-2020
  • Figure 40: Value of the Asia Pacific Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Figure 41: Number of Discharged Fuel Assemblies in Europe (in Units), 2002-2020
  • Figure 42: Share of Discharged Fuel Assemblies being stored in Dry Storage in Europe (in Units), 2002-2020
  • Figure 43: Demand for Spent Fuel Casks in Europe (in Units), 2002-2020
  • Figure 44: Value of the European Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Figure 45: Number of Discharged Fuel Assemblies in North America (in Units), 2002-2020
  • Figure 46: Share of Discharged Fuel Assemblies being stored in Dry Storage in North America (in Units), 2002-2020
  • Figure 47: Demand for Spent Fuel Casks in North America (in Units), 2002-2020
  • Figure 48: Value of the North American Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Figure 49: Number of Discharged Fuel Assemblies in Canada (in Units), 2002-2020
  • Figure 50: Share of Discharged Fuel Assemblies being stored in Dry Storage in Canada (in Units), 2002-2020
  • Figure 51: Demand for Spent Fuel Casks in Canada (in Units), 2002-2020
  • Figure 52: Value of the Canadian Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Figure 53: Number of Discharged Fuel Assemblies in China (in Units), 2002-2020
  • Figure 54: Share of Discharged Fuel Assemblies being stored in Dry Storage in China (in Units), 2002-2020
  • Figure 55: Chinese Demand for Spent Fuel Casks (in Units), 2002-2020
  • Figure 56: Value of the Chinese Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Figure 57: Number of Discharged Fuel Assemblies in France (in Units), 2002-2020
  • Figure 58: Share of Discharged Fuel Assemblies being stored in Dry Storage in France (in Units), 2002-2020
  • Figure 59: Demand for Spent Fuel Casks in France (in Units), 2002-2020
  • Figure 60: Value of the French Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Figure 61: Number of Discharged Fuel Assemblies in Germany (in Units), 2002-2020
  • Figure 62: Share of Discharged Fuel Assemblies being stored in Dry Storage in Germany (in Units), 2002-2020
  • Figure 63: Demand for Spent Fuel Casks in Germany (in Units), 2002-2020
  • Figure 64: Value of the German Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Figure 65: Number of Discharged Fuel Assemblies in Japan (in Units), 2002-2020
  • Figure 66: Share of Discharged Fuel Assemblies being stored in Dry Storage in Japan (in Units), 2002-2020
  • Figure 67: Demand for Spent Fuel Casks in Japan (in Units), 2002-2020
  • Figure 68: Value of the Japanese Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Figure 69: Major Players in the Japanese Market for SNF Dry Storage Cask (%), 2014
  • Figure 70: Number of Discharged Fuel Assemblies in Russia (in Units), 2002-2020
  • Figure 71: Share of Discharged Fuel Assemblies being stored in Dry Storage in Russia (in Units), 2002-2020
  • Figure 72: Demand for Spent Fuel Casks in Russia (in Units), 2002-2020
  • Figure 73: Value of the Russian Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Figure 74: Number of Discharged Fuel Assemblies in South Korea (in Units), 2002-2020
  • Figure 75: Share of Discharged Fuel Assemblies being stored in Dry Storage in South Korea (in Units), 2002-2020
  • Figure 76: Demand for Spent Fuel Casks in South Korea (in Units), 2002-2020
  • Figure 77: Value of the South Korean Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Figure 78: Number of Discharged Fuel Assemblies in Ukraine (in Units), 2002-2020
  • Figure 79: Share of Discharged Fuel Assemblies being stored in Dry Storage in Ukraine (in Units), 2002-2020
  • Figure 80: Demand for Spent Fuel Casks in Ukraine (in Units), 2002-2020
  • Figure 81: Value of the Ukrainian Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Figure 82: Number of Discharged Fuel Assemblies in the United Kingdom (in Units), 2002-2020
  • Figure 83: Share of Discharged Fuel Assemblies being stored in Dry Storage in the UK (in Units), 2002-2020
  • Figure 84: Demand for Spent Fuel Casks in the UK (in Units), 2002-2020
  • Figure 85: Value of the UK Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Figure 86: Spent Nuclear Fuel Storage Map in the US
  • Figure 87: Number of Discharged Fuel Assemblies in the US (in Units), 2002-2020
  • Figure 88: Share of Discharged Fuel Assemblies being stored in Dry Storage in the US (in Units), 2002-2020
  • Figure 89: Demand for Spent Fuel Casks in the US (in Units), 2002-2020
  • Figure 90: Value of the US Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Figure 91: Major Players in the US Market for SNF Dry Storage Cask (%), 2014
  • Figure 92: Financial Performance of Areva SA (in EUR Million), 2009-2013
  • Figure 93: Financial Performance of Hitachi Zosen Corporation (in JPY Million), 2010-2014
  • Figure 94: Financial Performance of Mitsubishi Heavy Industries (in JPY Million), 2010-2014

List of Tables

  • Table 1: Value of the Global Nuclear Energy Industry (in USD Billion), 2009-2013
  • Table 2: Volume of the Global Nuclear Energy Industry (in million GWh), 2009-2013
  • Table 3: Annual Discharge of Spent Fuel for Three Common Reactor Types
  • Table 4: Comparing Concrete versus Metal Storage Casks
  • Table 5: Global Commercial Reprocessing Capacity of Spent Nuclear Fuel (in tons per year)
  • Table 6: Separated Recyclable Materials Worldwide
  • Table 7: Savings in Natural Uranium Requirements due to Recycled U & Pu (tU)
  • Table 8: Global Projection for Nuclear Spent Fuel (in Thousand Metric Tons of Heavy Metal), 1998-2020
  • Table 9: Average Capacity of Storage Casks by Types of Nuclear Reactors (in Units), 2014
  • Table 10: Number of Discharged Fuel Assemblies Worldwide (in Units), 2002-2020
  • Table 11: Share of Discharged Fuel Assemblies being stored in Dry Storage (in Units), 2002-2020
  • Table 12: Global Demand for Spent Fuel Casks (in Units), 2002-2020
  • Table 13: Value of the Global Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Table 14: Major Players in the Global Market for SNF Dry Storage Cask Market, 2014
  • Table 15: Number of Nuclear Reactors in Asia Pacific by Countries, 2014
  • Table 16: Number of Discharged Fuel Assemblies in Asia Pacific (in Units), 2002-2020
  • Table 17: Share of Discharged Fuel Assemblies being stored in Dry Storage in Asia Pacific (in Units), 2002-2020
  • Table 18: Demand for Spent Fuel Casks in Asia Pacific (in Units), 2002-2020
  • Table 19: Value of the Asia Pacific Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Table 20: Number of Nuclear Reactors in Europe by Countries, 2014
  • Table 21: Number of Discharged Fuel Assemblies in Europe (in Units), 2002-2020
  • Table 22: Share of Discharged Fuel Assemblies being stored in Dry Storage in Europe (in Units), 2002-2020
  • Table 23: Demand for Spent Fuel Casks in Europe (in Units), 2002-2020
  • Table 24: Value of the European Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Table 25: Number of Nuclear Reactors in North America, 2014
  • Table 26: Number of Discharged Fuel Assemblies in North America (in Units), 2002-2020
  • Table 27: Share of Discharged Fuel Assemblies being stored in Dry Storage in North America (in Units), 2002-2020
  • Table 28: Demand for Spent Fuel Casks in North America (in Units), 2002-2020
  • Table 29: Value of the North American Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Table 30: Number of Commercial Nuclear Reactors in Canada, 2002-2020
  • Table 31: Number of Discharged Fuel Assemblies in Canada (in Units), 2002-2020
  • Table 32: Share of Discharged Fuel Assemblies being stored in Dry Storage in Canada (in Units), 2002-2020
  • Table 33: Demand for Spent Fuel Casks in Canada (in Units), 2002-2020
  • Table 34: Value of the Canadian Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Table 35: Market Rankings of Major Manufacturers of Casks for SNF Dry Storage in Canada, 2014
  • Table 36: Number of Commercial Nuclear Reactors in China, 2002-2020
  • Table 37: Number of Discharged Fuel Assemblies in China (in Units), 2002-2020
  • Table 38: Share of Discharged Fuel Assemblies being stored in Dry Storage in China (in Units), 2002-2020
  • Table 39: Chinese Demand for Spent Fuel Casks (in Units), 2002-2020
  • Table 40: Value of the Chinese Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Table 41: Number of Commercial Nuclear Reactors in France, 2002-2020
  • Table 42: Number of Discharged Fuel Assemblies in France (in Units), 2002-2020
  • Table 43: Share of Discharged Fuel Assemblies being stored in Dry Storage in France (in Units), 2002-2020
  • Table 44: Demand for Spent Fuel Casks in France (in Units), 2002-2020
  • Table 45: Value of the French Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Table 46: Number of Commercial Nuclear Reactors in Germany, 2002-2020
  • Table 47: Number of Discharged Fuel Assemblies in Germany (in Units), 2002-2020
  • Table 48: Share of Discharged Fuel Assemblies being stored in Dry Storage in Germany (in Units), 2002-2020
  • Table 49: Demand for Spent Fuel Casks in Germany (in Units), 2002-2020
  • Table 50: Value of the German Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Table 51: Number of Commercial Nuclear Reactors in Japan, 2002-2020
  • Table 52: Number of Discharged Fuel Assemblies in Japan (in Units), 2002-2020
  • Table 53: Share of Discharged Fuel Assemblies being stored in Dry Storage in Japan (in Units), 2002-2020
  • Table 54: Demand for Spent Fuel Casks in Japan (in Units), 2002-2020
  • Table 55: Value of the Japanese Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Table 56: Number of Commercial Nuclear Reactors in Russia, 2002-2020
  • Table 57: Number of Discharged Fuel Assemblies in Russia (in Units), 2002-2020
  • Table 58: Share of Discharged Fuel Assemblies being stored in Dry Storage in Russia (in Units), 2002-2020
  • Table 59: Demand for Spent Fuel Casks in Russia (in Units), 2002-2020
  • Table 60: Value of the Russian Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Table 61: Number of Commercial Nuclear Reactors in South Korea, 2002-2020
  • Table 62: Number of Discharged Fuel Assemblies in South Korea (in Units), 2002-2020
  • Table 63: Share of Discharged Fuel Assemblies being stored in Dry Storage in South Korea (in Units), 2002-2020
  • Table 64: Demand for Spent Fuel Casks in South Korea (in Units), 2002-2020
  • Table 65: Value of the South Korean Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Table 66: Number of Commercial Nuclear Reactors in Ukraine, 2002-2020
  • Table 67: Number of Discharged Fuel Assemblies in Ukraine (in Units), 2002-2020
  • Table 68: Share of Discharged Fuel Assemblies being stored in Dry Storage in Ukraine (in Units), 2002-2020
  • Table 69: Demand for Spent Fuel Casks in Ukraine (in Units), 2002-2020
  • Table 70: Value of the Ukrainian Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Table 71: Number of Commercial Nuclear Reactors in the UK, 2002-2020
  • Table 72: Number of Discharged Fuel Assemblies in the United Kingdom (in Units), 2002-2020
  • Table 73: Share of Discharged Fuel Assemblies being stored in Dry Storage in the UK (in Units), 2002-2020
  • Table 74: Demand for Spent Fuel Casks in the UK (in Units), 2002-2020
  • Table 75: Value of the UK Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
  • Table 76: Number of Commercial Nuclear Reactors in the US, 2002-2020
  • Table 77: Number of Discharged Fuel Assemblies in the US (in Units), 2002-2020
  • Table 78: Share of Discharged Fuel Assemblies being stored in Dry Storage in the US (in Units), 2002-2020
  • Table 79: Demand for Spent Fuel Casks in the US (in Units), 2002-2020
  • Table 80: Value of the US Spent Fuel Storage Casks Market by Revenues (in USD Million), 2002-2020
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