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lalsingh228-blog · 1 year ago

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Air Core Reactors Market: Ready To Fly on high Growth Trends

Advance Market Analytics added research publication document on Worldwide Air Core Reactors Market breaking major business segments and highlighting wider level geographies to get deep dive analysis on market data. The study is a perfect balance bridging both qualitative and quantitative information of Worldwide Air Core Reactors market. The study provides valuable market size data for historical (Volume** & Value) from 2018 to 2022 which is estimated and forecasted till 2028*. Some are the key & emerging players that are part of coverage and have being profiled are Siemens AG (Germany), ABB Limited (Switzerland), Alstom SA (France), Toshiba (Japan), TRENCH Group (Italy), CG Power and Industrial Solutions (India), Zaporozhtransformator (Ukraine), Fuji Electric (Japan), Mitsubishi Electric Corporation (Japan), Hyosung Corporation (South Korea). Get free access to Sample Report in PDF Version along with Graphs and Figures @ https://www.advancemarketanalytics.com/sample-report/95713-global-air-core-reactors-market Air core reactors are widely used in the electrical plants for power distribution and transmission systems and electric power systems. Air core reactors market has high growth prospects owing to increasing industrialization in the developing economies. Further, the growing focus on advanced power generation technologies to increase the efficiency of electrical power plants. In addition, growth in power generation industry expected to drive the demand for air core reactors over the forecasted period.

Keep yourself up-to-date with latest market trends and changing dynamics due to COVID Impact and Economic Slowdown globally. Maintain a competitive edge by sizing up with available business opportunity in Air Core Reactors Market various segments and emerging territory. Influencing Market Trend

Increasing Applications in the Electrical Utilities

Emphasizing On Development of Advanced Power Generation Technologies

Market Drivers

Increasing Demand for the Industrial Applications

Growth in the Power Generation Industry

Opportunities:

Increasing Applications in the Electrical Plants

Rising Demand from the Developing Economies Owing To Growth in Industrialization

Challenges:

Lack of Suitable Infrastructure in the Low and Middle Income Group Countries

Have Any Questions Regarding Global Air Core Reactors Market Report, Ask Our Experts@ https://www.advancemarketanalytics.com/enquiry-before-buy/95713-global-air-core-reactors-market Analysis by Type (Dry Reactors, Oil Immersed Reactors), Application (Current Limiting, Power Flow Control, Capacitor Switching, Harmonic Filtering, Reactive Power Compensation, HVDC Smoothing), Sales Channel (Direct Sales, Distributor), Product (Capacitor Reactors, Current Limiting Reactors, Electric Arc Furnace Reactors/Buffer Reactors, Duplex Reactors, Load Flow Control Reactors)

Competitive landscape highlighting important parameters that players are gaining along with the Market Development/evolution

• % Market Share, Segment Revenue, Swot Analysis for each profiled company [Siemens AG (Germany), ABB Limited (Switzerland), Alstom SA (France), Toshiba (Japan), TRENCH Group (Italy), CG Power and Industrial Solutions (India), Zaporozhtransformator (Ukraine), Fuji Electric (Japan), Mitsubishi Electric Corporation (Japan), Hyosung Corporation (South Korea),]

• Business overview and Product/Service classification

• Product/Service Matrix [Players by Product/Service comparative analysis]

• Recent Developments (Technology advancement, Product Launch or Expansion plan, Manufacturing and R&D etc)

• Consumption, Capacity & Production by Players The regional analysis of Global Air Core Reactors Market is considered for the key regions such as Asia Pacific, North America, Europe, Latin America and Rest of the World. North America is the leading region across the world. Whereas, owing to rising no. of research activities in countries such as China, India, and Japan, Asia Pacific region is also expected to exhibit higher growth rate the forecast period 2023-2028. Table of Content Chapter One: Industry Overview Chapter Two: Major Segmentation (Classification, Application and etc.) Analysis Chapter Three: Production Market Analysis Chapter Four: Sales Market Analysis Chapter Five: Consumption Market Analysis Chapter Six: Production, Sales and Consumption Market Comparison Analysis Chapter Seven: Major Manufacturers Production and Sales Market Comparison Analysis Chapter Eight: Competition Analysis by Players Chapter Nine: Marketing Channel Analysis Chapter Ten: New Project Investment Feasibility Analysis Chapter Eleven: Manufacturing Cost Analysis Chapter Twelve: Industrial Chain, Sourcing Strategy and Downstream Buyers Read Executive Summary and Detailed Index of full Research Study @ https://www.advancemarketanalytics.com/reports/95713-global-air-core-reactors-market Highlights of the Report • The future prospects of the global Air Core Reactors market during the forecast period 2023-2028 are given in the report. • The major developmental strategies integrated by the leading players to sustain a competitive market position in the market are included in the report. • The emerging technologies that are driving the growth of the market are highlighted in the report. • The market value of the segments that are leading the market and the sub-segments are mentioned in the report. • The report studies the leading manufacturers and other players entering the global Air Core Reactors market. Thanks for reading this article; you can also get individual chapter wise section or region wise report version like North America, Middle East, Africa, Europe or LATAM, Southeast Asia. Contact US : Craig Francis (PR & Marketing Manager) AMA Research & Media LLP Unit No. 429, Parsonage Road Edison, NJ New Jersey USA – 08837 Phone: +1 201 565 3262, +44 161 818 8166 [email protected]

#Global Air Core Reactors Market #Air Core Reactors Market Demand #Air Core Reactors Market Trends #Air Core Reactors Market Analysis #Air Core Reactors Market Growth #Air Core Reactors Market Share #Air Core Reactors Market Forecast #Air Core Reactors Market Challenges

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research1994 · 27 days ago

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linhgd9 · 4 years ago

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Paralleling Reactor Market and Ecosystem, Future Scope, Competitive Landscape and Revenue Model (ABB, Siemens, Crompton Greaves, General Electric, More)

Global Paralleling Reactor Market report provides in-depth analysis of Top Players, Geography, End users, Applications, Competitor analysis, Revenue, Price, Gross Margin, Market Share, Import-Export data, Trends and Forecast. The report offers a comprehensive insight into the development policies and plans in addition to manufacturing processes and cost structures.

Effect of COVID-19: Paralleling Reactor Market report investigate the effect of Coronavirus (COVID-19) on the Paralleling Reactor industry. Since December 2020, the COVID-19 infection spread to practically 180+ nations around the world with the World Health Organization pronouncing it a general wellbeing crisis. The worldwide effects of the Covid infection 2020 (COVID-19) are now beginning to be felt, and will essentially influence the Paralleling Reactor market in 2020

The major types mentioned in the report are Oil-Immersed, Air-Core, , and the applications covered in the report are Electric Utilities, Industrial Verticals, .

Complete report on Paralleling Reactor market spread across 160 pages, profiling companies and supported with tables and figures is now available @ https://www.insidemarketreports.com/sample-request/14/769688/Paralleling-Reactor

With tables and figures helping analyze worldwide Paralleling Reactor market, this research provides key statistics on the state of the industry and is a valuable source of guidance and direction for companies and individuals interested in the market. Companies profiled and studied for this Paralleling Reactor market report include ABB, Siemens, Crompton Greaves, General Electric, Zaporozhtransformator, Fuji Electric, Toshiba, Mitsubishi Electric, Nissin Electric, TBEA, Trench Group, Hilkar, and others.

We Empower industries through current Market Trends, Business Intelligence, Qualitative & Quantitative Market Assessment and Solutions for the critical challenges

The report is based upon arduous data analysis carried out by industry doyens. The all-inclusive analysis of these data provides an in-depth and detailed insight into the global Paralleling Reactor market. The report further provides the new and existing players with information such as company profiles, facts and figures, product picture and specifications, sales, market share and contact information.

For the data information by region, company, type and application, 2020 is considered as the base year. Whenever data information was unavailable for the base year, the prior year has been considered.

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gojennybaker · 4 years ago

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Shunt Reactor Market 2021 Industry Challenges, Top Manufacturers, Key Countries with Forecast to 2025

The report mainly examines the size, recent trends and development status of the Shunt Reactors market, as well as investment opportunities, government policies, market dynamics (factors, constraints, opportunities), supply chain and competitive environment. Technological innovation and development will further optimize product performance, making it more widely used in subsequent applications. This report identifies additional transactions for key geographic segments of the global Shunt Reactors market and provides detailed information on current and past stocks. Current trends, future challenges, future improvements in investment in the region and many other factors were reviewed and proposed. To Get PDF Sample Copy of the Report: https://www.adroitmarketresearch.com/contacts/request-sample/991 This report introduces for the first time the fundamentals of the Shunt Reactors market: definitions, classification, application and market overview; Specifications; Manufacturing process; Cost structure, raw materials, etc. We then analyzed the key conditions of the global market, including product prices, profit, capacity, production, supply, demand, market growth and forecasts A recent market research report, Shunt Reactors Profiles Market, published by Adroit Market Research, provides a comprehensive assessment of the current state of the market. In addition, the report explain on the different profile and market segments of Shunt Reactors and provides a comprehensive view of the growth potential of each market segment during the forecast period (2020-2025). Top Key players profiled in the report include: Mitsubishi Electric Power Products, Inc., ABB Ltd, Siemens AG, CG Power, Fuji Electric Co., Ltd., General Electric Company, TBEA Co., Ltd, HICO America, Nissin Electric Co., Ltd, Zaporozhtransformator, and others. Check Discount on report @ https://www.adroitmarketresearch.com/contacts/discount/991 Key Segments of the Global Shunt Reactor Market Type Overview, 2015-2025 (USD Billion) Oil-immersed Shunt Reactor Air-Core Dry Shunt Reactor End-user Overview, 2015-2025 (USD Billion) Electrical Utilities Industrial Verticals Shunt Reactors market value and volume forecasts are provided for each type and application. During the same period, the report also provides detailed analysis of market value and consumption for each region. These ideas help shape future strategies and take the necessary steps. It offers a feasibility study for investment in new projects and a SWOT analysis as well as an analysis of industry barriers. The results and conclusions of the studies are indicated at the end. Shunt Reactors market competition offers data and details on companies. It provides complete analysis and accurate statistics on the incomes of the major participating players for the period 2020-2025. The report also presents the best details of the Shunt Reactors market, determining micro and macroeconomic factors that appear to have a dominant and long-term influence, driving popular trends in the global Shunt Reactors market. Get Full Report @ https://www.adroitmarketresearch.com/industry-reports/shunt-reactor-market Research objectives of this report: Analyze the global status of Shunt Reactors, future outlook, growth opportunities, key markets and key players. Imagine the development of Shunt Reactors in various regions such as the USA, Europe and China. Strategic identification of key players and a comprehensive analysis of their plans and development strategies. The Shunt Reactors Market Report helps you make informed business decisions by fully understanding the market and conducting in-depth analysis of market segments. To define, describe and forecast the market by product type, market and key regions.

Summary of the Global Shunt Reactors Market Report: This report provides a comprehensive look at several factors that are driving or holding back market growth. It provides in-depth analysis of the changing dynamics of competition and puts the reader ahead of the competition.

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marksmithimarc · 4 years ago

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Shunt Reactor Market Size, Competitive Landscape, Business Opportunities and Forecast

As per the latest report by IMARC Group, titled “Shunt Reactor Market: Global Industry Trends, Share, Size, Growth, Opportunity and Forecast 2020-2025,” the global shunt reactor market size reached US$ 2.9 Billion in 2019. A shunt reactor is an electronic device that absorbs excess reactive power that is generated by overhead lines under low-load conditions. This assists in stabilizing the voltage and increasing the overall efficiency of the power supply system. A shunt reactor can be directly connected to the power line or a tertiary winding of a three-winding transformer. It is often switched in and out on an everyday basis, keeping into consideration the load situation in the system. As it requires low maintenance and operating costs, it is widely utilized in different sectors.

Get a sample copy of this Report: https://www.imarcgroup.com/shunt-reactor-market/requestsample

Global Shunt Reactor Market Trends:

The market is currently experiencing stable growth on account of the continually escalating demand for energy across the globe. This can be accredited to rapid urbanization, the growing global population and boosting sales of consumer electronics. Besides this, the increasing need for efficient power systems to ensure an uninterrupted supply of power is strengthening the shunt reactor market growth. Moreover, as the utilization of shunt reactors is associated with reduced carbon footprint and voltage jumps, their demand is rising worldwide. Furthermore, governing agencies in numerous countries are financing the upgradation, as well as setting up of new transmission and distribution networks. They are also investing in smart grid technologies, which is further contributing to the growth of the market. Apart from this, leading players operating in the industry are increasing their investments in research and development (R&D) activities to develop high voltage transmission systems, which is anticipated to fuel the market growth in the upcoming years. Looking forward, the market value is projected to reach US$ 3.8 Billion by 2025, expanding at a CAGR of 4.7% during the forecast period (2020-2025).

Market Summary:

Based on the type, the market has been bifurcated into oil-immersed and air-core.

On the basis of the end user, the market has been segmented into electric utilities and industrial verticals.

The market has been analyzed on the basis of the application into variable and fixed reactors.

Region-wise, the market has been classified into Europe, North America, Asia Pacific, Latin America, and Middle East and Africa.

The competitive landscape of the market has been examined, with some of the key players being ABB Ltd., General Electric (GE) Company, Siemens AG, Nissin Electric Co. Ltd., PrJSC Zaporozhtransformator, CG Power and Industrial Solutions Limited, Alstom SA, Hyundai Heavy Industries Co., Ltd., Mitsubishi Electric Corporation, Hitachi, Ltd., Toshiba Corporation, Hilkar Electric Limited, Fuji Electric Co., Ltd., TBEA Co., Ltd. and Trench Group.

View Full Report with TOC & List of Figure: https://www.imarcgroup.com/shunt-reactor-market

As the novel coronavirus (COVID-19) crisis takes over the world, we are continuously tracking the changes in the markets, as well as the purchase behaviours of the consumers globally and our estimates about the latest market trends and forecasts are being done after considering the impact of this pandemic.

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#Shunt Reactor Market #Shunt Reactor Market share

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wenickjones · 5 years ago

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Shunt Reactor Market Analysis and Forecast 2020: By Coherent Market Insights

The Global Shunt Reactor Market 2020 report delivers a fundamental overview of the shunt reactor industry, including definitions, segmentation, applications and industry chain structure analysis. The shunt reactor market report provides competitive landscape analysis, major trends, and key regional development status. It also offers a competitive framework for major revenue-contributing firms covering company market shares with comprehensive profiles. The report provides a key overview of the market status of shunt reactor market manufacturers with market size, share, growth, market expansion, and technological innovations, as well as the industry cost structure.

It provides the impact and recovery of Covid-19 pandemic on the shunt reactor Market. Relevant statistical data is also provided in the report to recognize the challenges caused by the outbreak of Covid-19 and strategies to cope up with the current scenario.

CLICK HERE FOR FREE SAMPLE REPORT: https://www.factomarketinsights.com/sample/991

The Following are the Key Features of Shunt Reactor Market Report:

Market Overview, Industry Development, Market Maturity, PESTLE Analysis, Value Chain Analysis

Growth Drivers and Barriers, Market Trends & Market Opportunities

Porter’s Five Forces Analysis & Trade Analysis

Market Forecast Analysis for 2020-2028

Market Segments by Geographies and Countries

Market Segment Trend and Forecast

Market Analysis and Recommendations

Price Analysis

Key Market Driving Factors

Shunt Reactor market Company Analysis: Company Market Share & Market Positioning, Company Profiling, Recent Industry Developments etc.

Market Segmentation:

The segmentation of shunt reactor market is as follows By Product, By Rating, By Phase, By Application. Both developed and developing regions are extensively studied in the report.

By Product

- Air-core dry Type

- Oil Immersed

By Rating

- Fixed Shunt Reactor

- Variable Shunt Reactor

By Phase

- Single Phase

- Three Phase

By Application

- Residential

- Industrial

By Geography

The regional segmentation of the market covers following regions: North America (U.S. & Canada), Europe (Germany, United Kingdom, France, Italy, Spain, Russia, and Rest of Europe), Asia Pacific (China, India, Japan, South Korea, Indonesia, Taiwan, Australia, New Zealand, and Rest of Asia Pacific), Latin America (Brazil, Mexico, and Rest of Latin America), Middle East & Africa (GCC, North Africa, South Africa, and Rest of Middle East & Africa).

Fundamental Coverage of the Shunt Reactor Market:

Covid-19 impact and strategies to recover.

Valuable information about the shunt reactor Market

Identification of growth in various segments and sub segments of the studied market.

Strategic ideas for investment opportunities

Key statistical data along with products, price analysis, applications, levels of production and consumption, supply and demand.

Emerging developments in the existing market segment and research to help investors devise new business strategies

Accelerates decision-making by drivers and constraints

Competitive Analysis

The key players of the market are listed in this section of the study. It helps to understand the tactics and alliances that players concentrate on fighting market rivalry. An essential microscopic look at the market is given in the detailed study. The major players operating in the shunt reactor market are:

Fuji Electric

General Electric

ABB Ltd.

Hyosung Corporation

Zaporozhtransformator PJSC

Toshiba Corporation

Nissin Electric

Siemens AG

Toshiba Corporation

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marketreportsupdates · 5 years ago

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Ultraviolet Disinfection Equipment Market Growth Opportunity And Industry Forecast To 2027

The research report titled Global Ultraviolet Disinfection Equipment Market is an all-inclusive document containing crucial data pertaining to sales and revenue of the Ultraviolet Disinfection Equipment industry. The evaluations are done on the basis of the analysis of leading market segments such as types, applications, regions, technological advancements, and dominant players of the global Ultraviolet Disinfection Equipment industry. The report provides historical data (2017-2018) of the industry and provides valuable forecast information for the period of 2020-2027. The report is formulated with the analysis of current and emerging trends based on the impact of the COVID-19 pandemic. The pandemic has changed the dynamics of the market and has drastically shaken up the economic scenario of the world. The report covers an impact analysis of the COVID-19 pandemic and offers a futuristic outlook of a post COVID scenario. It also covers trends, demands, and growth rates impacted by the ongoing crisis.

Get a sample of the report @ https://www.reportsanddata.com/sample-enquiry-form/3136 Key players operating in the global ultraviolet disinfection equipment market include Trojan Technologies, Atlantic Ultraviolet Corporation, American Ultraviolet, Halma PLC, Xylem Inc., Evoqua Water Technologies LLC, Kuraray Co. Ltd., Advanced UV Inc., Hoenle AG, and Atlantium Technologies Ltd., among others.

The forecast estimation states the global Ultraviolet Disinfection Equipment market is expected to dominate the economic sphere of the world with significant growth in the coming years. The growth is boosted by a change in demand patterns, rapidly developing infrastructure, technological advancements, and product advancements. The current and emerging trends are expected to shape up the industry and help in gaining a strong foothold in the global market to contribute to the revenue generation.

The Global Ultraviolet Disinfection Equipment market is further analyzed on the basis of key companies operating in the business sphere and major geographical regions where the market has a substantial size and growth rate.

Component Outlook (Revenue, USD Million; 2017-2027)

UV Lamps

Quartz Sleeves

Reactor Chambers

Controller Units

Others

Application Outlook (Revenue, USD Million; 2017-2027)

Water Treatment

Wastewater Treatment

Air Disinfection

Process Water Disinfection

Surface Disinfection

To read more about the report @ https://www.reportsanddata.com/report-detail/ultraviolet-disinfection-equipment-market

End-User Outlook (Revenue, USD Million; 2017-2027)

Residential

Commercial

Municipal

Industrial

Zonal Partition of the Market: North America, Latin America, Europe, Asia-Pacific, and the Middle East & Africa.

The report covers extensive analysis of market segments that are anticipated to lead by the end of the forecast period (2020-2027). The report puts a special emphasis on the upstream raw materials, downstream buyers, industrial chain analysis, technological and product advancements, and production and manufacturing capacities of the Ultraviolet Disinfection Equipment market. Moreover, the report provides an in-depth analysis of the core segments of the market by analysis of the applications, types, consumption patterns, market drivers and restraints, and challenges to be faced in the market.

The research study focuses on the emerging development patterns and manufacturing processes anticipated to boost the growth of the market. It also includes extensive profiles of prominent contenders of the industry and provides a complete analysis inclusive of their market share, market size, production capacity, sales and distribution network, import/export activity, and product portfolios.

Major objectives of the Global Ultraviolet Disinfection Equipment Report:

· Analysis and forecast estimation of the Global Ultraviolet Disinfection Equipment Market based on the market segmentation into types, applications, and regions

· Analysis of micro and macroeconomic factors affecting the global Ultraviolet Disinfection Equipment market

· Valuable insight into the major drivers, limitations, opportunities, and challenges faced by the global Ultraviolet Disinfection Equipment market and its players

· In-depth analysis of the prominent contenders along with their business strategies and expansion plans

· Strategic recommendations to the established companies as well as new entrants to assist in the formulation of investment plans

· Comprehensive analysis of the competitive landscape of the Ultraviolet Disinfection Equipment industry

To summarize, the report provides a better understanding to the reader about the Ultraviolet Disinfection Equipment industry by offering a detailed explanation of the competitive landscape, industry environment, market projections, growth driving and restraining factors, limitations, entry barriers, and opportunities. The report also covers the regulatory framework, investment opportunities, and other growth driving factors. The report allows the reader to gather insightful information about each segment of the market and provides a historical, present, and prospective outlook of the market.

Thank you for reading our report. To know more about the report or for any queries regarding customization, please connect with us. Our team will provide excellent assistance and make sure the report is tailored to meet your requirements.

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Ultraviolet Disinfection Equipment Market:- https://www.globenewswire.com/news-release/2020/06/03/2043129/0/en/Ultraviolet-UV-Disinfection-Equipment-Market-To-Reach-USD-6-06-Billion-By-2027-CAGR-of-11-3-Reports-And-Data.html

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#Ultraviolet Disinfection Equipment Market #Ultraviolet Disinfection Equipment Market size #Ultraviolet Disinfection Equipment Market share

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khalilhumam · 5 years ago

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Is Nuclear Power Pro-Development? Six Reasons Why DFC Should Lift Its Ban

New Post has been published on http://khalilhumam.com/is-nuclear-power-pro-development-six-reasons-why-dfc-should-lift-its-ban/

Is Nuclear Power Pro-Development? Six Reasons Why DFC Should Lift Its Ban

The US International Development Finance Corporation (DFC) is considering a change to its current ban on financing projects with a nuclear reactor, a relic holdover policy from its predecessor agency OPIC. At first glance, some may worry that nuclear power isn’t relevant for emerging markets and wouldn’t align with DFC’s primary mandate to promote positive development outcomes. In reality, lifting the prohibition would be a proactive response to a fast-evolving technology, burgeoning demand for clean energy, and a competitive global marketplace. Removing the outdated ban would be good for the United States, good for Africa and other energy-hungry regions, and good for the planet. Here are six reasons why:

1. The next generation of smaller, safer nuclear power is here.

Forget about the huge 1,000 MW custom-built power plants of the past. The new nuclear power models will be far smaller, factory-fabricated, and deploy new technologies that make these reactors “walk-away safe” (e.g., they use passive features like gravity to move coolant rather than rely on pumps). In the United States, we’re already modernizing our licensing and regulatory systems to respond to these new technologies for our domestic market. For instance, California-based microreactor developer Oklo is the first company to apply for a license under the new system. Oregon-based NuScale is likely to break ground on its first-of-a-kind modular system before 2023. And this list will grow; DC think tank Third Way has mapped more than 50 different private sector advanced nuclear projects across the US.

2. Advanced nuclear designs are especially suitable for frontier and emerging markets.

Small modular reactors (SMRs), microreactors, and other passively-safe designs will be far more flexible and thus useful in a range of environments. Oklo’s first model is just 1.5 megawatts (MW) —similar in power output to a wind turbine —and is aiming to replace diesel generators in remote communities in places like Alaska and Canada. It is easy to imagine similar uses for island communities in countries like Indonesia and Thailand. NuScale’s SMRs will be built in 60 MW modules that can be sold solo or linked up in 6- or 12-packs, depending on demand. These new approaches enable their use in a broader variety of markets compared with past nuclear (district heating, industrial process heat, desalination) making them ideal for off-grid, small-scale industry in emerging economies.

3. A diverse range of countries are already shopping for nuclear.

Advanced nuclear energy is not only for rich countries. Current nuclear powers which are ready to adopt this technology today include India, South Africa, Mexico, Argentina, and Brazil. Even for those countries planning for nuclear power in 2030 or beyond, now is not too early to start exploring options. Jordan, Ghana, Kenya, Indonesia, Thailand, Turkey and another 20+ countries are nearly ready or will be soon.

4. Scalable energy systems are wholly aligned with DFC’s mission.

The DFC was built to partner with the private sector to solve the most critical development challenges. Financing reliable power at scale is a big part of delivering on that lofty goal, with demand for electricity in Africa projected to more than double by 2040. Worries that nuclear power projects might overwhelm the DFC budget or take away funding for other sectors are unfounded. The agency has plenty of financial headroom and strict single project limits. DFC participation would help to de-risk projects and crowd-in capital, but its actual funding would likely be modest and in partnership with ExIm Bank, DOE, and other public and private actors.

5. Retaining the outdated ban would only succeed in pushing countries toward Russian models.

There are commercial and national security reasons to lift the prohibition as well. The Russian state-owned Rosatum is already aggressively marketing their SMRs across Africa and other regions. Russian deals come with multi-decade fuel lock-ins (and who knows what else) which would create significant leverage over US allies, in the same way natural gas does today. Instead, by using our development finance tools, we can provide competitive options for countries that choose a nuclear power future.

6. Nuclear is a stable source of zero-carbon power.

All countries need affordable, reliable power at scale for industry, commerce, and big cities. Climate change will only increase demand for energy-intensive industries, like cement, steel, industrial air conditioning, and desalination. Scalable, low-carbon power is required to meet the parallel goals of expanding modern energy access in emerging economies while also reducing greenhouse gas emissions. So, no, no one is planning to build a conventional large-scale nuclear power plant in Nigeria. And no, this won’t swamp a young agency or detract from its core mission. Advanced nuclear is an exciting and potentially game-changing technology that can help to meet development, environmental, and US national security goals. DFC getting into nuclear power would help to foster an innovative global market for this promising new technology —and an important step toward solving the dual challenge of mitigating climate change while providing the energy needed for prosperity for all. This post originally appeared on the Energy for Growth Hub blog.

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dailykhaleej · 5 years ago

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US warship leader seeks crew isolation as coronavirus spreads | Coronavirus pandemic News

The captain of a US navy plane provider going through a rising outbreak of the novel coronavirus is asking for permission to isolate the majority of his roughly 5,000 crew members onshore, which might take the warship out of obligation in an effort to save lots of lives.

In a memo to navy leaders, the captain of the usTheodore Roosevelt stated the unfold of the COVID-19 illness is constant and accelerating and that eradicating all however 10 % of the crew is a “mandatory danger” to cease the unfold of the virus. The ship is docked in Guam.

Extra:

Navy leaders had been on Tuesday scrambling to find out the way to finest reply to the extraordinary request as dozens of crew members examined optimistic.

“We aren’t at battle. Sailors don’t have to die. If we don’t act now, we’re failing to correctly maintain our most trusted asset – our sailors,” stated Captain Brett Crozier in a memo obtained by The Related Press information company.

A navy official stated Crozier alerted commanders on Sunday night of the persevering with challenges in isolating the virus. The official, who spoke on situation of anonymity to debate inside deliberations, stated Crozier desires extra remoted housing for the crew and that navy management is reviewing choices to make sure the well being and security of the crew.

Trump has persistently touted his assist for the US army [Al Drago/Reuters]

US Pacific Fleet commander Admiral John Aquilino advised reporters on Tuesday that the navy is working to get as many sailors as attainable onshore, whereas nonetheless sustaining a core crew to observe the nuclear reactors and maintain the ship operating.

He stated the tempo might not be as quick as the commander would love, however it will likely be carried out on a rotation, with sailors staying onshore in isolation for 14 days, then returning to the ship virus-free in order that others can go ashore.

Requested about efforts to isolate sailors onshore, he stated the navy is doing what it will possibly with services which might be accessible. Officers are working with the federal government of Guam to attempt to get lodge rooms that may permit for better isolation, Aquilino stated.

Aquilino wouldn’t talk about actual numbers or timelines, however agreed with navy Secretary Thomas Modly’s assertion that about 1,000 sailors have been taken off the ship to date. He added that no sailors are at the moment hospitalised.

For most individuals, the brand new coronavirus causes gentle or reasonable signs, such as fever and cough, that clear up in two to 3 weeks. For some, particularly older adults and folks with current well being issues, it will possibly trigger extra extreme sickness, together with pneumonia, and dying.

Basic shift

In Asia, a provider presence is central to what the Pentagon has recognized as a elementary shift from preventing sure conflicts within the Center East to a return to “nice energy competitors”. Which means, principally, a much bigger give attention to China, together with its militarisation of disputed areas of the South China Sea.

The outbreak on the provider would be the navy’s most dramatic, but it surely tracks an accelerating upward development throughout the army. The Pentagon stated the variety of circumstances within the army had reached 673 on Tuesday morning, a leap of 104 from the day earlier than and up from 174 every week in the past.

Since March 20, the full has surged tenfold, even as the Pentagon has taken many steps to attempt to restrict the unfold, together with halting almost all motion of troops abroad.

The provider, like different navy ships, is susceptible to infectious illness unfold given its shut quarters. The huge ship is greater than 1,000 toes (305 metres) lengthy; sailors are unfold out throughout a labyrinth of decks linked by steep ladder-like stairs and slim corridors. Enlisted sailors and officers have separate dwelling quarters, however they routinely seize their meals from crowded buffet strains and eat at tables joined end-to-end.

Itemizing a lot of these issues, Crozier’s memo, which was first reported by the San Francisco Chronicle, warns that the shut quarters signifies that 1000’s of sailors now require quarantine. He stated sailors have been shifting off the ship into shore-based quarters, however a lot of that can also be not sufficient. He stated a lot of the off-ship places accessible to date are group quarantine websites, and already two sailors housed in an auditorium have examined optimistic for the virus.

To cease the unfold of the virus and forestall dying, Crozier stated they have to take a methodical method, transfer nearly all of the sailors off the ship, isolate them and fully clear it. He stated about 10 % of the crew must keep on board to safe the vessel, run vital programs and sanitise every little thing. Aquilino declined to verify that estimate however stated he’s working with commanders to get individuals quarantined and examined as shortly as attainable.

Crucial danger

Whereas eradicating that many could seem to be a unprecedented measure, Crozier stated it’s a mandatory danger.

“It would allow the provider and air wing to get again below method as shortly as attainable whereas making certain the well being and security of our sailors,” Crozier stated, including that discovering applicable isolation for the crew “would require a political resolution, however it’s the proper factor to do”.

Modly advised CNN that efforts had been below method to assist the ship whereas making certain that the navy and the US army proceed to guard the nation.

“This can be a distinctive circumstance,” he stated. “And we’re working by means of it and attempting to keep up that correct steadiness to make sure that our pals and allies, and most significantly our foes and adversaries on the market, perceive that we aren’t standing down the watch.

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awesome-seema · 5 years ago

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Shunt Reactor Industry - Growth, Trends, Size, Forecast (2018 - 2023)

The Shunt Reactor market size will grow from USD 2.57 Billion in 2017 to USD 3.37 Billion by 2023, at an estimated CAGR of 4.61%. The base year considered for the study is 2017, and the market size is projected from 2018 to 2023.

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On the basis of type, the shunt reactor market has been classified into oil-immersed and air-core. The oil-immersed segment is expected to grow at the fastest rate during the forecast period. Oil-immersed shunt reactors are usually utilized for systems with a voltage profile of 72.5 kV and above and are connected directly to the high-voltage busbar/transmission network. The North American and European markets are expected to witness a decent demand for oil-immersed shunt reactors. The air-core dry type of shunt reactors are primarily used for system voltages below 72.5 kV and are inserted into the system through the tertiary winding of a power transformer connected to the overhead line that is to be compensated. By Market Players:

ABB , Siemens , Crompton Greaves , General Electric , Zaporozhtransformator , Fuji Electric , Toshiba , Mitsubishi Electric , Nissin Electric , TBEA , Trench Group , Hilkar,

By Type

Oil-Immersed Shunt Reactors , Air-Core Shunt Reactors, By End-User

Electric Utilities , Industrial Verticals, By Application

Variable Shunt Reactor , Fixed Shunt Reactor, The prime objective of this report is to help the user understand the market in terms of its definition, segmentation, market potential, influential trends, and the challenges that the market is facing. Deep researches and analysis were done during the preparation of the report. The readers will find this report very helpful in understanding the market in depth. The data and the information regarding the market are taken from reliable sources such as websites, annual reports of the companies, journals, and others and were checked and validated by the industry experts. The facts and data are represented in the report using diagrams, graphs, pie charts, and other pictorial representations. This enhances the visual representation and also helps in understanding the facts much better.

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Points Covered in The Report:

The points that are discussed within the report are the major market players that are involved in the market such as manufacturers, raw material suppliers, equipment suppliers, end users, traders, distributors and etc.

The complete profile of the companies is mentioned. And the capacity, production, price, revenue, cost, gross, gross margin, sales volume, sales revenue, consumption, growth rate, import, export, supply, future strategies, and the technological developments that they are making are also included within the report. The historical data from 2012 to 2017 and forecast data from 2018 to 2023.

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Besides the standard structure reports, we also provide custom research according to specific requirements.

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#Shunt Reactor Industry Shunt Reactor Industry share Shunt Reactor Industry size

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cmfelatestarticle · 6 years ago

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Shunt Reactor Market to See Incredible Growth During 2024

Energy security is a prerequisite for any country that aspires to prosper. A country’s power transmission and distribution network thus plays a pivotal part in its overall economic development. This has prompted countries to renew their commitment to building a robust energy infrastructure, thus accelerating the growth of the global shunt reactor market.

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A shunt reactor, by virtue of absorbing reactive power, plays a crucial role in increasing the energy efficiency of a power transmission system. High-voltage transmission lines and cable systems need effective reactive power compensation to protect them from the spike in voltage levels that can cause irreparable damage. A shunt reactor can be either directly connected to a transmission line or to a three-winding transformer’s tertiary winding. Some facilities deploy a permanent connection between the shunt reactor and the power line, while a circuit breaker is used in some cases. Shunt reactors with variable ratings are used in power lines where load variation is slow so as to optimally adjust the consumed reactive power. The role of shunt reactors is thus crucial in power transmission lines that cover a large area.

The report on the global shunt reactors market analyzes the impact of the rising investments in power transmission and distribution networks on the performance of the global shunt reactors market. The report has been compiled to serve as a valuable decision-making tool for electrical equipment manufacturers, utilities, and energy industry players. The market for shunt reactors is segmented on the basis of type into air-core dry and oil-immersed shunt reactors. Of these, oil-immersed shunt reactor has been the dominant product. Key end users of shunt reactors are industrial facilities and electrical utilities. Key regions analyzed in this report are North America, Europe, Asia Pacific, and Rest of the World.

Global Shunt Reactor Market: Key Trends and Opportunities

Led by the rising investments in either upgrading or setting up new transmission and distribution networks worldwide, companies in the global shunt reactor market are witnessing new growth avenues. Increasing share of renewable energy in the global power industry and the resultant need to improve grid interconnectivity would help fuel the demand for shunt reactors. At the same time, increasing emphasis on reducing the loss of power during transmission and distribution is driving the market. Fresh investments in smart grids would further boost the growth of the global shunt reactors market. However, economic uncertainty in some countries in the Middle East has led to the postponement of large-scale investments in power transmission and distribution networks. This presents a challenge for companies in the shunt reactors market.

Global Shunt Reactor Market: Region-wise Outlook

Increasing number of countries are turning toward renewable energy projects to meet their energy needs, thereby leading to the establishment of new renewable power generation facilities across the world. This presents immense opportunities for shunt reactor manufacturers and ancillary organizations because the active power generated by renewable energy sources is not only unpredictable but is also characterized by high degree of fluctuation. Shunt reactors can help compensate fluctuating active power, which makes them useful in renewable energy projects.

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Energy-hungry industrializing nations in Asia Pacific, the Middle East, and Latin America have created a conducive environment for the growth of the shunt reactor market. Demand for shunt reactors is the highest in Asia Pacific and North America.

Companies that have a firm foothold in the global shunt reactors market and have been analyzed in this report include ABB Limited, Siemens AG, Toshiba, Alstom SA, Mitsubishi Electric Corporation, Crompton Greaves, and Hyundai Heavy Industries.

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trendingnewz-blog · 6 years ago

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Shunt Reactor Market Dynamics, Forecast, Analysis and Supply Demand 2024

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Global Shunt Reactor Market: Key Trends and Opportunities

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Global Shunt Reactor Market: Region-wise Outlook

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riyasharma24mr-blog · 7 years ago

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2018-2023 Global and Regional Shunt Reactor Industry Production, Sales and Consumption Status and Prospects Professional Market Research Report - 24 Market Reports

[2018 Updated Market Report] 2018-2023 Global and Regional Shunt Reactor Industry Production, Sales and Consumption Status and Prospects Professional Market Research Report

Sahil Sharma's insight:

Shunt Reactor market size will grow from USD 2.57 Billion in 2017 to USD 3.37 Billion by 2023, at an estimated CAGR of 4.61%. The base year considered for the study is 2017, and the market size is projected from 2018 to 2023.

Shunt Reactor

Download FREE Sample of this Report @ https://www.24marketreports.com/report-sample/20182023shunt-reactor-market-20

The North American and European markets are expected to witness a decent demand for oil-immersed shunt reactors. The air-core dry type of shunt reactors are primarily used for system voltages below 72.5 kV and are inserted into the system through the tertiary winding of a power transformer connected to the overhead line that is to be compensated.

By Market Players:

ABB , Siemens , Crompton Greaves , General Electric , Zaporozhtransformator , Fuji Electric , Toshiba , Mitsubishi Electric , Nissin Electric , TBEA , Trench Group , Hilkar, ,

By Type

Oil-Immersed Shunt Reactors , Air-Core Shunt Reactors, , ,

By End-User

Electric Utilities , Industrial Verticals, , ,

By Application

Variable Shunt Reactor , Fixed Shunt Reactor, , ,

The prime objective of this report is to help the user understand the market in terms of its definition, segmentation, market potential, influential trends, and the challenges that the market is facing. Deep researches and analysis were done during the preparation of the report. The readers will find this report very helpful in understanding the market in depth. The data and the information regarding the market are taken from reliable sources such as websites, annual reports of the companies, journals, and others and were checked and validated by the industry experts. The facts and data are represented in the report using diagrams, graphs, pie charts, and other pictorial representations. This enhances the visual representation and also helps in understanding the facts much better.

Points Covered in The Report:

The growth factors of the market is discussed in detail wherein the different end users of the market are explained in detail.

Data and information by manufacturer, by region, by type, by application and etc, and custom research can be added according to specific requirements.

The report contains the SWOT analysis of the market. Finally, the report contains the conclusion part where the opinions of the industrial experts are included.

Key Reasons to Purchase

To gain insightful analyses of the market and have comprehensive understanding of the global market and its commercial landscape.

Assess the production processes, major issues, and solutions to mitigate the development risk.

To understand the most affecting driving and restraining forces in the market and its impact in the global market.

Learn about the market strategies that are being adopted by leading respective organizations.

To understand the future outlook and prospects for the market.

Besides the standard structure reports, we also provide custom research according to specific requirements.

Get the Complete Report & TOC @ https://www.24marketreports.com/energy-and-natural-resources/20182023shunt-reactor-market-20

Table of content

Chapter 1 Industry Overview 1.1 Definition 1.2 Brief Introduction by Major Type 1.2.1 Oil-Immersed Shunt Reactors 1.2.2 Air-Core Shunt Reactors 1.3 Brief Introduction by Major End-User 1.3.1 Electric Utilities 1.3.2 Industrial Verticals 1.4 Brief Introduction by Major Regions 1.4.1 United States 1.4.2 Europe 1.4.3 China 1.4.4 Japan 1.4.5 India 1.5 Brief Introduction by Major Application 1.5.1 Variable Shunt Reactor 1.5.2 Fixed Shunt Reactor 1.6 Brief Introduction by Major 1.7 Brief Introduction by Major 1.8 Brief Introduction by Major

Chapter 2 Production Market Analysis 2.1 Global Production Market Analysis 2.1.1 2012–2017 Global Capacity, Production, Capacity Utilization Rate, Ex-Factory Price, Revenue, Cost, Gross and Gross Margin Analysis 2.1.2 2012–2017 Major Manufacturers Performance and Market Share 2.2 Regional Production Market Analysis 2.2.1 2012–2017 Regional Market Performance and Market Share 2.2.2 United States Market 2.2.3 Europe Market 2.2.4 China Market 2.2.5 Japan Market 2.2.6 India Market 2.2.7 Market

Chapter 3 Sales Market Analysis 3.1 Global Sales Market Analysis 3.1.1 2012–2017 Global Sales Volume, Sales Price and Sales Revenue Analysis 3.1.2 2012–2017 Major Manufacturers Performance and Market Share 3.2 Regional Sales Market Analysis

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What is our report scope?

The report incorporates in-depth assessment of the competitive landscape, product market sizing, product benchmarking, market trends, product developments, financial analysis, strategic analysis and so on to gauge the impact forces and potential opportunities of the market. Apart from this the report also includes a study of major developments in the market such as product launches, agreements, acquisitions, collaborations, mergers and so on to comprehend the prevailing market dynamics at present and its impact during the forecast period 2018-2023.

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futuremarketinsights-blog1 · 8 years ago

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Shunt Reactor Market to Witness Steady Expansion During 2016-2026

Future Market Insights delivers key insights on the global shunt reactor market in a latest report titled “Shunt Reactor Market: Global Industry Analysis and Opportunity Assessment, 2016–2026”. According to the report, revenue from the global shunt reactor market is projected to expand at a healthy CAGR of 8.6% over the forecast period.

Some of the major factors driving the growth of the global shunt reactor market are an expanding electrical distribution network against the backdrop of continually increasing demand for electricity, refurbishment of ageing coal-fired plants, ageing power infrastructure in developed economies, and emergence of microgrids and interconnection of local and regional grids.

Due to rapid changes in load structure and power generation, transmission and distribution networks are continually facing new demand for transformers and shunt reactors. For instance, in most regions, power grids go through a gradual change such as switching from overhead lines to high-voltage underground cables, addition of capacity to meet electricity demand, and interconnection of state/regional grids. Such changes are expected to drive demand for variable shunt reactors in the near future and in turn offer unprecedented opportunities to shunt reactor manufacturers, distributors, and product converters in the market. Furthermore, the trend is even more pronounced in emerging economies such as Brazil, India, Russia, and China. Healthy trade relations and government support in these regions have served to boost export-import activities of shunt reactors.

Report Overview @ https://www.futuremarketinsights.com/reports/shunt-reactor-market

However, increasing component costs could inhibit new product sales, which could pose challenges and thereby restrain the growth of the global shunt reactor market.

Segmentation highlights

The global shunt reactors market is segmented on the basis of region, product type, phase, rating, voltage range and end-use application. By product type, shunt reactors are segmented into air-core dry type and oil immersed. On the basis of end-use application, the market is segmented into residential and commercial. On the basis of rating type, the global shunt reactor market is segmented into fixed and variable. By voltage range the market is segmented into less than 200 kV, 200-400 kV, and greater than 400 kV.

Global oil-immersed shunt reactor segment accounted for 64.8% share of the global shunt reactor market in 2015. Oil-immersed segment is projected to remain dominant over the forecast period, with increasing Y-o-Y growth of 6.7% to 8.9% from 2016 to 2026.

In terms of value and volume, three phase shunt reactor segment dominated the global shunt reactor market in 2015. The segment is estimated to account for 58.3% market value share by the end of 2016. The segment is projected to remain dominant over the forecast period, with increasing Y-o-Y growth of 6.7% to 9.1% from 2016 to 2026. Increasing number of industrial establishments and growing demand for three phase electricity in manufacturing and assembling facilities are expected to play a major role in the growth of the three phase shunt reactor segment.

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In terms of value and volume, fixed shunt reactor segment dominated the global shunt reactor market in 2015. The segment is estimated to account for 81.3% market value share by the end of 2016. The segment is projected to remain dominant over the forecast period, with increasing Y-o-Y growth of 7.0% to 9.0% from 2016 to 2026. Increasing number of power substations and power grids across the globe is the major factor driving the growth of fixed shunt reactors.

Regional forecast

The global shunt reactor market is segmented into the seven key regions of North America, Latin America, Western Europe, Eastern Europe, Asia Pacific Excluding Japan, Middle East & Africa, and Japan. By 2016 end, the global shunt reactors market in Asia Pacific excluding Japan (APEJ) is estimated to hold the second highest market share of 24.9%. Consumption of shunt reactors in APEJ is projected to register a higher Y-o-Y growth rate due to expanding power generation and distribution infrastructure to meet increasing electrical energy demand, mostly from industries based in China and India.

Vendor insights

Key market participants covered in the report include ABB Ltd., General Electric (ALSTOM), Fuji Electric Co. Ltd., Toshiba Corporation, Siemens AG, Zaporozhtransformator PJSC, Nissin Electric Co. Ltd, and Hyosung Corporation.

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engineercity · 8 years ago

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Новости сайта #ENGINEERING - 工程

New Post has been published on https://engineer.city/decommissioning-developments/

Decommissioning developments

Nuclear safety fears fuel robot wars, reports Boris Sedacca

In February 2017, Tokyo Electric Power (Tepco) revealed that the radiation level in the containment vessel of reactor 2 at the stricken Fukushima No. 1 power plant reached a maximum of 530 sieverts per hour, the highest since the triple core meltdown in March 2011 when it was struck by a Tsunami. Here, we look into the development of robotics for nuclear decommissioning and waste retrieval.

The radiation level at Fukushima far exceeds the previous high of 73 sieverts per hour at the reactor. This will compound the difficulty of removing the fuel debris to decommission at the plant. The Japanese government and Tepco hope to locate the fuel and start removing it in 2021.

According to Tepco, nuclear fuel in the primary containment vessel (PCV) was exposed to the air and melted from the impact of March 2011 earthquake and tsunami.

As a result of the accident analysis, it was found that a portion of melted nuclear fuel might have fallen inside the pedestal.

To remove fuel debris, it is necessary to investigate the PCV and clarify the conditions of debris and surrounding structures.

Onet Technologies has been actively involved in providing remotely controlled dismantling solutions for the Fukushima plant since 2013 through the development of innovative processes.

Laser-cutting technology

The remotely operated laser-cutting technology is especially suited to cutting very thick materials in a hazardous area. It allows for remote operation while offering accurate position tolerance for cutting heterogeneous layers of materials; moreover, it generates fewer aerosols than most other available techniques.

Damien Roulet, international project manager at Onet, says: “We work across the entire spectrum of nuclear power, including the building of new installations, reactors, laboratories and facilities.

“We carry out maintenance operations for EDF in France on nuclear power stations, but we also operate internationally in the field of nuclear decommissioning, including Fukushima, where we deploy robotic laser-cutting technology.”

The French Alternative Energies and Atomic Energy Commission (known as the CEA) nuclear energy division provides government and industry with the expertise and innovation for nuclear energy facilities. It has also acquired considerable experience in nuclear clean-up and dismantling operations and related R&D, through a number of large-scale decommissioning projects.

Implemented by Onet Technologies as a world first in December 2015, the CEA’s patented technology has demonstrated its full potential in the ongoing project to dismantle MAR200 dissolvers in the spent-fuel reprocessing facility at the CEA Marcoule site in France. The dismantling process was also nominated in the WNE Awards and received the 2016 SFEN award for technological innovation.

Roulet adds: “We have been actively involved with CEA since 2014 in a project to remove melted fuel debris from damaged reactors at the Fukushima Daiichi plant.

“August 2016 marked the end of initial phase focusing on simulant manufacturing and cutting performance, with the second project phase focusing on deep-water cutting and characterisation of resulting aerosol emissions, and more widely, on secondary releases from debris. They can be aerosols or gasses, both in air and underwater.”

Fuel debris

Removing fuel debris from the reactor cores is a vital step in the decommissioning programme. The use of remotely operated laser-cutting technology requires in-depth knowledge spanning a number of fields — a task handled by laboratories at the CEA and the French Institute for Radiological Protection and Nuclear Safety (IRSN).

CEA studies fuel debris resulting from a meltdown and manufactures non-radioactive simulants used to test cutting technology for the project, while the IRSN works on the composition of aerosols resulting from the cutting process.

Roulet continues: “We have demonstrated underwater laser cutting in water up to 5m deep, and demonstrated non-emerging cut, or deep gouging. We also have the first data ever acquired on dust and fume generation during laser cutting on simulated fuel debris, including chemical composition, particle size, gas and radioactivity.”

Onet has previously participated in the design, construction, commissioning and operation of a plutonium contaminated waste treatment facility at Pégase, a decommissioned experimental reactor located on the site of the CEA in Cadarache. After its shutdown, the reactor’s buildings had been used to store 2,714 drums of plutonium contaminated waste.

When the nuclear safety authorities asked the CEA to remove the drums from this temporary storage, they were not in a suitable condition to be transported or stocked elsewhere. In a consortium with Robatel and Millenium, Onet Technologies was awarded the task of reconditioning the drums on the Pégase site.

The mission called for the design of a dedicated facility that would be able to cope with tight space constraints as volume available within Pégase is extremely limited. Led by Onet Technologies, the group designed, built, qualified and operated the facility. In 2014, the last of these non-standard drums was reconditioned.

Sellafield MSSS

At Sellafield in the UK, a Magnox Swarf Storage Silo (MSSS) built in the 1960s provided a particular challenge for Ansaldo Nuclear Engineering Services (NES). The silo comprised 22 compartments of 6m x 6m by 15m deep with a limited space envelope and strict floor loading limits dictated by a building crane capacity of 55 tonnes.

There was 500m3 of waste per silo and access was via 1.7m2 aperture at the top. Compartments 1 to 12 contained sludge and some miscellaneous beta & gamma waste (MBGW), while compartment 15 contained charge tubes and swarf bins, and the remaining vaults contained sludge and some MBGW. Ansaldo NES designed, procured, manufactured, tested and commissioned a mobile silo emptying plant (SEP) for Sellafield, running on rails at the top of the compartments.

Ansaldo Nucleare acquired Nuclear Engineering Services in April 2014 and rebranded as Ansaldo NES Ltd in May 2014. This acquisition was an essential step for the Ansaldo Group in its nuclear market growth strategy after the Fukushima accident. The UK market was identified as the opportunity to achieve Ansaldo Nuclear’s aim for a multi-country presence in the decommissioning and waste management market.

Andrea Basso, technical director at Ansaldo NES, says: “We have the most complicated mobile plant to retrieve waste at Sellafield. It has been quite a long time in the making because the original idea started around 1994/5.

“The machine was almost completed in 1996/7 but there were three or four safety case changes in the meantime. In the nuclear industry, you design against a safety case that tells you practically what you can and cannot do – in this particular case, whether or not you can retrieve the waste.

“Our initial design was to retrieve waste from the central point but then they established that if that was done, then all the waste around the crater would collapse and might cause an explosion.

“At this point we needed to change the whole philosophy of the retrieval system. We introduced a platter retrieval system to a maximum of 1.5m, after which time you need to level in the waste and retrieve again, and so the levelling and retrieval cycle repeats itself to avoid creating a massive crater in the middle.”

The machine weighs 360 tonnes and was assembled in modules for two reasons. One was the space available to bring the modules inside the building at Sellafield. The other issue was weight, because the crane is limited to 50 tonnes maximum lift capacity.

Basso explains: “The machine has been rebuilt on top of the silo and is now starting ‘inactive commissioning’, where you check that the machine power and everything else works before touching any radioactive waste. When inactive commissioning is completed, we will hopefully have the authorisation to use the machine for retrieving the waste.

“Part of the waste may have some spent magnox fuel fragments. The complicated nature of the machine is such that there is no other equivalent like it in the world.”

Short-term nuclear power demand

Short-term demand for nuclear power is unlikely to abate – for example, France has a long-term target of 50% of electricity generation from nuclear power, down from the present day figure of 75%.

A number of nuclear power stations have recently shut down for maintenance, which took 9GW of nuclear capacity offline out of a total of 63GW, according to the International Energy Agency (IEA).

France’s electricity generation is highly dependent on nuclear, which accounts for 75% of its power.

Renewables make up about a quarter of electricity capacity, the majority of which comes from hydro.

But with water levels in reservoirs at their lowest levels in 10 years, hydro’s contribution to total generation is also at its lowest in a decade.

Other renewables contribute about 7% of electricity generation, but limited daylight hours in the winter mean restricted generation from solar PV.

Conventional generation, which includes gas, coal and oil, makes up only about 6% of total generation, or roughly one tenth of the country’s nuclear generation in normal times.

France has a significantly low-carbon electricity mix, owing to the key role of nuclear energy.

However, much of its nuclear fleet is reaching the end of its lifetime.

Against this background, France has started an ambitious energy transition: it is a world leader in designing a governance framework with a national low-carbon strategy, carbon budgets, a carbon price trajectory and plans for energy investment.

France plans to reduce the share of nuclear to 50% in the electricity mix by 2025. Although some nuclear reactors may continue long-term operation under safe conditions, maintaining security of supply and a low-carbon footprint while reducing nuclear energy will require investments in renewable energy and efficiency.

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Power Engineer

Nuclear Power

Source: engineerlive.com

#engineering #Новости

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trendingnewz-blog · 6 years ago

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Shunt Reactor Market 2024 Industry Trends, Competitive Landscape, Company Profiles And Forecast

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Global Shunt Reactor Market: Key Trends and Opportunities

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Global Shunt Reactor Market: Region-wise Outlook

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