
Nuclear Waste Management Market Report 2022-2032 Forecasts by Solution (Storage Management, Disposal Management, Other), by Waste Type (Very-Low-Level Waste (VLLW), Low-Level Waste (LLW), Intermediate-Level Waste (ILW), High Level Waste (HLW), Other), by
Description
The Nuclear Waste Management Market Report 2022-2032
This report will prove invaluable to leading firms striving for new revenue pockets if they wish to better understand the industry and its underlying dynamics. It will be useful for companies that would like to expand into different industries or to expand their existing operations in a new region.
There is great deal of radioactive waste generated globally that drives the waste management market
Tens of thousands of metric tonnes of radioactive waste collected by commercial power plants and years of national military operations continues to age at various locations across the world. The stockpile grows as the hazardous substance and the containers it is stored in await permanent disposal. Globally, the amount of HLW is rising by around 12,000 tonnes each year. Every year, a 1000-megawatt nuclear power station generates around 27 t of spent nuclear fuel (unreprocessed). The quantity of ash generated by coal power stations in the United States is estimated to be 130,000,000 t per year, with fly ash releasing 100 times more radiation than a comparable nuclear power plant.
The nuclear power sector also produces waste even though in lesser quantity
In comparison to other industrial operations, the nuclear power sector generates a modest quantity of waste. 97 percent of garbage generated is categorized as low- or intermediate-level waste (LLW or ILW). For many years, such garbage has been widely disposed of in near-surface sites. Only 0.2 percent of all radioactive waste by volume is designated as high-level waste in France, where fuel is reprocessed (HLW). The quantity of HLW generated (including spent fuel when deemed waste) during nuclear production is minimal; a typical big reactor (1 gigawatt) generates around 25-30 tonnes of used fuel per year.
Environmentalists And Nuclear Power Specialists Have Expressed Concern About Nuclear Waste Management
Environmentalists and nuclear power specialists have expressed concern about the manner waste is being kept at Europe’s largest nuclear power facility in crisis-torn Ukraine. The Guardian uncovered nearly 3,000 spent nuclear fuel rods inside metal barrels within towering concrete containers in an open-air yard adjacent to a perimeter fence at Zaporizhia during a recent visit to the facility, which is 124 miles (200 km) from the present front line.
Another risk is the unintentional release of radiation from spent nuclear fuel rods kept in pools of water at reactor sites. This would occur if the water in the pools leaked, causing the fuel to overheat. While the amount of spent fuel held on site is very minor, a far bigger amount of highly radioactive waste (including spent fuel) is stored at five regional sites around Ukraine. On February 27, one of them near Kyiv was apparently struck by a Russian aircraft. The fact that no radioactive debris was released was primarily down to chance and cannot be relied on in the future.
What Are These Questions You Should Ask Before Buying A Market Research Report?
Forecasts to 2032 and other analyses reveal the commercial prospects
Global Nuclear Waste Management Market (COVID Impact Analysis)
North America Nuclear Waste Management Market, 2022 to 2032 Market Outlook
Leading companies and the potential for market growth
How the Nuclear Waste Management Market, 2022 to 2032 Market report helps you?
In summary, our 522-page report provides you with the following knowledge:
Information found nowhere else
With our newly report title, you are less likely to fall behind in knowledge or miss out on opportunities. See how our work could benefit your research, analyses, and decisions. Visiongain’s study is for everybody needing commercial analyses for the Nuclear Waste Management Market, 2022 to 2032 Market and leading companies. You will find data, trends and predictions.
Please Note: Prior to initiating fulfillment of an order, the client will be required to sign a document detailing the purchase terms for a publication from this publisher.
The publisher is using a password system to access all reports. Single user (non-printable) and departmental licenses expires after 12 month period. In the case of departmental site license purchases, the publisher requires all email addresses for the licensed users prior to fulfillment.
This report will prove invaluable to leading firms striving for new revenue pockets if they wish to better understand the industry and its underlying dynamics. It will be useful for companies that would like to expand into different industries or to expand their existing operations in a new region.
There is great deal of radioactive waste generated globally that drives the waste management market
Tens of thousands of metric tonnes of radioactive waste collected by commercial power plants and years of national military operations continues to age at various locations across the world. The stockpile grows as the hazardous substance and the containers it is stored in await permanent disposal. Globally, the amount of HLW is rising by around 12,000 tonnes each year. Every year, a 1000-megawatt nuclear power station generates around 27 t of spent nuclear fuel (unreprocessed). The quantity of ash generated by coal power stations in the United States is estimated to be 130,000,000 t per year, with fly ash releasing 100 times more radiation than a comparable nuclear power plant.
The nuclear power sector also produces waste even though in lesser quantity
In comparison to other industrial operations, the nuclear power sector generates a modest quantity of waste. 97 percent of garbage generated is categorized as low- or intermediate-level waste (LLW or ILW). For many years, such garbage has been widely disposed of in near-surface sites. Only 0.2 percent of all radioactive waste by volume is designated as high-level waste in France, where fuel is reprocessed (HLW). The quantity of HLW generated (including spent fuel when deemed waste) during nuclear production is minimal; a typical big reactor (1 gigawatt) generates around 25-30 tonnes of used fuel per year.
Environmentalists And Nuclear Power Specialists Have Expressed Concern About Nuclear Waste Management
Environmentalists and nuclear power specialists have expressed concern about the manner waste is being kept at Europe’s largest nuclear power facility in crisis-torn Ukraine. The Guardian uncovered nearly 3,000 spent nuclear fuel rods inside metal barrels within towering concrete containers in an open-air yard adjacent to a perimeter fence at Zaporizhia during a recent visit to the facility, which is 124 miles (200 km) from the present front line.
Another risk is the unintentional release of radiation from spent nuclear fuel rods kept in pools of water at reactor sites. This would occur if the water in the pools leaked, causing the fuel to overheat. While the amount of spent fuel held on site is very minor, a far bigger amount of highly radioactive waste (including spent fuel) is stored at five regional sites around Ukraine. On February 27, one of them near Kyiv was apparently struck by a Russian aircraft. The fact that no radioactive debris was released was primarily down to chance and cannot be relied on in the future.
What Are These Questions You Should Ask Before Buying A Market Research Report?
- How is the nuclear waste management market evolving?
- What is driving and restraining the nuclear waste management market?
- How will each nuclear waste management submarket segment grow over the forecast period and how much revenue will these submarkets account for in 2032?
- How will the market shares for each nuclear waste management submarket develop from 2022 to 2032?
- What will be the main driver for the overall market from 2022 to 2032?
- Will leading nuclear waste management markets broadly follow the macroeconomic dynamics, or will individual national markets outperform others?
- How will the market shares of the national markets change by 2032 and which geographical region will lead the market in 2032?
- Who are the leading players and what are their prospects over the forecast period?
- What are the nuclear waste management projects for these leading companies?
- How will the industry evolve during the period between 2020 and 2032? What are the implication of nuclear waste management projects taking place now and over the next 10 years?
- Is there a greater need for product commercialisation to further scale the nuclear waste management market?
- Where is the nuclear waste management market heading? And how can you ensure you are at the forefront of the market?
- What can be the best investment options for new product and service lines?
- What are the key prospects for moving companies into a new growth path? C-suite?
- Our 522-page report provides 414 tables and 393 charts/graphs exclusively to you.
- The report highlights key lucrative areas in the industry so you can target them – NOW.
- Contains in-depth analyse of global, regional and national sales and growth
- Highlights for you the key successful trends, changes and revenue projections made by your competitors
Forecasts to 2032 and other analyses reveal the commercial prospects
- In addition to revenue forecasting to 2032, our new study provides you with recent results, growth rates, and market shares.
- You find original analyses, with business outlooks and developments.
- Discover qualitative analyses (including market dynamics, drivers, opportunities, restraints and challenges), cost structure, impact of rising nuclear waste management prices and recent developments.
Global Nuclear Waste Management Market (COVID Impact Analysis)
- Value (USD Million)
- Volume (Thousand MT)
- Storage Management
- Disposal Management
- Other Solutions
- Very-Low-Level Waste (VLLW)
- Low-Level Waste (LLW)
- Intermediate-Level Waste (ILW)
- High Level Waste (HLW)
- Other Waste Type
- Decommissioning/ Remediation
- Nuclear Reactor Operations
- Military and Defense Programs
- Nuclear Applications
- Nuclear Fuel Reprocessing/Fabrication
- Not Determined
North America Nuclear Waste Management Market, 2022 to 2032 Market Outlook
- U.S. Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
- Canada Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
- Mexico Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
- Germany Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
- Spain Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
- Russia Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
- France Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
- Ukraine Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
- Rest of Europe Market Forecast & COVID Impact Analysis
- China Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
- Japan Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
- India Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
- Australia Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
- South Korea Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
- Rest of Asia Pacific Market Forecast & COVID Impact Analysis
- Brazil Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
- Argentina Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
- Namibia Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
- South Africa Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
- Kazakhstan Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
- Rest of Latin America, Middle East and Africa Nuclear Waste Management Market, 2022 to 2032 Market Forecast & COVID Impact Analysis
Leading companies and the potential for market growth
- Augean PLC
- Bechtel Group Inc.
- Enercon Services Inc.
- EnergySolutions Inc.
- Fluor Corporation
- Holtec International
- Perma-Fix Environmental Services, Inc.
- Stericycle Inc.
- Studsvik AB
- Toshiba Corp
- US Ecology
- Veolia Environnement SA
How the Nuclear Waste Management Market, 2022 to 2032 Market report helps you?
In summary, our 522-page report provides you with the following knowledge:
- Revenue forecasts to 2032 for Nuclear Waste Management Market, 2022 to 2032 Market, with forecasts for value, volume, solution, type, source each forecasted at a global and regional level– discover the industry’s prospects, finding the most lucrative places for investments and revenues
- Revenue forecasts to 2032 for 4 regional and 20 key national markets – See forecasts for the Nuclear Waste Management Market, 2022 to 2032 market in North America, Europe, Asia-Pacific and LAMEA. Also forecasted is the market in the US, Canada, Mexico, Brazil, Germany, France, China, India, Japan, and Australia among other prominent economies.
- Prospects for established firms and those seeking to enter the market– including company profiles for 20 of the major companies involved in the Nuclear Waste Management Market, 2022 to 2032 Market.
Information found nowhere else
With our newly report title, you are less likely to fall behind in knowledge or miss out on opportunities. See how our work could benefit your research, analyses, and decisions. Visiongain’s study is for everybody needing commercial analyses for the Nuclear Waste Management Market, 2022 to 2032 Market and leading companies. You will find data, trends and predictions.
Please Note: Prior to initiating fulfillment of an order, the client will be required to sign a document detailing the purchase terms for a publication from this publisher.
The publisher is using a password system to access all reports. Single user (non-printable) and departmental licenses expires after 12 month period. In the case of departmental site license purchases, the publisher requires all email addresses for the licensed users prior to fulfillment.
Table of Contents
522 Pages
- 1. Report Overview
- 1.1 Introduction to Nuclear Waste Management Market
- 1.2 Global Nuclear Waste Management Market Overview
- 1.3 What are the Objectives of this Report?
- 1.4 What is the Scope of the Report?
- 1.5 Nuclear Waste Management Market Definition
- 1.6 Why You Should Read This Report
- 1.7 What This Report Delivers
- 1.8 Key Questions Answered By This Analytical Report Include:
- 1.9 Who is This Report for?
- 1.10 Research Methodology
- 1.10.1 Primary Research
- 1.10.2 Secondary Research
- 1.10.3 Market Evaluation & Forecasting Methodology
- 1.11 Frequently Asked Questions (FAQs)
- 1.12 Associated Visiongain Reports
- 1.13 About Visiongain
- 2 Executive Summary
- 3 Nuclear Waste Management Industry Structure
- 3.1 Overview
- 3.2 Health Hazards
- 3.3 Waste Management
- 3.4 Nuclear Waste Treatment and Disposal Techniques
- 3.4.1 Dry cask storage
- 3.4.2 Saltcrete
- 3.4.3 Spent Fuel Pool (SFP)
- 3.4.4 Ocean Floor Disposal
- 3.4.5 Synroc
- 3.4.6 Vitrification
- 3.5 Methods of treating nuclear waste are as follows:
- 3.5.1 Nuclear Transmutation
- 3.5.2 Nuclear Reprocessing
- 4 Global Market Dynamics
- 4.1 COVID-19 Impact
- 4.2 Drivers, Restraints, Opportunities, and Challenges
- 4.2.1 Market Driving Factors
- 4.2.1.1 There is great deal of radioactive waste generated globally that drives the waste management market
- 4.2.1.2 The nuclear power sector also produces waste even though in lesser quantity
- 4.2.1.3 With time the radioactivity of the waste reduces along with the reducing hazard associated
- 4.2.2 Market Restraining Factors
- 4.2.2.1 Nuclear waste, if not disposed properly can be harmful to animals and plants
- 4.2.2.2 Special care must be taken while managing nuclear waste
- 4.2.2.3 Scavenging has become a problem in underdeveloped countries
- 4.2.3 Opportunities in the Global Market
- 4.2.3.1 Nuclear waste storage in deep geological repository
- 4.2.3.2 Innovation of new technologies and methods of reducing as well as disposing radioactive waste
- 4.2.4 Challenges in the Global Market
- 4.2.4.1 Nuclear fission products have longer half-lives
- 4.2.4.2 It is difficult to store radioactive waste forever as it is afterall of hazardous nature
- 4.3 SWOT Analysis
- 4.3.1 Market Strengths
- 4.3.1.1 Increase in nuclear power demand has led to increasing demand in handling the resulting waste
- 4.3.1.2 The toxic nature makes extremely important to handle nuclear waste
- 4.3.2 Market Weaknesses
- 4.3.2.1 Transporting nuclear waste is a highly risky affair
- 4.3.2.2 Radioactive waste management is very expensive and huge capital is required in the process
- 4.3.3 Market Opportunities
- 4.3.3.1 Emerging P&T technology has a potential to provide solution to radioactive waste management
- 4.3.3.2 There is a chance to innovate and reshape the uses that nuclear waste can be put to
- 4.3.4 Market Threats
- 4.3.4.1 The Steel Storage Containers In Which Most Of The Nuclear Waste Is Stored Is Not A Permanent Solution
- 4.3.4.2 Radioactive Waste Is Detrimental To Environment As Well As To Human Health
- 4.4 PEST Analysis
- 5 Global Nuclear Waste Management Market Analysis
- 5.1 Global Market Outlook
- 5.2 France, Japan, Germany Amongst Other Countries Have Begun Repurposing Plutonium and Uranium Waste
- 5.3 Countries are Seeking Disposal of HLW in a Safe and Environmentally Acceptable Manner
- 5.4 Global Market Size Estimation and Forecast
- 5.4.1 Pre-COVID-19 Market Scenario
- 5.4.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 5.5 Regional Market Size Estimation and Forecast
- 5.5.1 Pre-COVID-19 Market Scenario
- 5.5.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 5.6 Global Market Size Estimation and Forecast by Solution
- 5.6.1 Storage Management
- 5.6.2 Disposal Management
- 5.6.3 Pre-COVID-19 Market Scenario
- 5.6.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 5.7 Global Market Size Estimation and Forecast by Waste Type
- 5.7.1 Very-Low-Level Waste (VLLW)
- 5.7.2 Low-Level Waste (LLW)
- 5.7.3 Intermediate-Level Waste (ILW)
- 5.7.4 High-Level Waste (HLW)
- 5.7.5 Pre-COVID-19 Market Scenario
- 5.7.6 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 5.8 Global Market Size Estimation and Forecast by Source
- 5.8.1 Decommissioning/ Remediation
- 5.8.2 Nuclear Reactor Operations
- 5.8.3 Military and Defence Programs
- 5.8.4 Nuclear Applications
- 5.8.5 Nuclear Fuel Reprocessing/ Fabrication
- 5.8.6 Pre-COVID-19 Market Scenario
- 5.8.7 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 6 North America Nuclear Waste Management Market Analysis
- 6.1 North America Market Outlook
- 6.1.1 The US is now developing a new HLW management and disposal plan
- 6.1.2 The APM is the First High-Level Waste Management Effort in North America
- 6.2 North America Market Size Estimation and Forecast
- 6.2.1 Pre-COVID-19 Market Scenario
- 6.2.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 6.3 Country Market Size Estimation and Forecast
- 6.3.1 Pre-COVID-19 Market Scenario
- 6.3.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 6.4 North America Market Size Estimation and Forecast by Solution
- 6.4.1 Pre-COVID-19 Market Scenario
- 6.4.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 6.5 North America Market Size Estimation and Forecast by Waste Type
- 6.5.1 Pre-COVID-19 Market Scenario
- 6.5.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 6.6 North America Market Size Estimation and Forecast by Source
- 6.6.1 Pre-COVID-19 Market Scenario
- 6.6.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 6.7 US Nuclear Waste Management Market Analysis
- 6.7.1 The United States' current nuclear waste standards and regulations have proved tough to execute
- 6.7.2 The US is developing cutting-edge advanced reactor designs
- 6.7.3 Pre-COVID-19 Market Scenario
- 6.7.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 6.8 Canada Nuclear Waste Management Market Analysis
- 6.8.1 Canada has a Waste Management Programme in Place to Meet the Rising Need for Nuclear Energy
- 6.8.2 30,000 nuclear waste shipment would pass through Ontario cities and farms
- 6.8.3 Pre-COVID-19 Market Scenario
- 6.8.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 6.9 Mexico Nuclear Waste Management Market Analysis
- 6.9.1 Mexico's Two Nuclear Power Facilities Generate 4.7 Percent Of The Country's Total Electricity
- 6.9.2 CNSNS Ensures that Radiation Safety Regulations are Followed in Mexico
- 6.9.3 Pre-COVID-19 Market Scenario
- 6.9.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7 Europe Nuclear Waste Management Market Analysis
- 7.1 Europe Market Outlook
- 7.1.1 Nuclear Reactors in Europe have the Potential to Create 6.6 million m3 of Radioactive Waste Throughout their Lifetimes
- 7.1.2 Technical Advancements may Enable EU to Achieve Carbon Neutrality by 2050
- 7.2 Europe Market Size Estimation and Forecast
- 7.2.1 Pre-COVID-19 Market Scenario
- 7.2.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.3 Country Market Size Estimation and Forecast
- 7.3.1 Pre-COVID-19 Market Scenario
- 7.3.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.4 Europe Market Size Estimation and Forecast by Solution
- 7.4.1 Pre-COVID-19 Market Scenario
- 7.4.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.5 Europe Market Size Estimation and Forecast by Waste Type
- 7.5.1 Pre-COVID-19 Market Scenario
- 7.5.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.6 Europe Market Size Estimation and Forecast by Source
- 7.6.1 Pre-COVID-19 Market Scenario
- 7.6.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.7 Germany Nuclear Waste Management Market Analysis
- 7.7.1 Germany has Taken a Number of Political Steps in Recent Years to Control Nuclear Waste
- 7.7.2 Germany is Laying the Groundwork for Achieving Net-Zero Greenhouse Gas Emissions
- 7.7.3 Pre-COVID-19 Market Scenario
- 7.7.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.8 Russia Nuclear Waste Management Market Analysis
- 7.8.1 Fast Reactors are Being Phased in by Russia
- 7.8.2 TUK Barrels are Used in Russia to Carry Spent Nuclear Fuel
- 7.8.3 Pre-COVID-19 Market Scenario
- 7.8.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.9 France Nuclear Waste Management Market Analysis
- 7.9.1 Nuclear Power is the Dominant Source of Energy in France
- 7.9.2 The Major Producers of Radioactive Waste in France are EDF, Orano, the CEA, and Atomic Energy
- 7.9.3 Pre-COVID-19 Market Scenario
- 7.9.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.10 Ukraine Nuclear Waste Management Market Analysis
- 7.10.1 Ukraine Considers Nuclear Power as One of the Most Cost-Effective Low Carbon Energy Sources
- 7.10.2 The Ukrainian Government Built a Storage Facility for Ukraine's Radioactive Waste for the Next 100 Years Surrounding Chernobyl
- 7.10.3 Pre-COVID-19 Market Scenario
- 7.10.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.11 Spain Nuclear Waste Management Market Analysis
- 7.11.1 Around a Quarter of Spain's Electricity is Generated by Nuclear Power
- 7.11.2 High-Level Waste is Stored in Specially Constructed Pools in Spain
- 7.11.3 Pre-COVID-19 Market Scenario
- 7.11.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.12 Rest of Europe Nuclear Waste Management Market Analysis
- 7.12.1 In Sweden, Radioactive Waste is Deposited in Reactor Storage Ponds
- 7.12.2 Belgium is Performing Research on the Treatment of High-Level Nuclear Waste
- 7.12.3 Pre-COVID-19 Market Scenario
- 7.12.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8 Asia-Pacific Nuclear Waste Management Market Analysis
- 8.1 Asia-Pacific Market Outlook
- 8.1.1 Almost a Quarter of the World's Nuclear Power Facilities are Now Operational in Asia
- 8.1.2 In APAC Region, China and India are Emerging as Leaders in Nuclear Power Generation
- 8.2 Asia-Pacific Market Size Estimation and Forecast
- 8.2.1 Pre-COVID-19 Market Scenario
- 8.2.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.3 Country Market Size Estimation and Forecast
- 8.3.1 Pre-COVID-19 Market Scenario
- 8.3.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.4 Asia-Pacific Market Size Estimation and Forecast by Solution
- 8.4.1 Pre-COVID-19 Market Scenario
- 8.4.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.5 Asia-Pacific Market Size Estimation and Forecast by Waste Type
- 8.5.1 Pre-COVID-19 Market Scenario
- 8.5.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.6 Asia-Pacific Market Size Estimation and Forecast by Source
- 8.6.1 Pre-COVID-19 Market Scenario
- 8.6.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.7 China Nuclear Waste Management Market Analysis
- 8.7.1 China is the World's Third-Largest Nuclear Power Producer
- 8.7.2 China has begun transferring some spent fuel to the Lanzhou Nuclear Fuel Complex
- 8.7.3 Pre-COVID-19 Market Scenario
- 8.7.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.8 India Nuclear Waste Management Market Analysis
- 8.8.1 Nuclear Power is Critical for India to Meet its Net-Zero Target
- 8.8.2 India currently lacks expertise with nuclear waste management
- 8.8.3 Pre-COVID-19 Market Scenario
- 8.8.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.9 Japan Nuclear Waste Management Market Analysis
- 8.9.1 Japan will Soon Become One of the World's Leading Markets for Nuclear Decommissioning
- 8.9.2 Japan's Nuclear Waste Management is Being Monitored by a Number of Government Entities
- 8.9.3 Pre-COVID-19 Market Scenario
- 8.9.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.10 South Korea Nuclear Waste Management Market Analysis
- 8.10.1 South Korea is Promoting the Production of SMRs
- 8.10.2 An Innovative System for Recycling Low-Level Radioactive Waste has been Developed by a South Korean State Research Institute
- 8.10.3 Pre-COVID-19 Market Scenario
- 8.10.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.11 Australia Nuclear Waste Management Market Analysis
- 8.11.1 Australia Does Not Have Any Nuclear Power Plants
- 8.11.2 Australia produces largely low-level nuclear waste
- 8.11.3 Pre-COVID-19 Market Scenario
- 8.11.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.12 Rest of Asia-Pacific Nuclear Waste Management Market Analysis
- 8.12.1 Malaysia And Indonesia are Attempting to Harness Nuclear Power
- 8.12.2 Nuclear Power Stations are Still Being Debated in Thailand and Singapore
- 8.12.3 Pre-COVID-19 Market Scenario
- 8.12.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9 LAMEA Nuclear Waste Management Market Analysis
- 9.1 LAMEA Market Outlook
- 9.1.1 Nuclear Power is Becoming a Part of LAMEA's Energy Mix
- 9.1.2 Middle East Faces Risk of Nuclear Proliferation
- 9.2 LAMEA Market Size Estimation and Forecast
- 9.2.1 Pre-COVID-19 Market Scenario
- 9.2.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.3 Country Market Size Estimation and Forecast
- 9.3.1 Pre-COVID-19 Market Scenario
- 9.3.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.4 LAMEA Market Size Estimation and Forecast by Solution
- 9.4.1 Pre-COVID-19 Market Scenario
- 9.4.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.5 LAMEA Market Size Estimation and Forecast by Waste Type
- 9.5.1 Pre-COVID-19 Market Scenario
- 9.5.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.6 LAMEA Market Size Estimation and Forecast by Source
- 9.6.1 Pre-COVID-19 Market Scenario
- 9.6.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.7 Brazil Nuclear Waste Management Market Analysis
- 9.7.1 Brazil is the Only Country Without Nuclear Weapons
- 9.7.2 In Brazil, the CNEN is in charge of radioactive waste management and disposal
- 9.7.3 Pre-COVID-19 Market Scenario
- 9.7.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.8 Argentina Nuclear Waste Management Market Analysis
- 9.8.1 Argentina Generates Around 6% of its Power from Nuclear Reactors
- 9.8.2 IAEA is assisting Argentine experts in adapting current technologies for properly treating nuclear waste
- 9.8.3 Pre-COVID-19 Market Scenario
- 9.8.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.9 South Africa Nuclear Waste Management Market Analysis
- 9.9.1 South Africa is Investing in a New High-Temperature Reactor Idea
- 9.9.2 South Africa is the only country on the continent that currently operates a nuclear power plant
- 9.9.3 Pre-COVID-19 Market Scenario
- 9.9.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.10 Namibia Nuclear Waste Management Market Analysis
- 9.10.1 IAEA Prompted Namibia to Harness Nuclear Power
- 9.10.2 Namibia signs a CPF for the years 2020–2025
- 9.10.3 Pre-COVID-19 Market Scenario
- 9.10.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.11 Kazakhstan Nuclear Waste Management Market Analysis
- 9.11.1 Kazakhstan is Exploring the Deployment of Small Reactors to Meet Carbon Neutrality Target
- 9.11.2 Kazakhstan Possesses 12% of the World's Uranium Reserves and Hence has Huge Radioactive Waste
- 9.11.3 Pre-COVID-19 Market Scenario
- 9.11.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.12 Rest of LAMEA Nuclear Waste Management Market Analysis
- 9.12.1 UAE is Working with International Organisations to Implement Best Nuclear Practises
- 9.12.2 Iran and Israel have Strict Policies on Radioactive Waste Management
- 9.12.3 Pre-COVID-19 Market Scenario
- 9.12.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 10 Competitive Landscape
- 10.1 Company Market Share Analysis
- 10.2 Key Business Strategy Analysis
- 10.3 New Product/Service Launch as the Key Business Strategy In the Global Market
- 10.4 Acquisition as the Key Business Strategy In the Global Market
- 10.5 Partnership as the Key Business Strategy In the Global Market
- 10.6 Collaboration as the Key Business Strategy In the Global Market
- 10.7 Expansion as the Key Business Strategy In the Global Market
- 10.8 Joint Venture as the Key Business Strategy In the Global Market
- 10.9 Other Strategies
- 11 Leading Company Profiles
- 11.1 Fluor Corporation
- 11.1.1 Company Snapshot
- 11.1.2 Company Overview
- 11.1.3 Company Financial Profile
- 11.1.4 Company Product Benchmarking
- 11.1.5 Company Recent Developments
- 11.2 Toshiba
- 11.2.1 Company Snapshot
- 11.2.2 Company Overview
- 11.2.3 Company Financial Profile
- 11.2.4 Company Product Benchmarking
- 11.2.5 Company Recent Developments
- 11.3 Bechtel Group Inc.
- 11.3.1 Company Snapshot
- 11.3.2 Company Overview
- 11.3.3 Company Product Benchmarking
- 11.3.4 Company Recent Developments
- 11.4 Augean PLC
- 11.4.1 Company Snapshot
- 11.4.2 Company Overview
- 11.4.3 Company Product Benchmarking
- 11.4.4 Company Recent Developments
- 11.5 Perma-Fix Environmental Services, Inc.
- 11.5.1 Company Snapshot
- 11.5.2 Company Overview
- 11.5.3 Company Financial Profile
- 11.5.4 Company Product Benchmarking
- 11.5.5 Company Recent Developments
- 11.6 Veolia Environnement SA
- 11.6.1 Company Snapshot
- 11.6.2 Company Overview
- 11.6.3 Company Financial Profile
- 11.6.4 Company Product Benchmarking
- 11.6.5 Company Recent Developments
- 11.7 Studsvik AB
- 11.7.1 Company Snapshot
- 11.7.2 Company Overview
- 11.7.3 Company Financial Profile
- 11.7.4 Company Product Benchmarking
- 11.7.5 Company Recent Developments
- 11.8 Enercon Services Inc.
- 11.8.1 Company Snapshot
- 11.8.2 Company Overview
- 11.8.3 Company Product Benchmarking
- 11.8.4 Company Recent Developments
- 11.9 EnergySolutions Inc.
- 11.9.1 Company Snapshot
- 11.9.2 Company Overview
- 11.9.3 Company Product Benchmarking
- 11.9.4 Company Recent Developments
- 11.10 US Ecology
- 11.10.1 Company Snapshot
- 11.10.2 Company Overview
- 11.10.3 Company Financial Profile
- 11.10.4 Company Product Benchmarking
- 11.10.5 Company Recent Developments
- 11.11 Stericycle Inc.
- 11.11.1 Company Snapshot
- 11.11.2 Company Overview
- 11.11.3 Company Financial Profile
- 11.11.4 Company Product Benchmarking
- 11.11.5 Company Recent Developments
- 11.12 Holtec International
- 11.12.1 Company Snapshot
- 11.12.2 Company Overview
- 11.12.3 Company Product Benchmarking
- 11.12.4 Company Recent Developments
- 12 Conclusion and Recommendations
- 12.1 Conclusion
- 12.2 Recommendations
- 13 Glossary Terms
- List of Tables
- Table 1. Global Nuclear Waste Management Market Forecast, 2022-2032 (USD Mn, AGR (%), CAGR(%))
- Table 2. Global Nuclear Waste Management Market Forecast by Volume, 2022-2032 (Thousand MT, AGR (%), CAGR(%))
- Table 3. Global Nuclear Waste Management Market Snapshot, 2022 & 2032 (US$million, CAGR %)
- Table 4. Global Nuclear Waste Management Market PEST Analysis 2022-2032
- Table 5. Global Nuclear Waste Management Market Forecast, 2022-2032 (USD Mn, AGR (%), CAGR(%))
- Table 6. Global Nuclear Waste Management Market Forecast by Volume, 2022-2032 (Thousand MT, AGR (%), CAGR(%))
- Table 7. Global Nuclear Waste Management Market Forecast, 2022-2032 (USD Mn, AGR (%), CAGR(%))(V–Shaped Recovery)
- Table 8. Global Nuclear Waste Management Market Forecast by Volume, 2022-2032 (Thousand MT, AGR (%), CAGR(%))(V–Shaped Recovery)
- Table 9. Global Nuclear Waste Management Market Forecast, 2022-2032 (USD Mn, AGR (%), CAGR(%))(W–Shaped Recovery)
- Table 10. Global Nuclear Waste Management Market Forecast by Volume, 2022-2032 (Thousand MT, AGR (%), CAGR(%))(W–Shaped Recovery)
- Table 11. Global Nuclear Waste Management Market Forecast, 2022-2032 (USD Mn, AGR (%), CAGR(%))(U–Shaped Recovery)
- Table 12. Global Nuclear Waste Management Market Forecast by Volume, 2022-2032 (Thousand MT, AGR (%), CAGR(%))(U–Shaped Recovery)
- Table 13. Global Nuclear Waste Management Market Forecast, 2022-2032 (USD Mn, AGR (%), CAGR(%))(L–Shaped Recovery)
- Table 14. Global Nuclear Waste Management Market Forecast by Volume, 2022-2032 (Thousand MT, AGR (%), CAGR(%))(L–Shaped Recovery)
- Table 15. Global Nuclear Waste Management Market by Region, 2022-2032 (USD Mn, AGR (%), CAGR(%))
- Table 16. Global Nuclear Waste Management Market by Region, 2022-2032 (Thousand MT, AGR (%), CAGR(%))
- Table 17. Global Nuclear Waste Management Market by Region, 2022-2032 (USD Mn, AGR (%), CAGR(%))(V–Shaped Recovery)
- Table 18. Global Nuclear Waste Management Market by Region, 2022-2032 (Thousand MT, AGR (%), CAGR(%))(V–Shaped Recovery)
- Table 19. Global Nuclear Waste Management Market by Region, 2022-2032 (USD Mn, AGR (%), CAGR(%))(W–Shaped Recovery)
- Table 20. Global Nuclear Waste Management Market by Region, 2022-2032 (Thousand MT, AGR (%), CAGR(%))(W–Shaped Recovery)
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