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市場調查報告書

核子反應爐的除役:世界市場趨勢與預測 - 2016∼2020年

Global Nuclear Decommissioning Market 2016-2020

出版商 TechNavio (Infiniti Research Ltd.) 商品編碼 319671
出版日期 內容資訊 英文 88 Pages
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核子反應爐的除役:世界市場趨勢與預測 - 2016∼2020年 Global Nuclear Decommissioning Market 2016-2020
出版日期: 2016年06月06日 內容資訊: 英文 88 Pages
簡介

全球核子反應爐的除役市場預計從2016年到2020年的期間維持2%以上的年複合成長率。

本報告以核子反應爐的除役的全球市場為焦點,提供推動市場成長要素和市場課題,透過市場趨勢,以及市場競爭情形的詳細調查,進行著市場現狀分析以及從2016年到2020年的未來預測。

第1章 摘要整理

第2章 本報告涵蓋範圍

  • 市場概要
  • 主要的前提條件
  • 主要供應商提供業務

第3章 市場調查手法

  • 調查手法
  • 經濟指標

第4章 序論

  • 市場相關重要事項
  • 技術概要

第5章 核子反應爐的除役:市場概況

  • 市場概要
  • 市場規模及未來預測
  • 波特的五力分析

第6章 核子反應爐各類型市場分類

  • 核子反應爐各類型的除役市場 - 2015年
  • 核子反應爐各類型的除役市場 - 2020年
  • 核子反應爐各類型的除役產業 - 2015∼2020年
  • 壓水式反應爐 (PWR)的除役市場 - 2015∼2020年
  • 沸水式反應爐 (BWR)的除役市場 - 2015∼2020年
  • 加壓重水型核子反應爐 (PHWR)的除役市場 - 2015∼2020年
  • 輕水冷卻石墨減速爐 (LWGR)的除役市場 - 2015∼2020年
  • 氣體冷卻型核子反應爐 (GCR)的除役市場 - 2015∼2020年

第7章 核子反應爐的除役:各地區市場分類

  • 各地區的核子反應爐的除役市場 - 2015年
  • 各地區的核子反應爐的除役市場 - 2020年
  • 各地區的核子反應爐的除役市場 - 2015∼2020年
  • 歐洲、中東、非洲地區的核子反應爐的除役市場: 2015∼2020年
  • 亞太地區的核子反應爐的除役市場: 2015∼2020年
  • 南北美洲地區的核子反應爐的除役市場: 2015∼2020年

第8章 主要國家

第9章 核子反應爐的除役:推動市場成長要素

  • 福島核能發電廠事故後嚴格的法律規章
  • 全世界的老朽核子反應爐封閉的動向
  • 對核子反應爐除役的公共支援及政府支援
  • 再生能源利用的擴大

第10章 推動市場成長要素與其影響

第11章 核子反應爐的除役:市場課題

  • 嚴格的法律規章
  • 放射性核廢棄物的處理困難
  • 全世界的電力需求的增加
  • 核能發電的可靠性
  • 除役成本

第12章 推動市場成長要素和市場課題帶來的影響

第13章 核子反應爐的除役:市場趨勢

  • 核的安全性確保的國際合作
  • 對政治混亂的漏洞
  • 技術進步

第14章 業者情勢

  • 市場競爭情形
  • 其他的有力供應商

第15章 主要供應商分析

  • AECOM
  • AREVA
  • Babcock
  • Studsvik
  • Westinghouse Electric

第16章 附錄

第17章 關於Technavio

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目錄
Product Code: IRTNTR8469

Market overview of the nuclear decommissioning market

Technavio's research analyst predicts the global nuclear decommissioning market to grow at a CAGR over 2% during the forecast period. Fatal accidents such as the Chernobyl and Fukushima incidents have propelled the growth of this market. This has resulted in an increase in the decommissioning of nuclear plants across the globe. For instance, during 2011, Germany decided to phase out all its operating nuclear plants from its power mix by the end of 2022, which in turn augments the market growth.

The difficulty in disposal of radioactive nuclear waste is another factor driving this market's growth. For instance, nearly 27 tons of nuclear waste is generated from a 1,000-MW nuclear reactor every year. This radioactive waste generates a large amount of heat and takes a long period to decay. Improper disposal of these waste products could result in serious environmental contamination. With the increase in such complexities, the demand for nuclear decommissioning is expected to grow in the coming years. Germany, the US, the UK, and Slovenia are members of the NEA (Nuclear Energy Agency), which is an agency focusing on advanced technology for safe decommissioning.

End-user segmentation and analysis of the nuclear decommissioning market

  • Pressurized water reactor (PWR)
  • Pressurized heavy water reactor (PWHR)
  • Boiling water reactor (BWR)

The PWR segment dominated the nuclear decommissioning market during 2015 and this reactor type is the highest in number globally. The phase-out of nuclear power generation has resulted in an increased number of shutdowns. As of 2015, seven PWR nuclear reactors have gone offline with an installed capacity of 8,469 MW. With decreased government support and public opposition, the demand for nuclear decommissioning is expected to increase.

Geographical segmentation and analysis of the nuclear decommissioning market

  • Americas
  • APAC
  • EMEA

EMEA accounted for over 60% of the market share based on installed capacity during 2015 and is expected to grow at a CAGR of 7% during the forecast period. The shift in power generation pattern owing to past nuclear accidents such as the Chernobyl disaster in Russia and the Fukushima nuclear disaster in Japan has created a negative impact on the European nuclear industry, thereby driving the market growth for nuclear decommissioning in this region.

Competitive landscape and key vendors

Medium-sized and large suppliers dominate the global nuclear decommissioning market. The market in EMEA and the Americas is dominated by large and established players. APAC is not expected to see much growth in decommissioning technologies due to the lack of government initiatives in the region.

The leading vendors in the market are -

  • Areva
  • Babcock
  • Bechtel
  • CH2M

Other prominent vendors in the market include EnergySolutions, Nuvia Group, Nuclear Decommissioning Services, and Ansaldo NES.

Key questions answered in the report include

  • What will the market size and the growth rate be in 2020?
  • What are the key factors driving the global nuclear decommissioning market?
  • What are the key market trends impacting the growth of the nuclear decommissioning market?
  • What are the challenges to market growth?
  • Who are the key vendors in this market space?
  • What are the market opportunities and threats faced by the vendors in the global nuclear decommissioning market?
  • Trending factors influencing the market shares of the Americas, APAC, and EMEA?
  • What are the key outcomes of the five forces analysis of the nuclear decommissioning market?

Technavio also offers customization on reports based on specific client requirement.

Table of Contents

PART 01: Executive summary

  • Highlights

PART 02: Scope of the report

  • Market overview
  • Key assumptions
  • Top-vendor offerings

PART 03: Market research methodology

  • Research methodology
  • Economic indicators

PART 04: Introduction

  • Key market highlights
  • Technology overview

PART 05: Market landscape

  • Market overview
  • Market size and forecast
  • Five forces analysis

PART 06: Market segmentation by type

  • Nuclear decommissioning market by type 2015
  • Nuclear decommissioning market by type 2020
  • Nuclear decommissioning by type 2015-2020
  • Nuclear decommissioning market by PWR type reactors 2015-2020
  • Nuclear decommissioning market by BWR type reactors 2015-2020
  • Nuclear decommissioning market by PHWR type reactors 2015-2020
  • Nuclear decommissioning market by LWGR type reactors 2015-2020
  • Nuclear decommissioning market by GCR type reactors 2015-2020

PART 07: Geographical segmentation

  • Nuclear decommissioning market by geography 2015
  • Nuclear decommissioning market by geography 2020
  • Nuclear decommissioning market by geography 2015-2020
  • Nuclear decommissioning market in EMEA 2015-2020
  • Nuclear decommissioning market in APAC 2015-2020
  • Nuclear decommissioning market in Americas 2015-2020

PART 08: Key countries

  • Key countries during the forecast period

PART 09: Market drivers

  • Stringent regulations post-Fukushima accident
  • Worldwide shutdown of older reactors
  • Public and government support for decommissioning of nuclear reactors
  • Increase in use of renewable energy

PART 10: Impact of drivers

PART 11: Market challenges

  • Stringent regulatory standards
  • Difficulty in disposal of radioactive nuclear waste
  • Rising demand for power worldwide
  • Reliability of nuclear power
  • Cost of decommissioning

PART 12: Impact of drivers and challenges

PART 13: Market trends

  • International cooperation to ensure nuclear safety
  • Vulnerability to political turmoil
  • Technological advancements

PART 14: Vendor landscape

  • Competitive landscape
  • Other prominent vendors

PART 15: Key vendor analysis

  • AECOM
  • AREVA
  • Babcock
  • Studsvik
  • Westinghouse Electric

PART 16: Appendix

  • List of abbreviations

PART 17: Explore Technavio

List of Exhibits

  • Exhibit 01: Top vendor offerings
  • Exhibit 02: Nuclear decommissioning flow diagram
  • Exhibit 03: PWR flow diagram
  • Exhibit 04: BWR flow diagram
  • Exhibit 05: PHWR flow diagram
  • Exhibit 06: LWGR flow diagram
  • Exhibit 07: Overview of Global Nuclear Decommissioning Market
  • Exhibit 08: Global nuclear decommissioning market 2016-2020 by capacity (MWe)
  • Exhibit 09: Global nuclear decommissioning market 2016-2020 by decommissioning costs ($ billions)
  • Exhibit 10: Segmentation of nuclear decommissioning market by type of nuclear capacity 2015
  • Exhibit 11: Segmentation of nuclear decommissioning market by type of nuclear and its associated costs 2015
  • Exhibit 12: Segmentation of nuclear decommissioning market by type of nuclear capacity 2020
  • Exhibit 13: Segmentation of nuclear decommissioning market by type of nuclear and its associated costs 2020
  • Exhibit 14: Global nuclear decommissioning market by type of nuclear capacity 2015-2020
  • Exhibit 15: Global nuclear decommissioning market by type of nuclear and its associated costs 2015-2020
  • Exhibit 16: Nuclear decommissioning market by PWR type reactors 2015-2020
  • Exhibit 17: Geographical spread of decommissioning of PWR reactors
  • Exhibit 18: Nuclear decommissioning market by BWR type reactors 2015-2020
  • Exhibit 19: Geographical spread of decommissioning of BWR reactors
  • Exhibit 20: Nuclear decommissioning market by PHWR type reactors 2015-2020
  • Exhibit 21: Geographical spread of decommissioning of PHWR reactors
  • Exhibit 22: Nuclear decommissioning market by LWGR type reactors 2015-2020
  • Exhibit 23: Geographical spread of decommissioning of LWGR reactors
  • Exhibit 24: Nuclear decommissioning market by GCR type reactors 2015-2020
  • Exhibit 25: Nuclear decommissioning market by geography 2015
  • Exhibit 26: Nuclear decommissioning market by geography 2020
  • Exhibit 27: Nuclear decommissioning market by geography 2015-2020
  • Exhibit 28: Nuclear decommissioning market in EMEA 2015-2020
  • Exhibit 29: Planned nuclear decommissioning by country in EMEA 2015-2020
  • Exhibit 30: Nuclear decommissioning plan in France
  • Exhibit 31: Nuclear decommissioning plan in Ukraine
  • Exhibit 32: Nuclear decommissioning plan in Germany
  • Exhibit 33: Nuclear decommissioning plan in Spain
  • Exhibit 34: Nuclear decommissioning plan in Spain
  • Exhibit 35: Nuclear decommissioning plan in Russia
  • Exhibit 36: Nuclear decommissioning plan in Switzerland
  • Exhibit 37: Nuclear decommissioning plan in Czech Republic
  • Exhibit 38: Nuclear decommissioning plan in Hungary
  • Exhibit 39: Nuclear decommissioning plan in Hungary
  • Exhibit 40: Nuclear decommissioning market in APAC 2015-2020
  • Exhibit 41: Planned nuclear decommissioning by country in APAC 2015-2020
  • Exhibit 42: Nuclear decommissioning plan in Japan
  • Exhibit 43: Nuclear decommissioning plan in Taiwan
  • Exhibit 44: Nuclear decommissioning plan in South Korea
  • Exhibit 45: Nuclear decommissioning plan in India
  • Exhibit 46: Nuclear decommissioning plan in Pakistan
  • Exhibit 47: Nuclear decommissioning market in Americas 2015-2020
  • Exhibit 48: Nuclear decommissioning plan in Canada
  • Exhibit 49: Nuclear decommissioning plan in US
  • Exhibit 50: Nuclear decommissioning market in France 2015-2020
  • Exhibit 51: Nuclear decommissioning market in Japan 2015-2020
  • Exhibit 52: Nuclear decommissioning market in Ukraine 2015-2020
  • Exhibit 53: Growth of renewable sources 2009-2014
  • Exhibit 54: Impact of drivers
  • Exhibit 55: Power consumption in few countries in 2014 (TWH)
  • Exhibit 56: Impact of drivers and challenges
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