株式会社グローバルインフォメーション
TEL: 044-952-0102
表紙
市場調査レポート

溶融塩原子炉 (MSR):機会と世界市場

Molten Salt Reactors: Opportunity and Global Markets

発行 BCC Research 商品コード 722943
出版日 ページ情報 英文 103 Pages
即納可能
価格
本日の銀行送金レート: 1USD=111.00円で換算しております。
Back to Top
溶融塩原子炉 (MSR):機会と世界市場 Molten Salt Reactors: Opportunity and Global Markets
出版日: 2018年10月09日 ページ情報: 英文 103 Pages
概要

世界における溶融塩原子炉 (MSR) の市場規模は、2017年から2022年にかけて11.1%のCAGR (年間複合成長率) で推移し、2017年の89億米ドルから、2022年までに151億米ドルへ達すると予測されています。

当レポートでは、世界における溶融塩原子炉 (MSR) 市場について分析し、世界市場の概要、市場動向の分析と予測、核燃料タイプ・エンドユーズ別による分析と予測、主な動向、機会の分析、および主要企業のプロファイルなどを提供しています。

第1章 イントロダクション

第2章 サマリー・ハイライト

第3章 市場・技術背景

  • 溶融塩原子炉 (MSR) の市場定義・発展
  • 将来の展望・予測
  • 再生可能資源から電力を生み出す諸国
  • 市場ダイナミクス
  • 溶融塩原子炉 (MSR) の分野における主な発展
  • キーオピニオンリーダーによる引用

第4章 市場分析:核燃料タイプ別

  • イントロダクション
  • トリウム
  • ウラン
  • プルトニウム

第5章 市場分析:エンドユーズ別

  • イントロダクション
  • 発電・エネルギー
  • 石油・ガス
  • 海運
  • その他の産業

第6章 市場分析:地域別

  • イントロダクション
  • 北米
  • 欧州
  • アジア太平洋
  • その他

第7章 競合分析

  • 市場機会の分析
  • 市場シェア分析

第8章 特許レビュー/新たな発展

  • 特許レビュー:国別

第9章 企業プロファイル

  • COPENHAGEN ATOMICS
  • ENESOON TECHNOLOGY
  • ELYSIUM INDUSTRIES LTD.
  • FLIBE ENERGY, INC.
  • KAIROS POWER LLC
  • LIGHTBRIDGE CORP.
  • MAN DIESEL & TURBO SE
  • MOLTEX ENERGY LTD.
  • SHANGHAI TAIYANG TECHNOLOGY CO., LTD.
  • SICHUAN POTASSIUM CO., LTD.
  • STEENKAMPSKRAAL THORIUM LTD.
  • SEABORG TECHNOLOGIES
  • THORIUM POWER CANADA INC.
  • THORIUM TECH SOLUTION INC.
  • THE SOUTHERN COMPANY
  • TERRESTRIAL ENERGY, INC.
  • TERRAPOWER, LLC
  • TRANSATOMIC POWER CORP.
  • THOR ENERGY AS
  • THORCON POWER

BBC Researchについて

図表

List of Tables

  • Summary Table: Global Market for Molten Salt Reactors, by Region, Through 2022
    • Table 1: Global Market for Thorium, by End Use, Through 2022
    • Table 2: Global Market for Thorium, by Region, Through 2022
    • Table 3: Global Market for Uranium, by End Use, Through 2022
    • Table 4: Global Market for Uranium, by Region, Through 2022
    • Table 5: Global Market for Plutonium, by End Use, Through 2022
    • Table 6: Global Market for Plutonium, by Region, Through 2022
    • Table 7: Global Market for Power and Energy, by Nuclear Fuel Type, Through 2022
    • Table 8: Global Market for Power and Energy, by Region, Through 2022
    • Table 9: Global Market for Oil and Gas, by Nuclear Fuel Type, Through 2022
    • Table 10: Global Market for Oil and Gas, by Region, Through 2022
    • Table 11: Global Market for Shipping, by Nuclear Fuel Type, Through 2022
    • Table 12: Global Market for Shipping, by Region, Through 2022
    • Table 13: Global Market for Other Industries, by Nuclear Fuel Type, Through 2022
    • Table 14: Global Market for Other Industries, by Region, Through 2022
    • Table 15: Global Market for Molten Salt Reactors, by Region, Through 2022
    • Table 16: North American Molten Salt Reactors Market, by Nuclear Fuel Type, Through 2022
    • Table 17: North American Molten Salt Reactors Market, by End Use, Through 2022
    • Table 18: European Molten Salt Reactors Market, by Nuclear Fuel Type, Through 2022
    • Table 19: European Molten Salt Reactors Market, by End Use, Through 2022
    • Table 20: Asia-Pacific Molten Salt Reactors Market, by Nuclear Fuel Type, Through 2022
    • Table 21: Asia-Pacific Molten Salt Reactors Market, by End Use, Through 2022
    • Table 22: RoW Molten Salt Reactors Market, by Nuclear Fuel Type, Through 2022
    • Table 23: RoW Molten Salt Reactors Market, by End Use, Through 2022
    • Table 24: Market Share Analysis of Molten Salt Reactors, by Company, 2016
    • Table 25: Molten Salt Reactor
    • Table 26: Molten Salt Reactor
    • Table 27: Molten Salt Reactor Core with Reflector
    • Table 28: Molten Fuel Reactor Thermal Management Configurations
    • Table 29: Molten Fuel Reactor Cooling and Pump Configurations
    • Table 30: Heat Pipe Molten Salt Fast Reactor with Stagnant Liquid Core
    • Table 31: Molten Fuel Nuclear Reactor with Neutron Reflecting Coolant
    • Table 32: Molten Fuel Nuclear Reactor with Neutron Reflecting Coolant
    • Table 33: Reactor
    • Table 34: Reactor
    • Table 35: Vertically-Segmented Nuclear Reactor
    • Table 36: Nuclear Fuel Salts
    • Table 37: Systems and Methods for Providing a Molten Salt Reactor
    • Table 38: Systems and Methods for Providing a Molten Salt Reactor
    • Table 39: Corrosion Reduction in a Molten Salt Reactor
    • Table 40: Froth Separation in a Molten Salt Reactor
    • Table 41: Salt Compositions for Molten Salt Reactors
    • Table 42: In Situ Probe for Measurement of Liquids Temperature in a Molten Salt Reactor
    • Table 43: Electrochemical Ion Separation in Molten Salts
    • Table 44: Compact Molten Salt Reactor
    • Table 45: Molten Salt Nuclear Reactor
    • Table 46: Corrosion Reduction in a Molten Salt Reactor
    • Table 47: Salt Compositions for Molten Salt Reactors
    • Table 48: Froth Separation in a Molten Salt Reactor
    • Table 49: Control of Corrosion by Molten Salts
    • Table 50: Method for Operating a Molten Salt Nuclear Reactor
    • Table 51: A System and a Method for Providing a Molten Salt Reactor
    • Table 52: Induction Molten Salt Heat Transfer System
    • Table 53: Rectangular Nuclear Reactor Core
    • Table 54: Passive Cooling of Fission Reactor
    • Table 55: Molten Salt Fission Reactor
    • Table 56: Fission Reaction Control in a Molten Salt Reactor
    • Table 57: Compact Size Molten Salt Reactor
    • Table 58: Chemical Optimization in a Molten Salt Reactor
    • Table 59: Reactivity Control in a Molten Salt Reactor
    • Table 60: Fission Reaction Control in a Molten Salt Reactor
    • Table 61: Reactivity Control in A Molten Salt Reactor
    • Table 62: Chemical Optimization in a Molten Salt Reactor
    • Table 63: Systems and Methods for Providing a Molten Salt Reactor
    • Table 64: Chemical Optimization in a Molten Salt Reactor
    • Table 65: Molten Salt Reactor
    • Table 66: Controlling Reactivity in Molten Salt Reactors
    • Table 67: Froth Separation in a Molten Salt Reactor
    • Table 68: Heat Removal System for a Molten Salt Reactor System
    • Table 69: Heat Pipe Molten Salt Fast Reactor with Stagnant Liquid Core
    • Table 70: Molten Nuclear Fuel Salts and Related Systems and Methods
    • Table 71: Developments in Lightbridge Corporation
    • Table 72: Development of Moltex Energy Ltd.
    • Table 73: Development in Seaborg Technologies
    • Table 74: Developments in The Southern Company
    • Table 75: Development of Terrestrial Energy, Inc.
    • Table 76: Developments in TerraPower, LLC
    • Table 77: Developments in Transatomic Power Corp.
    • Table 78: Developments in Thor Energy AS

List of Figures

  • Summary Figure: Global Market for Molten Salt Reactors, by Region, 2016-2022
    • Figure 1: Molten Reactor Plant Internal Structure, Type 1
    • Figure 2: Molten Reactor Plant Internal Structure, Type 2
    • Figure 3: Molten Reactor Plant Internal Structure, Type 3
    • Figure 4: Electricity Production in North America, by Country, 2012-2016
    • Figure 5: Electricity Production in Europe, by Country, 2012-2016
    • Figure 6: Electricity Production in Asia-Pacific, by Country, 2012-2016
    • Figure 7: Electricity Production in Brazil, 2012-2016
    • Figure 8: Electricity Consumption in North America, by Country, 2012-2016
    • Figure 9: Electricity Consumption in Europe, by Country, 2012-2016
    • Figure 10: Electricity Consumption in Asia-Pacific, by Country, 2012-2016
    • Figure 11: Electricity Consumption in Brazil, 2012-2016
    • Figure 12: Maximum Consumption of Renewable Resources (Wind and Solar) for Electricity Generation, by Country, 2015 and 2016
    • Figure 13: Global Market for Thorium, by End Use, 2016-2022
    • Figure 14: Global Market for Thorium, by Region, 2016-2022
    • Figure 15: Global Market for Uranium, by End Use, 2016-2022
    • Figure 16: Global Market for Uranium, by Region, 2016-2022
    • Figure 17: Global Market for Plutonium, by End Use, 2016-2022
    • Figure 18: Global Market for Plutonium, by Region, 2016-2022
    • Figure 19: Global Market for Power and Energy, by Nuclear Fuel Type, 2016-2022
    • Figure 20: Global Market for Power and Energy, by Region, 2016-2022
    • Figure 21: Global Market for Oil and Gas, by Nuclear Fuel Type, 2016-2022
    • Figure 22: Global Market for Oil and Gas, by Region, 2016-2022
    • Figure 23: Global Market for Shipping, by Nuclear Fuel Type, 2016-2022
    • Figure 24: Global Market for Shipping, by Region, 2016-2022
    • Figure 25: Global Market for Other Industries, by Nuclear Fuel Type, 2016-2022
    • Figure 26: Global Market for Other Industries, by Region, 2016-2022
    • Figure 27: Global Market for Molten Salt Reactors, by Region, 2016-2022
    • Figure 28: North American Molten Salt Reactors Market, by Nuclear Fuel Type 2016-2022
    • Figure 29: North American Molten Salt Reactors Market, by End Use, 2016-2022
    • Figure 30: European Molten Salt Reactors Market, by Nuclear Fuel Type, 2016-2022
    • Figure 31: European Molten Salt Reactors Market, by End Use, 2016-2022
    • Figure 32: Asia-Pacific Molten Salt Reactors Market, by Nuclear Fuel Type, 2016-2022
    • Figure 33: Asia-Pacific Molten Salt Reactors Market, by End Use, 2016-2022
    • Figure 34: RoW Molten Salt Reactors Market, by Nuclear Fuel Type, 2016-2022
    • Figure 35: RoW Molten Salt Reactors Market, by End Use, 2016-2022
    • Figure 36: Patent Share for Molten Salt Reactor, by Region, 2015-2017
    • Figure 37: Patent Share for Molten Salt Reactor, by Year, 2013-2017
目次
Product Code: AVM159A

Report Highlights:

The global market for molten salt reactors is expected to increase from $8.9 billion in 2017 to nearly $15.1 billion in 2022 at a compound annual growth rate (CAGR) of 11.1% for 2017-2022.

North American market for molten salt reactors is expected from $2.3 billion in 2017 to $3.8 billion in 2022 at a compound annual growth rate (CAGR) of 10.8% for 2017-2022.

Asia-Pacific market for molten salt reactors is expected from nearly $3.6 billion in 2017 to $6.2 billion in 2022 at a compound annual growth rate (CAGR) of 11.6% for 2017-2022.

Report Scope:

The molten salt reactors market is segmented into the follow categories:

  • By nuclear fuel type: thorium, uranium and plutonium.
  • By end-use: power and energy, oil and gas, shipping and other industries.
  • By region: North America is segmented into the U.S., Canada and Mexico; Europe is segmented into France, Italy, Germany, the U.K., Russia and the rest of Commonwealth Independent States (CIS); Asia-Pacific (APAC) is segmented into China, Japan, Taiwan, South Korea and others; and the rest of the world (ROW) covers the Middle East, Africa and South America.
  • Estimated values used are based on manufacturers' total revenues. Projected and forecasted revenue values are in constant U.S. dollars, unadjusted for inflation.

In addition to industry and competitive analysis of the molten salt reactors market, this report also includes a patent analysis and a listing of company profiles for key players in the molten salt reactors market.

Report Includes:

  • 79 tables
  • An overview of the global markets for molten salt reactors
  • Analyses of global market trends, with data from 2016, 2017, and projections of compound annual growth rates (CAGRs) through 2022
  • A look at the various nuclear fuel types of molten salt reactors and the market dynamics of each end-use
  • Examination of key trends related to types of nuclear fuel and end-use applications that shape and influence the molten salt reactors industry
  • Discussion of opportunities and innovation-driving molten salt reactors market highlights, and the major regions and countries involved in such developments
  • Company profiles of the major players of the industry, including Terrestrial Energy Inc., Moltex Energy LLP, ThorCon Power, TerraPower, Flibe Energy and Transatomic Power Corp.

Table of Contents

Chapter 1: Introduction

  • Study Goals and Objectives
  • Reasons for Doing This Study
  • Scope of Report
  • Research Methodology
  • Intended Audience
  • Information Sources
  • Regional Breakdown
  • Analyst's Credentials
  • BCC Custom Research
  • Related BCC Research Reports

Chapter 2: Summary and Highlights

Chapter 3: Market and Technology Background

  • Market Definition and the Evolution of Molten Salt Reactors
  • Future Outlook and Expectations
    • Electricity Production
    • Electricity Consumption
  • Countries Producing Electricity from Renewable Resources
  • Market Dynamics
    • Drivers
    • Restraints
  • Key Developments in the Field of Molten Salt Reactor
    • Safety and Security
    • Mass Production
    • Sustainability of Resources
    • Produces Less Long-Lived Waste
  • Quotes by Key Opinion Leaders
    • Matthew Lish, Senior Dynamicist at Flibe Energy

Chapter 4: Market Breakdown by Nuclear Fuel Type

  • Introduction
  • Thorium
  • Uranium
  • Plutonium

Chapter 5: Market Breakdown by End Use

  • Introduction
  • Power and Energy
  • Oil and Gas
  • Shipping
  • Other Industries

Chapter 6: Market Breakdown by Region

  • Introduction
  • North America
  • Europe
  • Asia-Pacific
  • Rest of the World

Chapter 7: Competitive Analysis

  • Analysis of Market Opportunities
    • Fluctuation in Wind and Solar Power
    • Cheaper and Abundant Sources of Energy
    • Low Carbon Emission
    • Non-Poisonous and Safer Process
    • Government Awareness Regarding Pollution and Sustainable Development
  • Market Share Analysis

Chapter 8: Patent Review/ New Developments

  • Patent Review by Country

Chapter 9: Company Profiles

  • COPENHAGEN ATOMICS
    • Overview
    • Primary Business
    • Financials
  • ENESOON TECHNOLOGY
    • Overview
    • Primary Business
    • Financials
  • ELYSIUM INDUSTRIES LTD.
    • Overview
    • Primary Business
    • Financials
  • FLIBE ENERGY, INC.
    • Overview
    • Primary Business
    • Financials
  • KAIROS POWER LLC
    • Overview
    • Primary Business
    • Financials
    • Business Strategy
  • LIGHTBRIDGE CORP.
    • Overview
    • Primary Business
    • Financials
    • Business Strategies
  • MAN DIESEL & TURBO SE
    • Overview
    • Primary Business
    • Financials
  • MOLTEX ENERGY LTD.
    • Overview
    • Primary Business
    • Financials
    • Business Strategies
  • SHANGHAI TAIYANG TECHNOLOGY CO., LTD.
    • Overview
    • Primary Business
    • Financials
  • SICHUAN POTASSIUM CO., LTD.
    • Overview
    • Primary Business
    • Financials
  • STEENKAMPSKRAAL THORIUM LTD.
    • Overview
    • Primary Business
    • Financials
  • SEABORG TECHNOLOGIES
    • Overview
    • Primary Business
    • Financials
    • Development
  • THORIUM POWER CANADA INC.
    • Overview
    • Primary Business
    • Financials
  • THORIUM TECH SOLUTION INC.
    • Overview
    • Financials
  • THE SOUTHERN COMPANY
    • Overview
    • Primary Business
    • Financials
    • Business Strategies
    • Developments
  • TERRESTRIAL ENERGY, INC.
    • Overview
    • Primary Business
    • Financials
    • Business Strategies
    • Development
  • TERRAPOWER, LLC
    • Overview
    • Primary Business
    • Financials
    • Developments
  • TRANSATOMIC POWER CORP.
    • Overview
    • Primary Business
    • Financials
    • Developments
  • THOR ENERGY AS
    • Overview
    • Primary Business
    • Financials
    • Developments
  • THORCON POWER
    • Overview
    • Financials
Back to Top