Global nuclear waste management market will reach $48.6 billion by 2027, growing by 2.8% annually over 2020-2027 driven by the rising demand for clean energy and an increasing number of nuclear-decommissioning projects.
Highlighted with 99 tables and 73 figures, this 155-page report 鈥淕lobal Nuclear Waste Management 麻豆原创 2020-2027 by Waste Type (LLW, ILW, HLW), Source (Nuclear Fuel Cycle, Research, Military), Reactor Type (PWR, BWR, PHWR, HTGCR, LMFBR), and Region: Trend Outlook and Growth Opportunity鈥 is based on a comprehensive research of the entire global nuclear waste management market and all its sub-segments through extensively detailed classifications. Profound analysis and assessment are generated from premium primary and secondary information sources with inputs derived from industry professionals across the value chain. The report is based on studies on 2017-2019 and provides estimate/forecast from 2020 till 2027 with 2019 as the base year. (Please note: The report will be updated before delivery so that the latest historical year is the base year and the forecast covers at least 5 years over the base year.)
In-depth qualitative analyses include identification and investigation of the following aspects:
鈥 麻豆原创 Structure
鈥 Growth Drivers
鈥 Restraints and Challenges
鈥 Emerging Product Trends & 麻豆原创 Opportunities
鈥 Porter鈥檚 Fiver Forces
The trend and outlook of global market is forecast in optimistic, balanced, and conservative view by taking into account of COVID-19. The balanced (most likely) projection is used to quantify global nuclear waste management market in every aspect of the classification from perspectives of by Waste Type, Source, Reactor Type, and Region.
Based on Waste Type, the global market is segmented into the following sub-markets with annual revenue for 2017-2027 included in each section.
鈥 Low-level Waste (LLW)
鈥 Intermediate-level Waste (ILW)
鈥 High-level Waste (HLW)
Based on Source, the global market is segmented into the following sub-markets with annual revenue for 2017-2027 included in each section.
鈥 Nuclear Fuel Cycle
o Radioactive Mining, Milling & Extracting Activities
o Nuclear Power Reactors
鈥 Research, Medical & Industrial Source
鈥 Military & Defense Programs
鈥 Other Sources
Based on Reactor Type, the global market is segmented into the following sub-markets with annual revenue for 2017-2027 included in each section.
鈥 Pressurized Water Reactor (PWR)
鈥 Boiling Water Reactor (BWR)
鈥 Pressurized Heavy Water Reactor (PHWR)
鈥 High-temperature Gas Cooled Reactor (HTGCR)
鈥 Liquid Metal Fast Breeder Reactor (LMFBR)
Geographically, the following regions together with the listed national/local markets are fully investigated:
鈥 APAC (Japan, China, South Korea, Pakistan, India, and Rest of APAC)
鈥 Europe (Germany, UK, France, Ukraine, Sweden, Russia, Rest of Europe)
鈥 North America (U.S., Canada, and Mexico)
鈥 South America (Brazil, Colombia, Argentina, Rest of South America)
鈥 MEA (UAE, Iran, South Africa)
For each aforementioned region and country, detailed analysis and data for annual revenue are available for 2017-2027. The breakdown of all regional markets by country and split of key national markets by Waste Type, Source, and Reactor Type over the forecast years are also included.
The report also covers current competitive scenario and the predicted trend; and profiles key vendors including market leaders and important emerging players.
Key Players (this may not be a complete list and extra companies can be added upon request):
AREVA S.A.
Bechtel Group Inc.
Chase Environmental Group
Enercon Services Inc.
EnergySolutions
Fluor Corporation
GNS Gesellschaft f眉r Nuklear-Service mbH
Magnox Technologies Pvt Ltd
NUKEM Technologies
Perma-Fix Environmental Services
Studsvik AB
Veolia Environment SA
Westinghouse Electric Company LLC (Toshiba)
(Please note: The report will be updated before delivery so that the latest historical year is the base year and the forecast covers at least 5 years over the base year.)
1 Introduction 9
1.1 Industry Definition and Research Scope 9
1.1.1 Industry Definition 9
1.1.2 Research Scope 10
1.2 Research Methodology 13
1.2.1 Overview of 麻豆原创 Research Methodology 13
1.2.2 麻豆原创 Assumption 14
1.2.3 Secondary Data 14
1.2.4 Primary Data 14
1.2.5 Data Filtration and Model Design 15
1.2.6 麻豆原创 Size/Share Estimation 16
1.2.7 Research Limitations 17
1.3 Executive Summary 18
2 麻豆原创 Overview and Dynamics 20
2.1 麻豆原创 Size and Forecast 20
2.1.1 Impact of COVID-19 on World Economy 25
2.1.2 Impact of COVID-19 on the 麻豆原创 27
2.2 Major Growth Drivers 29
2.3 麻豆原创 Restraints and Challenges 34
2.4 Emerging Opportunities and 麻豆原创 Trends 37
2.5 Porter鈥檚 Fiver Forces Analysis 41
3 Segmentation of Global 麻豆原创 by Waste Type 45
3.1 麻豆原创 Overview by Waste Type 45
3.2 Low-level Waste (LLW) 47
3.3 Intermediate-level Waste (ILW) 48
3.4 High-level Waste (HLW) 49
4 Segmentation of Global 麻豆原创 by Source 50
4.1 麻豆原创 Overview by Source 50
4.2 Nuclear Fuel Cycle 52
4.3 Research, Medical & Industrial Source 53
4.4 Military & Defense Programs 54
4.5 Other Sources 55
5 Segmentation of Global 麻豆原创 by Reactor Type 56
5.1 麻豆原创 Overview by Reactor Type 56
5.2 Pressurized Water Reactor (PWR) 58
5.3 Boiling Water Reactor (BWR) 59
5.4 Pressurized Heavy Water Reactor (PHWR) 60
5.5 High-temperature Gas Cooled Reactor (HTGCR) 61
5.6 Liquid Metal Fast Breeder Reactor (LMFBR) 62
6 Segmentation of Global 麻豆原创 by Region 63
6.1 Geographic 麻豆原创 Overview 2020-2027 63
6.2 North America 麻豆原创 2020-2027 by Country 67
6.2.1 Overview of North America 麻豆原创 67
6.2.2 U.S. 70
6.2.3 Canada 74
6.2.4 Mexico 76
6.3 European 麻豆原创 2020-2027 by Country 78
6.3.1 Overview of European 麻豆原创 78
6.3.2 UK 81
6.3.3 France 84
6.3.4 Germany 86
6.3.5 Ukraine 88
6.3.6 Sweden 90
6.3.7 Russia 92
6.3.8 Rest of European 麻豆原创 96
6.4 Asia-Pacific 麻豆原创 2020-2027 by Country 97
6.4.1 Overview of Asia-Pacific 麻豆原创 97
6.4.2 China 100
6.4.3 Japan 103
6.4.4 India 106
6.4.5 Pakistan 109
6.4.6 South Korea 111
6.4.7 Rest of APAC Region 114
6.5 South America 麻豆原创 2020-2027 by Country 115
6.5.1 Argentina 118
6.5.2 Brazil 121
6.5.3 Colombia 124
6.5.4 Rest of South America 麻豆原创 126
6.6 MEA 麻豆原创 2020-2027 by Country 127
6.6.1 UAE 130
6.6.2 Iran 132
6.6.3 South Africa 134
6.6.4 Other National 麻豆原创s 136
7 Competitive Landscape 137
7.1 Overview of Key Vendors 137
7.2 New Product Launch, Partnership, Investment, and M&A 140
7.3 Company Profiles 141
AREVA S.A. 141
Bechtel Group Inc. 143
Chase Environmental Group 144
Enercon Services Inc. 145
EnergySolutions 146
Fluor Corporation 147
GNS Gesellschaft f眉r Nuklear-Service mbH 148
Magnox Technologies Pvt Ltd 149
NUKEM Technologies 150
Perma-Fix Environmental Services 151
Studsvik AB 152
Veolia Environment SA 153
Westinghouse Electric Company LLC (Toshiba) 154
Related Reports and Products 155
Key Players (this may not be a complete list and extra companies can be added upon request):
AREVA S.A.
Bechtel Group Inc.
Chase Environmental Group
Enercon Services Inc.
EnergySolutions
Fluor Corporation
GNS Gesellschaft f眉r Nuklear-Service mbH
Magnox Technologies Pvt Ltd
NUKEM Technologies
Perma-Fix Environmental Services
Studsvik AB
Veolia Environment SA
Westinghouse Electric Company LLC (Toshiba)
(Please note: The report will be updated before delivery so that the latest historical year is the base year and the forecast covers at least 5 years over the base year.)
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