#Boat fuel cell infrastructure
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electronalytics · 2 years ago
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Hydrogen Fuel Cells for Boat Market Analytical Overview and Growth Opportunities by 2032
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The hydrogen fuel cells for the boat market is experiencing significant growth due to the increasing demand for clean and sustainable energy solutions in the marine industry.Hydrogen fuel cells offer a viable alternative to conventional fossil fuel-powered engines, as they produce zero-emission and have higher energy efficiency.
Government regulations and initiatives promoting the use of eco-friendly technologies in the maritime sector are driving the adoption of hydrogen fuel cells for boats.The market is witnessing the development of advanced hydrogen fuel cell technologies, including improved storage and refueling infrastructure, which is further boosting market growth.
The increasing focus on reducing carbon emissions and achieving environmental sustainability goals by boat manufacturers and operators is propelling the demand for hydrogen fuel cells.suppliers, are crucial for the widespread adoption and commercialization of hydrogen fuel cells for boats.
Analytical Overview:
The hydrogen fuel cells for boat market is projected to experience substantial growth in the coming years, driven by the increasing demand for clean energy solutions in the maritime industry.
Market players are focusing on research and development activities to enhance the performance and efficiency of hydrogen fuel cell technologies specifically tailored for marine applications.
Government regulations and initiatives promoting sustainable shipping practices are expected to create a favorable market environment for hydrogen fuel cells.
The market is witnessing the emergence of new players and strategic partnerships, leading to technological advancements and the expansion of product portfolios.
Geographically, North America and Europe are anticipated to be the key regions for hydrogen fuel cells in boats, owing to the presence of established boat manufacturers and supportive government policies promoting renewable energy adoption. However, the Asia Pacific region is also expected to witness significant growth due to the growing maritime industry and increasing environmental concerns.
Segments:
Power Output: The market can be segmented based on power output capacity, ranging from low-power fuel cells suitable for auxiliary power to high-power systems for primary propulsion.
Boat Type: Segmentation can be done based on boat types, such as leisure boats, commercial vessels, ferries, and yachts, as the adoption of hydrogen fuel cells varies across these segments.
End Use: Another segmentation criterion is the end-use application, including passenger transportation, cargo shipping, naval vessels, and recreational boating.
Geography: The market can be segmented based on geographic regions, such as North America, Europe, Asia Pacific, and Rest of the World, as the adoption and growth potential vary across different regions.
Component: Segmentation based on components includes fuel cell stacks, hydrogen storage tanks, power electronics, and balance of plant (BOP) systems, which are essential for the overall functioning of hydrogen fuel cells.
Growth Opportunities:
Increasing Investments: Growing investments in research and development activities for hydrogen fuel cell technologies for boats present significant growth opportunities in the market.
Infrastructure Development: Expansion of hydrogen refueling infrastructure and charging networks for boats would encourage the adoption of hydrogen fuel cells in the maritime sector.
Collaborations and Partnerships: Collaborations between boat manufacturers, fuel cell suppliers, and infrastructure providers can drive innovation and accelerate the market growth.
Government Support: Continued support from governments through subsidies, incentives, and policy frameworks promoting the adoption of hydrogen fuel cells in the marine industry can fuel market growth.
Technological Advancements: Advancements in hydrogen fuel cell technologies, such as enhanced power density, improved durability, and cost reduction, will open up new growth opportunities for market players.
Key Points:
Hydrogen fuel cells offer longer operational ranges and faster refueling times compared to battery-powered systems, making them suitable for extended boating trips and commercial applications.
The transition towards hydrogen fuel cells aligns with the global maritime industry's efforts to decarbonize and reduce greenhouse gas emissions.
The adoption of hydrogen fuel cells in the boat market can significantly contribute to achieving international sustainability goals and addressing climate change concerns.
Challenges such as the high initial cost of hydrogen fuel cell systems and limited hydrogen refueling infrastructure need to be addressed to accelerate market growth.
Collaborative efforts among stakeholders, including boat manufacturers, governments, and fuel cell
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Market Segmentations:
Global Hydrogen Fuel Cells for Boat Market: By Company • Dynad International • PowerCell Sweden • Serenergy • Toshiba • Fiskerstrand Verft • MEYER WERFT • Nuvera Fuel Cells • WATT Fuel Cell Global Hydrogen Fuel Cells for Boat Market: By Type • Polymer Electrolyte Membrane Fuel Cell (PEMFC) • Solid Oxide Fuel Cell (SOFC) Global Hydrogen Fuel Cells for Boat Market: By Application • Yatchs • Sailboats • Others Global Hydrogen Fuel Cells for Boat Market: Regional Analysis All the regional segmentation has been studied based on recent and future trends, and the market is forecasted throughout the prediction period. The countries covered in the regional analysis of the Global Hydrogen Fuel Cells for Boat market report are U.S., Canada, and Mexico in North America, Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe in Europe, Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, Rest of Asia-Pacific (APAC) in the Asia-Pacific (APAC), Saudi Arabia, U.A.E, South Africa, Egypt, Israel, Rest of Middle East and Africa (MEA) as a part of Middle East and Africa (MEA), and Argentina, Brazil, and Rest of South America as part of South America.
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• To make well-informed business decisions: These research reports give companies data-driven insights that they may use to plan their strategy, develop new products, and devise marketing and advertising plans.
In general, market research studies offer companies and organisations useful data that can aid in making decisions and maintaining competitiveness in their industry. They can offer a strong basis for decision-making, strategy formulation, and company planning.
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urbtnews · 3 months ago
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Vehicle-To-Grid (V2G) Market Size Is Likely To Reach a Valuation of Around $15.03 Billion by 2031
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Vehicle-To-Grid (V2G) Market Size Is Likely To Reach a Valuation of Around $15.03 Billion by 2031Stay Trendy with URBTNews.com (Subscribe Today Free!) The Vehicle-To-Grid (V2G) Market report provides a detailed analysis of top strategies, market trends, market size, and future growth estimates. This report serves as a valuable resource for new entrants and existing stakeholders to refine their strategies and solidify their market positions. Request sample pages now: https://www.alliedmarketresearch.com/request-sample/A08446 Key factors driving growth of the vehicle-to-grid (V2G) market include rising electric vehicle demand and government initiatives for charging infrastructure development. Growing economies such as China, India, Brazil, and South Africa provide lucrative opportunities for the electric vehicle industry's growth. Additionally, increasing investment in electric vehicle infrastructure in developing countries boosts overall market growth prospects. The report profiles key players like Nissan Motor Corporation, Wallbox, Fermata Energy, and others, offering insights into their strategies. The report details the global vehicle-to-grid market segmentation based on technology, vehicle type, charging type, components, and region. This comprehensive analysis assists market players in establishing strategies aligned with the fastest growing segments and highest revenue generation. Buy now the exclusive report: https://www.alliedmarketresearch.com/checkout-final/e7d40d7c9141edc5025f96a7a95e71f1 The vehicle-to-grid (V2G) market segments include power management, software, unidirectional charging, and bidirectional charging technologies. Battery electric vehicles, plug-in hybrid electric vehicles, and fuel cell vehicles are categorized under vehicle types for market analysis. Based on region, Europe held the largest market share in 2021, expected to maintain its leadership during the forecast period. The region is also projected to achieve the fastest CAGR of 26.6% throughout the forecast period, highlighting robust market dynamics. Get customized reports with your requirements: https://www.alliedmarketresearch.com/request-for-customization/A08446 The report analyzes key global vehicle-to-grid market players using strategies like joint ventures, collaborations, and product launches. These strategies maximize foothold and prowess, providing insights into recent developments, portfolios, and operating segments in the industry. Interested in procuring the research report? Inquire before buying: https://www.alliedmarketresearch.com/purchase-enquiry/A08446 The unidirectional charging segment dominated the market share in 2021, expected to maintain its leadership through the forecast period. In contrast, the bidirectional segment is projected to achieve the fastest CAGR of 26.7% throughout the same period. Check out more related studies published by Allied Market Research: Electric Vehicle Motor Market - Link Solar Boat Market - Link Electric Two-Wheeler Lithium-Ion Battery Management System Market - Link Utility Vehicle Market - Link Electric Vehicle Market - Link Legal Disclaimer: EIN Presswire provides this news content "as is" without warranty of any kind. We do not accept any responsibility for accuracy. Read the full article
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global-market-analysis · 11 months ago
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Buoyant with Hydrogen: The Nautical Evolution of Clean Energy Boats
The Global Hydrogen Boat Market was valued at USD 595.39 million and is projected to reach a market size of USD 1.65 billion by the end of 2030. Over the forecast period of 2024-2030, the market is projected to grow at a CAGR of 15.7%.
One significant long-term driver propelling the hydrogen boat market forward is the increasing global focus on environmental sustainability. Governments and industries worldwide are recognizing the urgent need to reduce carbon emissions, leading to a growing interest in cleaner energy alternatives. Hydrogen, being a clean and efficient fuel, aligns perfectly with this global sustainability agenda. Hydrogen-powered boats offer a promising solution to the maritime industry's quest for reducing its environmental footprint.
However, the journey has not been without its challenges, especially in the wake of the COVID-19 pandemic. The pandemic has disrupted global supply chains, causing delays in the production and delivery of hydrogen-powered boats. Additionally, the economic uncertainties triggered by the pandemic have led to fluctuations in investment patterns, impacting the market's growth trajectory. Despite these challenges, the industry is showing resilience, adapting to new norms, and leveraging technology to overcome obstacles.
In the short term, a key driver for the hydrogen boat market is the increasing regulatory support for green initiatives. Governments worldwide are implementing stringent environmental regulations, pushing the maritime industry to adopt eco-friendly technologies. Hydrogen-powered boats, with their low environmental impact, are becoming a favored choice among shipowners looking to comply with these regulations. This regulatory push is expected to create a surge in demand for hydrogen-powered boats in the near future.
An exciting opportunity lies in the expanding infrastructure for hydrogen production and distribution. Governments and private enterprises are investing heavily in developing hydrogen infrastructure, including production facilities and distribution networks. This infrastructure development creates a conducive environment for the growth of the hydrogen boat market. As the infrastructure matures, the cost of hydrogen production is expected to decrease, making hydrogen-powered boats more economically viable and attractive to a broader market.
A notable trend observed in the hydrogen boat market is the integration of advanced technologies to enhance efficiency and performance. Boat manufacturers are incorporating cutting-edge technologies, such as fuel cell systems and energy storage solutions, to optimize the overall performance of hydrogen-powered boats. This trend not only enhances the boats' environmental credentials but also improves their competitiveness in terms of speed, range, and reliability. The industry is moving towards a future where hydrogen-powered boats are not just environmentally friendly but also technologically advanced.
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Market Segmentation:
By Boat Type: Passenger Boats, Cargo Boats, Research Boats, and Others
In the realm of hydrogen-powered boats, various boat types contribute to the dynamic landscape of the market. These encompass Passenger Boats, Cargo Boats, Research Boats, and others. Among these, Passenger Boats emerge as the largest segment, catering to the increasing demand for eco-friendly transportation on water. Passengers seeking a cleaner and quieter boating experience are driving the growth of this segment. Interestingly, the fastest-growing segment during the forecast period is Cargo Boats. This surge is attributed to the global emphasis on sustainable shipping solutions, with businesses recognizing the efficiency and environmental benefits of hydrogen-powered cargo vessels.
By Power Source: Fuel Cells, Hydrogen Combustion Engines, and Hybrid Systems
The power source is a crucial determinant in the evolution of the hydrogen boat market, with three primary categories: Fuel Cells, Hydrogen Combustion Engines, and Hybrid Systems. Fuel Cells dominate this segment, emerging as the largest contributor to the market. The efficiency and minimal environmental impact of fuel cells make them the preferred choice for boat manufacturers and operators. On the flip side, the fastest-growing power source is Hybrid Systems. This innovative approach, combining the strengths of multiple power sources, is gaining traction as it offers enhanced flexibility, range, and efficiency. The market is witnessing a shift towards hybrid solutions, catering to the diverse needs of boat users.
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Regional Analysis:
When exploring the market by region, distinct patterns emerge across North America, Europe, Asia-Pacific, South America, and the Middle East & Africa. Europe stands out as the largest market in this segment, demonstrating a strong commitment to environmental sustainability and technological innovation. The European market is buoyed by supportive regulations and a proactive approach towards adopting clean energy solutions. On the other hand, Asia-Pacific takes the lead as the fastest-growing region during the forecast period. The increasing awareness of environmental issues, coupled with rising investments in hydrogen infrastructure, propels the growth of the hydrogen boat market in this dynamic region. The diverse geographical landscape of Asia-Pacific offers ample opportunities for hydrogen-powered boats to make a significant impact.
Latest Industry Developments:
Strategic Collaborations and Partnerships: Companies in the global hydrogen boat market are increasingly entering strategic collaborations and partnerships to leverage complementary strengths and accelerate market penetration. Recent developments highlight collaborations between boat manufacturers and hydrogen technology providers, aiming to integrate cutting-edge solutions into existing product lines. These alliances not only facilitate knowledge exchange but also foster a collaborative ecosystem that expedites technological advancements and widens market reach.
Investment in Research and Development (R&D): A prominent trend among industry players is a significant focus on research and development activities to stay at the forefront of technological innovation. Companies are allocating substantial resources to enhance the efficiency and performance of hydrogen-powered boats. Recent R&D initiatives include advancements in fuel cell technology, integration of smart navigation systems, and the exploration of novel materials for boat construction. By investing in R&D, companies aim to differentiate their products, meet evolving customer demands, and solidify their positions in the competitive landscape.
Expansion of Global Distribution Networks: Companies are proactively expanding their global distribution networks to tap into emerging markets and capitalize on the growing demand for hydrogen-powered boats. Recent developments indicate a strategic emphasis on establishing partnerships with regional distributors and dealerships, facilitating easier market access. This trend not only enables companies to reach a broader customer base but also ensures efficient product delivery and after-sales support. By expanding their distribution networks, companies position themselves to cater to diverse market needs and gain a competitive edge in the rapidly evolving hydrogen boat market.
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equitylogistic · 1 year ago
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The Future of Solar Energy in the Transportation Industry 
Introduction to the use of solar energy in transportation
Welcome to a bright and sustainable future of transportation! As we look ahead, it's evident that the world is shifting towards renewable energy sources, and solar power is leading the charge. The sun, our ultimate source of clean and abundant energy, has begun revolutionizing various industries - including transportation. From cars to planes to ships, solar energy is reshaping the way we move.
Imagine a world where vehicles are powered by sunlight rather than fossil fuels. Sounds like something out of a sci-fi movie? Well, it's not far from reality. Solar energy in transportation holds immense promise for reducing carbon emissions, combating climate change, and creating a more sustainable planet for generations to come.
In this blog post, we will delve into the exciting possibilities that lie within the realm of solar-powered transportation. We'll explore the numerous benefits it offers compared to traditional fuel-based systems and highlight how advancements in solar technology are making this dream a tangible reality. So fasten your seatbelts as we embark on an illuminating journey through the future of solar energy in transportation!
Benefits of using solar energy in transportation
Solar energy has become an increasingly popular and viable option in the transportation industry, offering numerous benefits for both individuals and the environment. One of the key advantages is its ability to reduce dependence on fossil fuels, which not only helps combat climate change but also decreases our reliance on finite resources. Solar-powered vehicles produce zero emissions during operation, making them a cleaner alternative to traditional gasoline or diesel-powered cars.
In addition to being environmentally friendly, solar energy can also lead to significant cost savings. By harnessing the power of the sun, transportation costs can be dramatically reduced as there is no need for fuel purchases. This makes solar energy an attractive option for long-haul trucking companies or public transportation systems looking to cut down on operating expenses.
Another benefit of using solar energy in transportation is its versatility and adaptability. Solar panels can be integrated into various forms of transport including cars, buses, trains, boats, and even airplanes. This means that regardless of whether you're commuting within a city or traveling long distances across continents, solar power can provide a reliable source of clean energy.
Furthermore, incorporating solar technology into transportation infrastructure opens up opportunities for decentralized power generation. With vehicle-to-grid (V2G) technology becoming more advanced, electric vehicles equipped with onboard solar panels could potentially contribute excess electricity back to the grid when parked or not in use.
Utilizing solar energy in transportation offers numerous benefits such as reducing carbon emissions and air pollution while providing substantial financial savings. As renewable technologies continue to advance and become more efficient over time, we can expect increased adoption of solar-powered solutions in the future - paving the way towards a greener and more sustainable transport sector without compromising convenience or reliability!
Advancements in solar technology for transportation
Advancements in solar technology have paved the way for exciting possibilities in the transportation industry. The integration of solar energy into various modes of transportation has been made possible through innovative technologies and engineering marvels.
One such advancement is the development of solar-powered vehicles. These vehicles are equipped with photovoltaic cells that convert sunlight into electricity, which can be used to power the vehicle's motor or charge its batteries. This means that these vehicles can run purely on clean and renewable energy, reducing dependence on fossil fuels and minimizing greenhouse gas emissions.
Solar technology has also contributed to the improvement of public transportation systems. Solar panels are now being installed on buses, trams, and even trains to harness solar energy for auxiliary functions such as lighting and air conditioning. This not only reduces fuel consumption but also lowers operating costs for transport operators.
Another noteworthy advancement is in the field of aviation, where researchers are exploring ways to harness solar energy for aircraft propulsion. While fully solar-powered commercial flights may still be a distant reality, there have been successful demonstrations of solar-powered unmanned aerial vehicles (UAVs) capable of long-duration flights.
Furthermore, advancements in battery storage systems have enhanced the efficiency and reliability of using solar energy in transportation. The ability to store excess energy generated during daylight hours allows vehicles to operate even when sunlight is limited or unavailable.
In conclusion... Oops! Sorry about that slip-up! Well, it’s safe to say that advancements in solar technology continue to revolutionize the transportation industry by providing cleaner alternatives and reducing our carbon footprint. With ongoing research and innovation, we can expect further breakthroughs that will shape a more sustainable future for transportation powered by solar energy!
Challenges and limitations of implementing solar energy in transportation
While solar energy holds great potential for revolutionizing the transportation industry, there are several challenges and limitations that need to be addressed. One significant challenge is the limited space available on vehicles to install solar panels. Unlike stationary structures where large solar arrays can be installed, vehicles have limited surface area for panel placement.
Another limitation is the intermittent nature of sunlight availability. Cloudy days and nighttime render solar panels ineffective, which poses a challenge for continuous operation of solar-powered vehicles. Additionally, the efficiency of current solar technology needs improvement to maximize energy conversion from sunlight.
The high cost associated with installing and maintaining solar panels is another hurdle that needs to be overcome. Currently, the upfront costs involved in implementing solar energy in transportation can be prohibitively expensive for many individuals or organizations.
Furthermore, storing excess energy generated by the sun presents a challenge as well. Batteries capable of storing sufficient amounts of energy for long-distance travel need further development to make them more efficient and affordable.
Despite these challenges and limitations, ongoing research and technological advancements hold promise for overcoming these obstacles. Continued innovation may lead to smaller yet more efficient panels that can generate enough power even with limited surface area on vehicles.
Examples of successful implementation of solar-powered transportation
Solar energy has already made significant strides in the transportation industry, with several successful implementations around the world. One notable example is the use of solar-powered boats and ferries. In countries like Switzerland and Germany, solar electric passenger boats have become a popular mode of transportation on lakes and rivers. These vessels are equipped with solar panels that harness sunlight to generate electricity, powering their propulsion systems.
Another successful implementation can be seen in the field of public transportation. Solar-powered buses have been introduced in various cities as a sustainable alternative to traditional diesel buses. These buses are fitted with rooftop solar panels that help charge their batteries during daylight hours, allowing them to operate for extended periods without relying solely on grid power or fossil fuels.
In addition to boats and buses, there are also examples of solar-powered cars making waves in the automotive industry. Companies like Tesla have integrated advanced photovoltaic technology into their electric vehicles, enabling them to harness sunlight and convert it into usable energy for driving purposes.
Furthermore, airports across the globe are embracing solar energy by installing large-scale photovoltaic arrays on their premises. Not only do these arrays provide renewable energy for airport operations but they also contribute excess power back into the grid.
These successful implementations demonstrate how solar energy is becoming increasingly prevalent in different modes of transportation. As technology continues to advance and costs decrease further, we can expect even more innovative applications of solar power within this sector.
Future possibilities and predictions for the use of solar energy in transportation
As we look to the future, it's clear that solar energy will play a significant role in shaping the transportation industry. With advancements in technology and increasing environmental concerns, we can expect to see even more innovative uses of solar power.
One exciting possibility is the integration of solar panels into electric vehicles (EVs). Imagine driving a car that not only runs on clean electricity but also recharges itself using sunlight! Solar-powered EVs could potentially have an extended range and reduce reliance on traditional charging infrastructure.
Another area where solar energy has tremendous potential is in public transportation. Solar-powered buses and trains are already being tested in various parts of the world, showing promising results. These vehicles can generate their own power during daylight hours, reducing operating costs and carbon emissions.
Solar energy can also be harnessed for non-road transport modes such as shipping and aviation. While these industries face unique challenges due to their high energy requirements, researchers are exploring ways to incorporate solar technology into these sectors. For example, experiments with solar sails for ships and lightweight solar cells for aircraft hold promise for a greener future.
In addition to powering vehicles directly, solar energy can be used for charging stations and infrastructure development. By installing efficient photovoltaic systems at parking lots or along highways, we can create convenient charging options for EV owners while simultaneously generating renewable electricity.
The possibilities for utilizing solar power in transportation are vast; however, there are still some challenges that need to be addressed. Limited space availability on vehicles or limited sunlight exposure during certain seasons may restrict the widespread adoption of this technology. Additionally, cost considerations and scalability issues need further exploration before large-scale implementation becomes feasible.
Despite these challenges, it's clear that the future holds great potential for incorporating solar energy into transportation systems across various modes of travel. The ongoing research efforts combined with growing awareness about sustainability make it likely that we'll see continued advancements in this field.
In conclusion (as requested), the use of solar energy in transportation holds immense promise for a greener and more sustainable future
Conclusion: How solar energy is shaping the future of transportation.
The future of transportation looks bright, thanks to advancements in solar energy technology. Solar power is revolutionizing the way we move from one place to another, offering numerous benefits and opportunities for a greener and more sustainable world.
By harnessing the power of the sun, we can reduce our reliance on fossil fuels and decrease harmful emissions that contribute to climate change. Solar energy offers a clean and renewable alternative that can power various modes of transport, including cars, buses, trains, boats, planes, and even bicycles.
One of the key advantages of using solar energy in transportation is its potential for cost savings. As technology continues to improve and become more affordable, integrating solar panels into vehicles becomes increasingly feasible. This not only reduces fuel costs but also lowers maintenance expenses over time.
Moreover, solar-powered vehicles offer greater independence by reducing dependence on traditional charging infrastructure or refueling stations. With a sufficient amount of sunlight available worldwide each day, electric vehicles equipped with solar panels can generate their own electricity while on-the-go.
Solar technology has come a long way in recent years. Engineers are continuously working towards developing highly efficient photovoltaic cells capable of capturing more sunlight even under less favorable conditions such as cloudy weather or shaded areas. The integration of flexible thin-film solar panels into vehicle surfaces opens up new possibilities for seamless incorporation without compromising aesthetics or performance.
While there are challenges to overcome – such as limited space for installing enough solar panels to meet all energy needs - creative solutions like integrating rooftop or bodywork-integrated designs have shown promise. Additionally,
grid-tied systems allow excess energy generated during daylight hours to be stored for later use or shared with other users through smart grid technologies.
Several successful implementations serve as inspiring examples showcasing how we can embrace this environmentally friendly solution for our transportation needs.
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analyticalmarketresearch · 1 year ago
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Global Marine Battery Market Size, Trends and Growth opportunity, By Battery (Lithium-ion, Fuel Cell, Lead Acid Battery, Nickel Cadmium, Sodium-based), By Capacity (Less than 100 Ah, 100-250 Ah, Greater than 250 Ah), By Design (Solid-state Battery, Flow Battery), By Application (Défense, Commercial), Regional Outlook, Competitive Market Share & Forecast, 2023 – 2030.
Global Marine Battery Market
The Global Marine Battery Market was valued at USD 629.80 million in 2022 and is expected to reach USD 2,295.80 million by 2030 at a CAGR of 13.73% from 2023-2030. Marine batteries are designed to provide reliable power to boats and other marine end users. These batteries are built to withstand the harsh marine environment, including exposure to saltwater, vibration, and extreme temperatures. Marine starter batteries, also termed as marine cranking batteries or marine engine start batteries, are a type of lead-acid battery especially designed for the purpose of starting boat engines. They are engineered to deliver high-cranking amps and cold-cranking amps for quick engine ignition.
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Market Drivers
A study on marine supply chain optimisation found that maritime transportation is crucial to global trade. Products are traded via maritime routes in about 90% of cases. The ongoing COVID-19 pandemic, the trade conflict between the United States and China, and the tangible churning of geoeconomics and geopolitics have all had a significant influence on seaborne trade. These elements are pressuring governments all over the world to review and reorganise the global supply chain and put alternative marine power and propulsion systems in place. It is projected that a different global supply chain would expand the fleet of ships that are currently in operation and modernise the current fleet. There is a global push for cleaner energy sources due to growing worries about environmental degradation and climate change. The global marine battery market is driven by marine batteries, which provide a sustainable energy option for boats and ships by lowering ocean pollution and greenhouse gas emissions. Marine batteries are in high demand due to the rising popularity of electric and hybrid boats. Marine batteries are a viable option for these boats' need for dependable and effective energy storage systems. The development of sustainable energy technologies like marine batteries is being pushed by the numerous nations that have adopted legislation to cut emissions from ships. Incentives are also being provided by governments to promote the use of green technologies, which is helping to expand the industry.
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Market Restraints
Marine batteries still do not have the same energy storage capacity as conventional fuels like petrol or diesel due to their low energy density. This may restrict their use in some high-power marine applications. The marine batteries' short lifespans are another element that can serve as a market limitation. Most marine batteries need to be replaced after a lifespan of three to five years. The marine battery market faces significant obstacles due to inadequate port charging infrastructure. Larger ships have more difficulty storing energy or powering their systems than do smaller ships. For large ships to receive a consistent power supply, multiple cables are needed. Connecting 15-20 heavy cables is neither time-efficient nor practical, especially for ships that are berthed for brief periods of time. Voltage, frequency, and earthing standards for the electrical power supplied by onshore grids are not suitable for vessel needs. To guarantee a sufficient turnaround time, electric vessels would need high-voltage superchargers. Superchargers, however, put a heavy burden on local power networks, and most of them are unable to provide the necessary electricity in a timely manner. Because of this, the global marine battery market is constrained. The first completely electric ferry deployments need enough storage space to enable a quicker turnaround.
Impact Of COVID-19 On Market
  Manufacturers of marine batteries have experienced supply chain disruption because to the COVID-19 outbreak. Production and delivery have been delayed because of a shortage of raw materials and components brought on by factory closures and transit constraints. The pandemic has resulted in a fall in demand for marine batteries due to a slowdown in the maritime industry and a decrease in worldwide trade. The market's expansion has also been hampered by a drop in demand. Investments in the marine battery business have decreased because of the epidemic. Investors are reluctant to make market investments due to the ambiguous economic climate. The marine industry's transition to sustainable solutions has been sped up by the COVID-19 epidemic. The sector is currently concentrating on lowering its carbon footprint, which has increased demand for environmentally friendly and long-lasting marine batteries. The marine battery business has some room for expansion despite the difficulties the epidemic has brought about. In the post-pandemic period, the market is anticipated to develop because of factors such as the rising demand for electric boats and ships and the growing popularity of renewable energy sources.
Impact of Russia-Ukraine Conflict on Global Marine Battery Market
There are several unintended consequences of the crisis between Russia and Ukraine on the market for marine batteries worldwide. In the first place, it has heightened geopolitical tensions and instability in the area, raising worries about the security of oil supplies. Numerous nations have been compelled by this to step up their efforts to lessen their reliance on fossil fuels and move towards renewable energy sources. Economic sanctions against Russia because of the conflict have had a knock-on effect on the world economy. The supply chains of numerous industries, including the marine battery market, have been impacted by the sanctions, which have made it more challenging for Russian businesses to conduct business with their counterparts in other nations. Oil prices have risen because of the conflict, increasing the cost of operating ships that use conventional fossil fuels. This has sped up the transition to electric propulsion systems and the use of marine batteries. Although the conflict has had some indirect effects on the marine battery business, these effects have been rather minor. This is since there is still a tiny market for marine batteries and that the conflict has not had a substantial effect on the supply or manufacture of marine batteries.
Market Segmentation
The Global Marine Battery Market is segmented into Battery, Capacity, Design, and Application. Based on the Battery, Lithium-ion segment accounted for largest market share in 2022, and is anticipated to consolidate its position during the forecast period with CAGR 13.77%, owing to highest electrochemical potential.
Regional Analysis
The Global Marine Battery Market is segmented into five regions such as North America, Latin America, Europe, Asia Pacific, and Middle East & Africa.
Based on region, Europe held the largest share in 2022 and it is expected to account for the highest CAGR of the marine battery market by 2030. Germany is expected to contribute higher value in the European marine battery market through 2022. Germany is estimated to have the largest maritime territory in the world and hybrid & electric passenger ships drives the marine battery market in the region.
Key Players
Various key players are discussed into the Global Marine Battery Market Report including: Akasol AG, EnerSys, Exide Industries Ltd., Furukawa Battery Solutions Co. Ltd., G.S. Yuasa Corporation, HBL Power Systems Ltd., Johnson Controls International, Leclanché SA., Siemens AG, and Saft Groupe S.A.
Market Taxonomy
By Battery • Lithium-ion • Fuel Cell • Lead Acid Battery • Nickel Cadmium • Sodium-based By Capacity • Less than 100 Ah • 100-250 Ah • Greater than 250 Ah By Design • Solid-state Battery • Flow Battery By Application • Défense • Commercial By Region • North America o U.S. o Canada o Mexico • Latin America o Brazil o Argentina o Colombia o Peru o Chile o Venezuela o Rest of Latin America • Europe o Germany o France o UK o Russia o Italy o Spain o Rest of Europe • Asia Pacific o China o Japan o India o South Korea o Australia o New Zealand o Singapore o Malaysia o Rest of Asia Pacific • Middle East & Africa o Saudi Arabia o UAE o Egypt o Kuwait o South Africa o Rest Middle East & Africa
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prajnene · 1 year ago
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Marine Battery Market: Expected Growth and Scope Analysis Until 2030
The global marine battery market size was USD 583.4 million in 2020. The market is expected to grow from USD 676.2 million in 2021 to USD 2,055.8 million by 2028, exhibiting a CAGR of 17.05% during the forecast period. The rising focus on developing low emission solutions and increasing development of alternative energy resources is expected to propel market growth. Fortune Business Insights™ presents this information in its report titled “Marine Battery Market, 2021-2028.”
A marine battery, also known as a marine deep cycle battery, is a type of battery specifically designed for use in marine applications. These batteries are designed to provide reliable power for marine vehicles and equipment, such as boats, yachts, and other watercraft.
Segments
By battery, the market is segmented into lithium-ion, fuel cell, lead acid battery, nickel cadmium, and sodium-based. As per capacity, it is classified into less than 100Ah, 100-250 Ah, and greater than 250 Ah. On the basis of design, it is bifurcated into a solid-state battery and flow battery. Based on application, it is classified into defense and commercial. Regionally, it is clubbed into North America, Europe, Asia Pacific, and the Rest of the World.
Report Coverage
The report provides a detailed analysis of the top segments and the latest trends in the market. It comprehensively discusses the driving and restraining factors and the impact of COVID-19 on the market. Additionally, it examines the regional developments and the strategies undertaken by the market's key players.
Browse Summary
List of Key Players Profiled in the Report:
Akasol AG (Germany)
EnerSys (U.S.)
Exide Industries Ltd. (India)
Furukawa Battery Solutions Co. Ltd. (Japan)
S. Yuasa Corporation (Japan)
HBL Power Systems Ltd. (India)
Johnson Controls International (Ireland)
Leclanché SA (Switzerland)
Saft Groupe S.A. (France)
Siemens AG (Germany)
Systems Sunlight SA (Greece)
Toshiba Corporation (Japan)
Wärtsilä Oyj Abp (Finland)
Drivers and Restraints
Strong Demand for Alternative Energy Resources and Maritime Infrastructure to Bolster Growth
Rising demand for alternative energy resources is expected to boost the adoption of marine battery. As per the Maritime Supply Chain Optimization’s study, world trade depends extensively on maritime transport. Furthermore, rising sea trade routes for nearly 90% of goods are expected to fuel the product adoption. Moreover, the rising demand for better maritime infrastructure and tourism is expected to bolster industry development. Also, the rising demand for better connectivity in the marine sector and the adoption of the products are likely to surge the product sales. These factors may drive the marine battery market growth.
However, high costs associated with the product, limited range, and capacity are expected to restrain the market growth.
Regional Insights
Presence of Several Marine Operators to Boost Market Growth in Europe
Europe is projected to dominate the marine battery market share due to the presence of several marine operators. The market in Europe was valued at USD 195.5 million in 2020 and is expected to gain a significant market share in the upcoming years. Further, competitors' procurement of advanced electric propulsions for future marine vessels is expected to fuel industry development.
In North America, the rising utilization of electric propulsion by NOAA, defense utilities, and other governmental and commercial applications is expected to foster industry growth. Further, the rising adoption of marine batteries for leisure boats is expected to boost market development during the pandemic.
In Asia Pacific, there is presence of major manufacturers such as Furukawa Battery Solutions, Korea Special Battery, Exide Industries Ltd., and Toshiba Corporation. These factors may propel market development.
Competitive Landscape
Companies Acquire Contracts to Boost Market Position
Prominent companies operating in the market acquired contracts to boost their market position. For example, Wartsila acquired a contract with Zero Emissions Services BV (ZES) to deliver Warsila's mobile battery container solutions in September 2021. This strategy may enable the company to boost its market position. Furthermore, companies adopt mergers, acquisitions, automated production techniques, and expansions to attract consumers, boost product sales, and achieve organizational goals.
Industry Development
November 2021: Siemens Energy AS was selected by the National Oceanographic and Atmospheric Administration (NOAA) for the completion of a contract and equipping its research vehicles with integrated battery storage solutions, control systems, power, and electric propulsions.
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chemicalresearchupdates · 2 years ago
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Core Materials Market Size 2023 | Key Growth Drivers and Latest Opportunities
The core materials market refers to the industry that supplies materials used in the manufacturing and construction of composite structures, particularly in industries such as aerospace, automotive, wind energy, marine, and construction. Core materials are lightweight, high-strength materials that are used to create the core or inner structure of composite materials, providing stiffness and strength to the overall structure while minimizing weight.
Here is some full information about the core materials market:
Types of Core Materials:
Foam Core Materials: Foam cores are widely used in various applications due to their lightweight and excellent strength-to-weight ratio. The most common types of foam cores include polyvinyl chloride (PVC) foam, polyurethane foam, and polystyrene foam.
Honeycomb Core Materials: Honeycomb cores are made of hexagonal cells, resembling a beehive structure. They are typically constructed from materials such as aluminum, aramid fiber, and thermoplastics. Honeycomb cores offer high strength and stiffness with minimal weight.
Balsa Core Materials: Balsa wood is a natural core material that has been used in the industry for many years. It is lightweight, strong, and has excellent impact resistance. Balsa cores are commonly used in marine and wind energy applications.
Applications of Core Materials:
Aerospace Industry: Core materials are extensively used in the aerospace sector for applications such as aircraft interiors, sandwich panels, radomes, and helicopter rotor blades. These materials help reduce the weight of aircraft and improve fuel efficiency.
Automotive Industry: Core materials find applications in the automotive industry for lightweight panels, interior components, and structural parts. Their use helps enhance fuel efficiency and improve overall vehicle performance.
Wind Energy Industry: Core materials play a vital role in the manufacturing of wind turbine blades. They provide structural strength and stability to the blades while keeping them lightweight for efficient energy production.
Marine Industry: Core materials are used in boat construction, providing buoyancy, stiffness, and impact resistance. They are commonly used in hulls, decks, and bulkheads, contributing to lightweight and high-performance vessels.
Construction Industry: Core materials are utilized in the construction sector for various applications, including roofing panels, wall panels, and flooring systems. They offer improved thermal insulation, acoustic properties, and structural strength.
Market Trends and Growth Drivers:
Increasing Demand for Lightweight Materials: The growing emphasis on fuel efficiency, reduced emissions, and sustainability drives the demand for lightweight materials like core materials in industries such as aerospace, automotive, and wind energy.
Rising Demand in Emerging Economies: Developing economies are witnessing increased infrastructure development, urbanization, and industrialization, leading to higher demand for core materials in the construction and manufacturing sectors.
Advancements in Composite Technology: Ongoing research and development efforts are focused on improving the performance characteristics of core materials, such as enhanced strength, fire resistance, and recyclability, further expanding their applications.
Growing Renewable Energy Sector: The global shift towards clean energy sources, particularly wind energy, drives the demand for core materials in the manufacturing of lightweight and durable wind turbine blades.
Key Market Players: The core materials market is served by several prominent companies, including:
3M Company
Diab Group (Ratos AB)
Gurit Holding AG
Hexcel Corporation
Evonik Industries AG
Armacell International S.A.
The Gill Corporation
Euro-Composites S.A.
Plascore Incorporated
Changzhou Tiansheng New Materials Co., Ltd.
These companies specialize in manufacturing core materials and offer a wide range of products to cater to various industry needs.
It's important to note that the information provided here is based on the knowledge available up until September 2021
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razieltwelve · 3 years ago
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How Do Cars Work (Final Rose)
How do cars and other vehicles work in Final Rose?
The simple answer is that they once operated using a hybrid fuel that combined Dust and petrol to produce a fuel that produced vastly more energy that petrol while burning more completely. At the time, harmful emissions were also captured by purifiers built into the exhaust system.
In the present day, however, most vehicles operate using power cells.
Power cells are basically super batteries capable of energy densities that are orders of magnitude greater than anything on Earth. This is due to the development of Dust-augmented materials and other more exotic materials thanks to highly advanced materials science.
To put things into perspective, a typical scroll has power greatly exceeding the average Earth laptop. A normal scroll can be run for weeks without having to be charged.
A typical car on Remnant holds a dozen power cells. Each of these power cells weighs roughly a kilo (just under two pounds) and can take the average car between 300 to 400 kilometres (between 180 to 250 miles). And that’s an average power cell. The most advanced power cells are capable of far greater levels of performance.
It’s also important to note here that power cells come in different sizes that have been standardised in much the same way that batteries on Earth have. Moreover, the connectors that allow power to be drawn from power cells have also been standardised. The objective is to ensure as much inter-operability as possible. On a world like Remnant, waste is the enemy, so being able to transfer power cells from one device or vehicle to another is key,
With the correct adaptors (which are cheap and widely available), it is possible to power basically anything that uses a power cell with a power cell scavenged from something else. For example, you could power your car with power cells scavenged from scrolls (although you wouldn’t get particularly far).  Likewise, you could power a boat or aircraft by taking the power cells out of a car.
One of the keys to the ascendancy of power cells was the development of increasingly potent ways to generate electricity. When your civilisation has access to functional fusion reactors and anti-matter reactors, then you basically have unlimited electricity. The only issue you have is finding a place to put it all. Without the enormously effective electricity-generating infrastructure that Remnant has, power cells would not be as dominant.
Power cells are also key to disaster preparation. Every family keeps spare power cells on hand, and they can be hooked into a home’s electrical system to ensure power during blackouts, natural disasters, and other interruptions to the normal supply of electricity.
Although power cells can be recharged at home, there are still places you can go to have them charged. These charging stations have access to technology that allows for quicker charging and for charging in bulk (i.e., dozens of power cells at a time). You can also buy pre-charged power cells or bring old or damaged power cells in for repair or refurbishment.
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kibakun02 · 4 years ago
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Naruto Retsuden Epilog
“Mom, is hokage-sama going to coming out soon?”
The small palm of a hand gripped tightly to the hem of the skirt fluttering by
his face.
“Yeah that’s right, you’ll see him soon”
Quietly, the mother looks up to the shrine dedicated to the gods on the hill.
Among the modest crowd on the piled sandstone was a meeting happening between
the 7th hokage and the Daimyo of the Land of Stairs.
Tons of people had gathered at the foot of the hill just to catch a glimpse of
the “hero” on his first visit since he had taken office.
The air around the slope of the hill gently sways, making the thin smoke of an
orange flame rise.
No one understood why it burned.
For the 4,000 years of recorded history, the flame at the top of the hill
continued to burn even through the rainy days. The indelible flame is regarded
as a blessing from the gods and a curse from the devil, since ancient times
it’s been worshiped and been the subject of awe.
Eventually, as the fourth shinobi world war ended with the five great
countries in agreement of social peace, and once the rumors of the mysterious
flame that burned in the corner of a small country reached the ear of Kakashi
Hatake, the hokage at this time, had a team of investigators dispatched.
Their research, consisting of both science and ninjutsu, resulted in the
reveal of a large deposit of natural gas that sat beneath the hill. Natural
gas erupted from underground while the geothermal heat ignited the flame.
The heat from the never-ending bonfire caused a gentle breeze, shaking the
petals of the dull wild violets that bloomed.
The 7th hokage and daimyo of the Land of Stairs came out of the temple exactly
at their scheduled time. Seems like the meeting went off without a hitch.
“Hokage-sama!”
“Seventh! Over here!”
“Do a rasengan!!”
Cheers rose from the crowd gathered by the staircase.
In response to seeing the cheering crowd, the 7th hokage lifted his arm to
form a rasengan just as from behind, his escort from Konoha rushed to push
down his arm in restraint.
“Hokage-sama, please don’t show off your rasengan so carelessly! It could
affect national security!”
“Whaaat? It’s fine. Just a little-…“
The seventh hokage sourly frowned, reluctantly lowering his arm.
Naruto Uzumaki.
The Village Hidden in the Leaves’ top shinobi, the protector of the Land of
Fire, the young leader holds the position of 7th hokage. His hair a bright
blonde, his eyes reminiscent of ramune soda in the summertime
He’s reaching his mid-thirties, but from his juvenile innocence, you’d never
guess.
It’s no secret that he’s the jinchuriki to the nine-tailed fox, but his face
looks closer to that of a racoon than a fox. His big eyes, nose, mouth, in
addition all moved well, making his expressions rich. It wasn’t just his
expressions that were flashy, it was every slight move he made, catching the
eye of the people all around you. He’s your average “smooth talker” type of
leader that pulls you in, but in his case, the love he gives breaks through.
Naruto stopped his feet suddenly in the middle of the staircase, narrowing his
eyes as he threw his gaze far off in the distance. He was sure that he’d be
able to see visible skyscrapers that were lined in the distance behind the
clouds from his view. The dull field connected to the foot of the hill
abruptly ended at the border of the capital and switched completely to a
cosmopolitan view interwoven with inorganic material.
Since the natural gas underground could be easily obtained in the area, it
became widely used as a source of fuel for in the five great nations for
large-scale transportation, causing the Land of Stairs to rapidly develop.
Their Gross Domestic Product increased seventeen times over a decade ago,
their infrastructure improved, welfare enhanced excessively, and life
expectancy increased by 20 years.
There is so much money. What’s missing is tradition, and the story of a hero.
“Hokage-sama, how was your visit to the Land of Stairs?”
Waiting at the bottom of the staircase for the 7th Hokage were interviewers,
surrounding and pointing a microphone at him.
“I was happy to experience the development of the Land of Stairs first-hand.
I had also accompanied the investigators dispatched by the previous hokage. To
be able to get a feel for the Land of Stairs development like this, I’m glad
I came.”
After the hokage gave his comment, a shrill voice rose with “please come
again!”
“haha… well we’ll look for another opportunity”
As the hokage answered softly laughing, applause erupted from all over the
crowd.
The long-established hidden village leaders, everyone in the Land of Stairs’
aspiration. In particular, they had great confidence in the hokage, the leader
of the hidden leaf village. Over 10 years ago, this country, whose livelihood
still depended on their blacksmith industry, received a grant for development assistance by the Land of Fire’s daimyo Madoka Ikkyu and the sixth hokage.
After passing laws for refining the natural gas underground, the country’s
total production per capita grew three times bigger than that of the Land of
Fire, and aid was discontinued. Though they never forget the support they
received in poor times.
The more people like you, and the greater influence you have, the more enemies
you’ll inevitably have. At this time, the person who’d been asked to
assassinate Naruto Uzumaki was surely one of them. Looking at Naruto’s
profile as he continued with the media correspondence, Aze Yanaru narrowed his
sharp eyes. He was an assassination specialist shinobi, changing his
appearance with a transformation jutsu as he approached Naruto.
While the usual strategy to assassination is aiming at your target while
they’re alone, Yanaru often picked places conspicuous and visible to the
public. Unexpected attacks in places with an unknown number of witnesses. What
makes this possible is the use of shadow clones enclosing in a four-man cell.
With his kekkei genkai, Yanaru can share his stored accumulated memories when
his clone disappears, not only with his original body but with the rest of his
clones. It’s a great advantage to have the ability to exchange information
closely should there be any unexpected situations at the site of
assassination.
His shadow clones, A, B, and C, all 3 of them placed and already aiming at the
hokage’s life. On the other hand, only three escorts were guarding the
hokage.
The bounty presented was enormous. If one were to succeed in this job, you’d
have enough to live comfortably for 3 generations.
Yanaru looked at the crowd gathered at the foothill, taking a deep breath to
release his nervousness. The life of the seventh hokage for money. Something
much more than natural gas.
One of Yanaru’s clones, A, hid himself in the thick leaves, aiming at the
seventh hokage from atop a tree.
On the path the hokage walked, there was a luxurious rug, dyed a luxurious red
from sappanwood dye. The root was clear, there was almost no open space
anywhere or blind spots in the perimeter, so aiming from there was a good
location. No doubt that Shikamaru Nara, one of the hokage’s right hand men,
would complain, but he persisted on by the side of the stairs, since this hill
was the most sacred site in the country.
“A” gripped a small firearm in one hand, reciting and confirming his plan.
A state-of-the-art photon gun, issued by his employer, a weapon that emits a
400,000-watt high power (maxima laser) to attack enemies from a distance. The
intense heat from the laser instantly transmits from cell to cell, even if it were to hit the tip of your hair, your whole body will heat itself in a few
minutes, causing you to burst from the inside out.
He raised his face again, readjusting his grip. The questions from the media
are pouring in with rapid succession and without hesitation towards the
seventh hokage.
“Does the Land of Fire import gas not only from us but also from the Land of
Wind? I know that the Land of Wind has been closely tied to the Land of Fire
for a long time, but what do you think about the rumors that both countries
are trying to exclude natural gas from the market by favoring each other?”
“eeeeeeh? Who says that? The kazekage is an old friend, but negotiations
between countries are another story.”
“Then, there’s no favoritism?”
“No, no. We do import a lot of your gas, but we wouldn’t suddenly switch
over if Gaara gave us a friend discount.”
Laughter erupted from the reporters. Whether it was natural or calculated, the
seventh hokage cleverly dodged presumptuous questions from the press.
“A” checked his watch. It was decided that there’d been enough time to
cover the area. Soon, the hokage was to walk on that carpet made just for him
then head out a boat seaplane. Plenty of chances.
Aim there.
Licking his dry lips, “A” clutched the photon gun even tighter.
*whoosh*
The wind of the shot grazed his cheek.
“huh?”
The moment he looked off to the side,
Byi-i-in!
As it shook the air, the shot pierced the body of a tree. “A” was stunned,
shrinking himself back into the branches of the tree.
The hokage should’ve been safe from any distance but for some reason he was
under attack.
When and why did they find out about this place? Who shot the beam? Where was
he? His thoughts still confused, he rammed his hand in his pocket ready to
fight back.
The leaves overhead sway as they fall down. The gloved palm of “A” held his
grip on the photon gun.
“eh....”
A man looked up, eyes sleepy, like the gaze like a goat. The face of a man who
hid his face with a cloth mask.
He didn’t recognize him. This man...
“Kakashi Hatake-” A kunai sank into A’s throat before he could finish saying the name. The tip
of the blade cut through bone and flesh, blood splattered onto the fresh
leaves around him.
A puff of smoke.
“A” disappeared without a trace.
As “A” disappeared, the memory of what happened right before he died flowed
into Yanaru’s body and the body of the others, “B” & “C”.
The last view of “A” was the worst imaginable.
Kakashi Hatake. The man with listless eyes, at first glance he seems
ambitionless and naiive, shinobi are still deceived by this appearance even
while part of the five great nations. His face, the former hokage, is well
known, too.
Being the man who first sent a research team for the natural gas, he was no
less popular than the seventh hokage in the Land of Stairs. Despite this, none
of the people in the crowd noticed him, a sign that Kakashi is completely out
of sight.
After retiring from the 6th hokage title, he spent his days reading the news
from the paper and enjoys visiting hot springs as his hobby. However true,
he’s still on the scene, participating in security for the 7th hokage.
“B” slowly kicked at the dirt beneath his straw sandals.
Kakashi Hatake removed his first blade, deliberately letting the clone see
himself. Intimidation was the purpose. Since the opponent had no chance of
winning against Kakashi Hatake, the third-rate assassinate reluctantly
withdrew. Celebrities had to be self-aware of such disgusting guys. That’s
the reason why he let his head fall, to show the difference in strength, that
there was no room for resistance. “B” pulled his sweaty hand out from his
sleeve.
Easy does it. Stop shaking and looking upset. He got rid of his disturbing
behavior as not to be found out. He sucked in a deep breath of air. Moments
later as he went to exhale, something covered his mouth.
“―――!!”
It continued on, he put his hands up to his neck as he were being strangled,
tiny gasps leaking out. “B” instantly clutched at the wrist of the unknown
person who covered his mouth.
Thin. A woman’s wrist.
“B” tried to kick back his left foot to somehow escape, but he missed. His
toes kicked up and ended up in the air, causing him to lose his balance. His
hunched body held in a firm one-legged hold by the woman, finally stopping
“B” from stirring about.
When the brain becomes deficient in oxygen, it ceases to function. Within the light-headesness and the daze of fading consciousness he could
faintly feel something soft touching his back. She was a woman, after all.
The female ninja with Kakashi Hatake who was guarding the 7th Hokage. She had
the excellent skill of getting rid of someone without anyone in a crowd
noticing, with little room for them to resist her powerful strength.
……Sakura Haruno。
He was convinced she was the one who had gotten him (B),but couldn’t confirm
if his guess was correct or not. Without even a glance at her face, she
tightened her strangle around his neck.
“B” vanished into smoke.
What was going on? Security wasn’t insufficient?
“C” was impatient.
For Kakashi Hatake, he didn’t know a person who didn’t know Sakura Haruno’s
reputation as being a go-getter with brilliant technique in endurance, the two
of them being a part of the 7th hokage’s security. In a face to face fight
with 10-1, you wouldn’t even be considered a challenge.
The 7th hokage walks toward the boat seaplane.
“Calm down”, “C” told himself.
I’m a clone. Even if I were to be attack, I’d just disappear, I won’t
die.
Five seconds passed since “B” vanished. Even if he no longer had his
comrades, he was safe. They haven’t noticed he was the assassin.
“C” touched the photon gun hidden within his jacket.
It’s ok. I can do it.
He takes a deep breath and waits for the hokage to step in front of him.
A little more……
Just a few more steps……
Then, across the red carpet’s pathway, he noticed a black-haired man
standing. He stood out as the tallest man in the perimeter.
While everyone’s eyes were all on the hokage, he only gave his attention to
the masses of people, rather than to the other heroes of the Land of Fire.
His handsome features were too famous among other shinobi.
Sasuke Uchiha――
Are you participating in security to this monster?
It’d be impossible to go with a front facing attack. In a moment of
judgement, “C” pulled a woman within arms reach towards him.
“Don’t move! I’ll kill this woman!”
He shouted with the gun’s barrel to the woman’s temple as the crowd screamed
and scattered.
Sasuke stopped the hokage in his tracks, stepping in front of him in defense.
How convenient. The photon gun had the power to shoot through seven men lined
up in a row.
I’ll shoot them both!
The man went to lift his arm and point the barrel to Sasuke’s chest.
Somehow as he went to move his arm, his fingers moved.
His lightly bent middle finger moved, pulling the trigger.
A laser emitted from the barrel pressed against her head, shooting through
the woman’s temple.
BANG!!
Countless crows flew from within the ruptured head.
“huh?”
Ebony feathers flutter around.
“C” fell to his knees as he suddenly became lethargic, unable to stand up.
Genjutsu.
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stevecarell600 · 2 years ago
Text
Future Scope of Marine Battery Market Size Expects to See Significant Growth At CAGR 17.05% During Period 2021-2028 | Worth USD 2,055.8 Million
The global marine battery market size wasUSD 583.4 millionin2020. The market is expected to grow fromUSD 676.2 millionin2021toUSD 2,055.8 millionby2028, exhibiting aCAGRof17.05%during the forecast period. As per the Maritime Supply Chain Optimization’s study, world trade depends extensively on maritime transport. Furthermore, rising sea trade routes for nearly 90% of goods are expected to fuel the product adoption.The rising focus on developing low emission solutions and increasing development of alternative energy resources is expected to propel market growth.Fortune Business Insights™ presents this information in its report titled “Marine Battery Market, 2021-2028.”
Informational Scource: 
Marine battery is used extensively in marine applications to power the vehicle and lower emissions. The rising focus on developing low emission solutions and rising development of alternative energy resources are expected to boost the adoption of marine batteries globally. Rising emissions globally lead to the adoption of alternative resources that lower pollution. Furthermore, the dwindling lithium-ion resources are expected to attract consumers toward marine battery solutions, thereby fostering the industry’s progress in the coming years.
Segments
By battery, the market is segmented into lithium-ion, fuel cell, lead acid battery, nickel cadmium, and sodium-based. As per capacity, it is classified into less than 100Ah, 100-250 Ah, and greater than 250 Ah. On the basis of design, it is bifurcated into a solid-state battery and flow battery. Based on application, it is classified into defense and commercial. Regionally, it is clubbed into North America, Europe, Asia Pacific, and the Rest of the World.
Report Coverage
The report provides a detailed analysis of the top segments and the latest trends in the market. It comprehensively discusses the driving and restraining factors and the impact of COVID-19 on the market. Additionally, it examines the regional developments and the strategies undertaken by the market's key players.
Drivers and Restraints
Strong Demand for Alternative Energy Resources and Maritime Infrastructure to Bolster Growth
Rising demand for alternative energy resources is expected to boost the adoption of marine battery. Moreover, the rising demand for better maritime infrastructure and tourism is expected to bolster industry development. Also, the rising demand for better connectivity in the marine sector and the adoption of the products are likely to surge the product sales. These factors may drive the marine battery market growth.
However, high costs associated with the product, limited range, and capacity are expected to restrain the market growth.
Regional Insights
Presence of Several Marine Operators to Boost Market Growth in Europe
Europe is projected to dominate the marine battery market share due to the presence of several marine operators. The market in Europe was valued at USD 195.5 million in 2020 and is expected to gain a significant market share in the upcoming years. Further, competitors' procurement of advanced electric propulsions for future marine vessels is expected to fuel industry development.
In North America, the rising utilization of electric propulsion by NOAA, defense utilities, and other governmental and commercial applications is expected to foster industry growth. Further, the rising adoption of marine batteries for leisure boats is expected to boost market development during the pandemic.
In Asia Pacific, there is presence of major manufacturers such as Furukawa Battery Solutions, Korea Special Battery, Exide Industries Ltd., and Toshiba Corporation. These factors may propel market development.
Competitive Landscape
Companies Acquire Contracts to Boost Market Position
Prominent companies operating in the market acquired contracts to boost their market position. For example, Wartsila acquired a contract with Zero Emissions Services BV (ZES) to deliver Warsila's mobile battery container solutions in September 2021. This strategy may enable the company to boost its market position. Furthermore, companies adopt mergers, acquisitions, automated production techniques, and expansions to attract consumers, boost product sales, and achieve organizational goals.
Industry Development
November 2021: Siemens Energy AS was selected by the National Oceanographic and Atmospheric Administration (NOAA) for the completion of a contract and equipping its research vehicles with integrated battery storage solutions, control systems, power, and electric propulsions.
0 notes
thecoroutfitters · 6 years ago
Link
Written by Wild Bill on The Prepper Journal.
As the snow falls and the drifts get higher, we are all familiar with the approaching seasonal end-game – even Punxsutawney Phil has stated the “melt” is less than five (5) weeks away. While celebrated as a part of the right of Spring, while searching for those first green shoots to push their way out of the still cold and damp ground, we all know what comes next from the Mississippi Valley to Gulf States and points north, south, east and west. Mother Natures gift to us all which in some cases can be overwhelming. The potential for floods even without the storms that brought them to us last year. An article submitted by Scott Huntington with a preppers twist.
Whether you live in a flood-prone place or there’s merely the possibility of a rising water line in your area, preparation is everything when it comes to flooding. Every household and workplace is different, but if you’re wondering about some common essential steps to take while preparing for a flood, here are five (5) good places to start.
Build a Preparedness Kit
One of the first things you should do if you want to be prepared for a flood is also the most straightforward. No matter where you live or who you share your life with, it’s worth taking the time to gather the things you’ll need in the event of a disaster. From there, think about where you can place them so you can easily grab them in a hurry.
You can find lots of tips at the DHS’s Ready.gov page, but here are the highlights for what you should have ready:
Any special-needs supplies, especially for children, seniors and pets
Three (3) days’ worth of food (non-perishable)
One (1) gallon of water per day for each person
Multiple flashlights
Emergency Radio with a hand-crank as well as batteries and a solar recharger built in
Well-stocked first aid kit, and the knowledge to use all its contents correctly
A survival whistle for each person, and some practiced signals
The cell/mobile phone just in case its infrastructure magically survives, a method to charge it off grid
A ham radio because the bullet above is sketchy at best
Fires tarter – weatherproof container with matches
Again, for a full list from the government, consult some of the DHS pages about emergency preparedness.
And, as a prepper don’t forget the other essentials:
A dependable knife, and a backup in a pack as these can be lost
A weapon that you are safe, familiar and accurate with in times of need
A plan as to where you are going
After you’ve gathered these supplies, consider how and where you’ll stage them. Place a few “go bags” in a known, public spot in your house. You should always have one in your automobiles and one at your place of work if you commute there via public transportation.
Make a Plan for Communication and Regrouping
Flash floods are proof enough that anybody, nearly anywhere, can be caught flat-footed by mother nature. However, even the most unpredictable flood is no excuse for not having a plan in place. Unless you live by yourself, you owe it to your family to put your heads together and come up with plans for all of the eventualities you can think of where your ability to rejoin or communicate with each other is compromised in any way.
As you put together your household plan — or a plan for your workplace, for that matter — everybody under your roof should be confident answering the following questions:
If a flood happens, will I have the means to receive official warnings and alerts?
Where will I seek shelter?
What is the safest, least flood-prone route I can take to my destination?
How will I get in touch with my family?
The people in our lives are our network and safety net, but that safety net will have big holes in it if you don’t spend time spelling out the details and making sure everybody has the same expectations should you become separated. Suppose you end up separated from your cell phone — do you have all of the relevant phone numbers memorized, recorded and with your supplies?
Once you’ve hammered out a plan, commit it to paper and practice it with your family, including the routes you’d take to make it to safety — either together or apart.
Have a Getaway Vehicle
When push comes to shove, one of the best things you can do for yourself and the ones who depend on you, if you live someplace where floods are common or a possibility, is to own a getaway vehicle. That almost always means a boat. Every person living from South Central Texas to Miami and up to the Jersey Shore now knows the value of a boat of some type.
Knowing how your boat will be powered, and that you’ll have access to extra fuel or power, is essential. Your choices come down to battery-powered or gas-powered, both of which have their ups and downs, or self-powered. Some boat batteries are rated for up to 15 days of operation with a full charge, something to know before you buy.
With a boat it is recommended that you avoid soft-bottom boats so displaced wreckage doesn’t puncture it. Apart from that, remember to choose a model that provides all the storage space you’ll need and all the seating required to accommodate your entire family. It should also be highly maneuverable and lightweight, in case you ever need to carry it to dry land.
Following the mantra of “any port in a storm” there are some less expensive options, with small footprints. More for the individual.
Know How to Prepare — And Upgrade — Your Property
For one reason or another, it’s not always possible to live outside a flood plain. After all, some of these regions might only see significant flooding events once in a blue moon or every few years.
No matter the frequency or likelihood of flooding in your area, you can take some measures around your home and property to ensure it’s prepared to withstand oncoming waters, whether it’s from heavy rains or a bonafide flood. Some examples include the following:
Consider elevating your water heater, furnace and other appliances so they’re out of harm’s way.
Have a professional look over your plumbing system and install check valves. These ensure water can’t enter your home if the water flow is reversed in your pipes.
Take a look yourself, or have a landscaping professional help you, and appraise areas on your property that could benefit from retaining walls and other barriers. Even the wise deployment of sandbags could save some of your property from harm.
Seal any cracks and imperfections in your foundation and basement walls. Choose a waterproofing compound and apply it according to the directions to provide another defense against water intrusion.
If your home has a sump pump, ensure it has a backup power source. If it doesn’t have one, you should seriously consider installing one.
Your property is probably your biggest investment, so take the time required to make sure it’s as prepared as you can make it.
Look After Your Home and Body Systems
Here’s another obvious — keep yourself and your family vaccinated. There’s no excuse not to. In the event of a flood or another type of natural disaster, there’s no telling the debris and other materials you might come into contact with. Ensuring your loved ones are protected against tetanus and other threats is an easy thing to do.
After the flood watch has been declared, you can take several precautions to prepare your home’s systems, too, now that your body’s systems are as ready as you can make them. It’s essential that you shut off your electricity and your gas in the event a flood becomes imminent, and assuming you have warning enough to do so. A flood can be bad enough, but losing your home to a preventable gas leak and resulting explosion is almost certainly the worst-case scenario.
You will find further preparation tips specific to your circumstances and your family’s needs. As you do, ensure you spend time addressing them before severe weather rolls around. There might be some scrambling required today — and maybe tomorrow — before you feel confident you’ve planned adequately. But if you do it right, it means a lot less worrying on the day the flood comes.
The post The Spring Thaw and How to Prepare for a Flood appeared first on The Prepper Journal.
from The Prepper Journal Don't forget to visit the store and pick up some gear at The COR Outfitters. How prepared are you for emergencies? #SurvivalFirestarter #SurvivalBugOutBackpack #PrepperSurvivalPack #SHTFGear #SHTFBag
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todaysmarket · 3 years ago
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Global Hydrogen Storage Market intelligence with competitive landscape in 2026
The report "Hydrogen Storage Market by Storage Form (Physical, Material-Based), Type of Storage (Cylinder, Merchant, On-Site, & On-Board), Application (Chemicals, Oil Refining, Industrial, Transportation, Metal Working), and Region - Global Forecast to 2026".  The hydrogen storage market size was USD 415.8 Million in 2015 and is projected to reach USD 969.6 Million by 2026, registering a CAGR of 8.1% between 2016 and 2026.
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Browse 69 market data tables and 40 figures spread through 141 pages and in-depth TOC on “Hydrogen Storage Market”
Rising demand for transportation fuels, increase in oil consumption, decline of overall crude oil quality, and stringent environmental standards for production of cleaner fuels are some of the factors driving the growth of the hydrogen storage market.
Physical form is the largest segment of the hydrogen storage market.
Physical form is the largest storage form segment of the hydrogen storage market. Physical form of storage includes storing hydrogen in tanks, which are used in various end-use applications, such as ammonia production, crude oil refining, metal working, glass production, and transportation. The physical form segment is driven by the rise in hydrogen demand from refineries due to poor quality crude, stringent regulations on emission by developed countries, and rise in demand for transportation fuel.
On-board segment is expected to witness the highest growth
By type of storage, the on-board segment of the market is expected to witness the highest growth during the forecast period. This segment is driven by the rise in production of transportation fuel cells for applications, such as submarines, ships & boats, and buses among others. The development of hydrogen powered vehicles in Japan and South Korea has also contributed to this segment’s growth.
https://www.prnewswire.com/in/news-releases/hydrogen-storage-market-worth-9696-million-usd-by-2026-609743955.html
Market Dynamics
Drivers
Growth in the demand of transportation fuels
Rise in demand of methanol and ammonia, globally
Increased storage of hydrogen storage tanks in transport applications
Restraints
Limited availability of hydrogen refueling infrastructure in developed economies
Opportunities
Development of low-weight storage tanks for transportation application
Development of new applications for fuel cell market
The key players in the hydrogen storage market are Air Liquide (France), Linde AG (Germany), Praxair, Inc. (U.S.), Worthington Industries, Inc. (U.S.), Luxfer Holdings Plc (U.K.), McPhy Energy S.A. (France), HBank Technologies Inc. (Taiwan), INOXCVA (India), VRV S.p.A. (Italy), and Hexagon Composites ASA (Norway).
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urbtnews · 3 months ago
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Vehicle-To-Grid (V2G) Market Size Is Likely To Reach a Valuation of Around $15.03 Billion by 2031
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Vehicle-To-Grid (V2G) Market Size Is Likely To Reach a Valuation of Around $15.03 Billion by 2031Stay Trendy with URBTNews.com (Subscribe Today Free!) The Vehicle-To-Grid (V2G) Market report provides a detailed analysis of top strategies, market trends, market size, and future growth estimates. This report serves as a valuable resource for new entrants and existing stakeholders to refine their strategies and solidify their market positions. Request sample pages now: https://www.alliedmarketresearch.com/request-sample/A08446 Key factors driving growth of the vehicle-to-grid (V2G) market include rising electric vehicle demand and government initiatives for charging infrastructure development. Growing economies such as China, India, Brazil, and South Africa provide lucrative opportunities for the electric vehicle industry's growth. Additionally, increasing investment in electric vehicle infrastructure in developing countries boosts overall market growth prospects. The report profiles key players like Nissan Motor Corporation, Wallbox, Fermata Energy, and others, offering insights into their strategies. The report details the global vehicle-to-grid market segmentation based on technology, vehicle type, charging type, components, and region. This comprehensive analysis assists market players in establishing strategies aligned with the fastest growing segments and highest revenue generation. Buy now the exclusive report: https://www.alliedmarketresearch.com/checkout-final/e7d40d7c9141edc5025f96a7a95e71f1 The vehicle-to-grid (V2G) market segments include power management, software, unidirectional charging, and bidirectional charging technologies. Battery electric vehicles, plug-in hybrid electric vehicles, and fuel cell vehicles are categorized under vehicle types for market analysis. Based on region, Europe held the largest market share in 2021, expected to maintain its leadership during the forecast period. The region is also projected to achieve the fastest CAGR of 26.6% throughout the forecast period, highlighting robust market dynamics. Get customized reports with your requirements: https://www.alliedmarketresearch.com/request-for-customization/A08446 The report analyzes key global vehicle-to-grid market players using strategies like joint ventures, collaborations, and product launches. These strategies maximize foothold and prowess, providing insights into recent developments, portfolios, and operating segments in the industry. Interested in procuring the research report? Inquire before buying: https://www.alliedmarketresearch.com/purchase-enquiry/A08446 The unidirectional charging segment dominated the market share in 2021, expected to maintain its leadership through the forecast period. In contrast, the bidirectional segment is projected to achieve the fastest CAGR of 26.7% throughout the same period. Check out more related studies published by Allied Market Research: Electric Vehicle Motor Market - Link Solar Boat Market - Link Electric Two-Wheeler Lithium-Ion Battery Management System Market - Link Utility Vehicle Market - Link Electric Vehicle Market - Link Legal Disclaimer: EIN Presswire provides this news content "as is" without warranty of any kind. We do not accept any responsibility for accuracy. Read the full article
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itswallstreetpr · 3 years ago
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Why Infrastructure Talks are the Next Big Catalyst for EV Stocks (KULR, PLUG, TSLA, CLNE, FCEL)
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The news cycle for the EV plays keeps ramping up. On Monday, we saw a group of 28 U.S. House Democrats ask congressional leaders to back $85 billion in funding for electric vehicle charging infrastructure, a big jump over funding proposed in a bill before Congress. That enters into a dialogue with a current $1 trillion in bipartisan infrastructure funding now under consideration, which has $7.5 billion in EV charging infrastructure funding. However, the bill has a ton woven into it that targets the Trump base in powerful ways, which will make the negotiation very interesting, particularly in the house. This is not a simple left-right calculation. There is a real value for real people who will feel really upset if their representatives vote against measures that promise them clear help for the sake of a team game in the field of politics – even if one can make an argument that it’s for the best in the long run. Both the left and the right are actively flirting with and tapping into populism. But that strategy has consequences, primary among which is the inability to deny free money and services to a focus group. Now that the fiscal stimulus boat has left the harbor, it’s going to be tough to deny anything a year ahead of midterms. And just in case you aren’t clear where the White House stands, President Joe Biden called for $174 billion in total spending on electric vehicles in March. That stacks up very well for the EV and sustainable energy plays, including FuelCell Energy Inc (NASDAQ:FCEL), Ballard Power Systems Inc (NASDAQ:BLDP), KULR Technology Group Inc (NYSEAMERICAN:KULR), Plug Power Inc (NASDAQ:PLUG), Clean Energy Fuels Corp (NASDAQ:CLNE), Blink Charging Co (NASDAQ:BLNK), and Tesla Inc (NASDAQ:TSLA). Ballard Power Systems Inc (NASDAQ:BLDP) engages in the design, development, manufacture, sale, and service of fuel cell products for a variety of applications. It focuses on power product markets of heavy-duty motive, portable power, material handling, and backup power, as well as the delivery of technology solutions.  The company’s vision is to deliver fuel cell power for a sustainable planet. Ballard zero-emission PEM fuel cells are enabling electrification of mobility, including buses, commercial trucks, trains, marine vessels, passenger cars and forklift trucks. Ballard Power Systems Inc (NASDAQ:BLDP) recently announced that, effective August 5, 2021, the Company has appointed Mr. Hubertus Muehlhaeuser to the Company's Board of Directors. Mr. Jim Roche, Chairman of Ballard's Board of Directors said, "We continue to ensure a strong matrix of diverse and complementary skills and experiences on our Board. Hubertus brings a strong background in industrial manufacturing, including commercial vehicles, construction machinery, agricultural machinery, and powertrain technologies. His distinguished career has included executing organic and inorganic growth strategies in executive roles with industrial and manufacturing businesses in Europe, the US, and other markets. We are pleased to have Hubertus join our Board table, where his insights and counsel will support continued advancement of Ballard's growth strategy in Europe and around the globe." The context for this announcement is a bit of a bid, with shares acting well over the past five days, up about 6% in that timeframe.  Ballard Power Systems Inc (NASDAQ:BLDP) managed to rope in revenues totaling $22.3M in overall sales during the company's most recently reported quarterly financial data -- a figure that represents a hit to top line growth at a rate of -31%, compared to year-ago data in comparable terms. That said, BLDP is braced by a strong balance sheet, with cash levels exceeding current liabilities ($1.6B against $65.7M).   KULR Technology Group Inc (NYSEAMERICAN:KULR) bills itself as a company that manufactures and licenses next-generation carbon fiber thermal management technologies for batteries and electronic systems. It is the leader in technology that prevents heat-induced catastrophic damage in lithium-ion batteries. KULR appears to have the genuine potential to become one of the most central names in the EV and sustainable battery space as things play out given its remarkable IP and credibility. The company has already built custom heat management technology for two NASA JPL space missions (Mars Perseverance Rover and the mission to put a human back on the Moon’s surface by 2025) and its tech is currently in use on the International Space Station. KULR has also already won over 30 NASA contracts, and has inked deals with the DoT and USAF. KULR Technology Group Inc (NYSEAMERICAN:KULR) recently announced its unaudited preliminary financial results for the second quarter of 2021 ending June 30th, 2021. This came along with a reminder that the company will host its first Battery Solutions Day on Tuesday September 21, 2021. Those interested in attending KULR's Battery Solutions Day live, as well as receiving event updates, may subscribe for email notifications at [email protected]. Turning to its results, this is an early-stage play, so the numbers are relatively small compared to other plays in the space, but KULR is growing like gangbusters. That’s generally the case for the most explosive opportunities. Stock market investors get rich by buying equity in companies destined for big things before they start to put up big numbers. The hint is the rapid growth rate paired with strong IP in a space with a huge addressable market. For KULR, revenue for the three months ended June 30, 2021 came in at an estimated at $620,000, compared with $201,128 for the three months ended June 30, 2020 – over 200% on a year-over-year basis. Gross profits also grew at a double-digit pace. The topline on a 6-month year-over-year basis was up well over 200% as well. “We expect strong year-over-year revenue growth for the rest of 2021, as we continue to build out our management team for mass market applications and scaled-up manufacturing,” said KULR CEO Michael Mo. “Our attention to targeting adjacent markets complementary to our established battery safety and thermal management products, such as recycling and end of battery life shipment logistics, is starting to show traction. Since we received the two Department of Transportation special permits towards the end of Q2, we received increasing customer interest in our safe shipping solutions and expect to see increased market penetration in subsequent quarters as a result of obtaining those much-coveted DoT permits. Our cash position is the strongest in the Company’s history with virtually no debt, while the entire KULR team is laser focused on the execution and delivery of the Company’s strategic growth initiatives with the goal of significantly increasing shareholder value in the quarters and years to come.” KULR Technology Group Inc (NYSEAMERICAN:KULR) also just received an uplist from the OTC onto the NYSE. In other words, the company just stepped into the spotlight as a genuine player in one of the most popular speculative themes in the market right now – EV battery technology – during a period defined by surging retail investor participation for perhaps the first time since the late 1990’s. Given the company’s undeniable credibility and IP research backing, as well as the fact that it hasn’t gotten anywhere near the attention of the other EV plays, KULR could be a glaring opportunity going forward.   Clean Energy Fuels Corp (NASDAQ:CLNE) bills itself as a company that engages in the provision of natural gas as an alternative fuel for vehicle fleets in the United States and Canada. CLNE also builds and operates compressed natural gas (CNG) and liquefied natural gas (LNG) vehicle fueling stations; manufacture CNG and LNG equipment and technologies; and deliver more CNG and LNG vehicle fuel. Clean Energy Fuels Corp (NASDAQ:CLNE) recently announced its operating results for the second quarter of 2021, where delivered 101.4 million gallons in the second quarter of 2021, a 13% increase from 89.5 million in the second quarter of 2020. This increase was principally from the lifting of certain restrictions related to the COVID-19 pandemic, primarily affecting the airports and public transit customer markets. Renewable natural gas ("RNG") gallons delivered increased 19% in the second quarter of 2021 compared to the second quarter of 2020. Andrew J. Littlefair, Clean Energy’s President and Chief Executive Officer, stated "In the second quarter we completed the most important commercial agreement in the history of our Company with Amazon, our business has begun to return to pre-COVID-19 levels, we raised $200 million in growth capital, our earnings were better than expected and there continues to be an increasing understanding of the role our renewable fuel can play today in addressing climate change. We’re also executing on our plans to develop low CI renewable natural gas and to provide renewable natural gas from additional sources to our nationwide fueling network." If you're long this stock, then you're liking how the stock has responded to the announcement. CLNE shares have been moving higher over the past week overall, pushing about 10% to the upside on above average trading volume.  Clean Energy Fuels Corp (NASDAQ:CLNE) managed to rope in revenues totaling $79.2M in overall sales during the company's most recently reported quarterly financial data. Read the full article
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adalidda · 6 years ago
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Picture: Concept illustration of a push boat powered by fuel cell system (credit: ABB)
ABB to enable world’s first hydrogen-powered river vessel
The project objective is to demonstrate that fuel cells are a practical and deliverable propulsion solution for owners and builders of mid-sized vessels carrying more than 100 passengers or the equivalent freight volumes inland or coastally. For this reason, the scope of FLAGSHIPS also includes assessing the operational impact of the switch to hydrogen as a fuel.
Once the fuel cell power plant has been fitted, the plan is to run the vessel daily, with special attention being paid to the refueling procedures needed to meet the operating schedule. Trials will therefore also provide insights into developing and optimizing the refueling infrastructure needed for hydrogen fuel cells in marine operations.
Check more https://adalidda.com/posts/Nkjkgj3nodJA5wtf9/abb-to-enable-world-s-first-hydrogen-powered-river-vessel
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stevecarell600 · 2 years ago
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Marine Battery Market 2021 Growth Opportunities, Top Players, Regions, Application, And Forecast To 2028, Share Worth USD 2,055.8 Million | Exhibiting at CAGR 17.05%
The globalmarine battery marketsize wasUSD 583.4 millionin2020. The market is expected to grow fromUSD 676.2 millionin2021toUSD 2,055.8 millionby2028, exhibiting aCAGRof17.05%during the forecast period. Europe is projected to dominate the marine battery market share due to the presence of several marine operators. The rising focus on developing low emission solutions and increasing development of alternative energy resources is expected to propel market growth.Fortune Business Insights™ presents this information in its report titled “Marine Battery Market, 2021-2028.”
Informational Scource: 
Marine battery is used extensively in marine applications to power the vehicle and lower emissions. The rising focus on developing low emission solutions and rising development of alternative energy resources are expected to boost the adoption of marine batteries globally. Rising emissions globally lead to the adoption of alternative resources that lower pollution. Furthermore, the dwindling lithium-ion resources are expected to attract consumers toward marine battery solutions, thereby fostering the industry’s progress in the coming years.
Report Coverage
The report provides a detailed analysis of the top segments and the latest trends in the market. It comprehensively discusses the driving and restraining factors and the impact of COVID-19 on the market. Additionally, it examines the regional developments and the strategies undertaken by the market's key players.
Segments
By battery, the market is segmented into lithium-ion, fuel cell, lead acid battery, nickel cadmium, and sodium-based. As per capacity, it is classified into less than 100Ah, 100-250 Ah, and greater than 250 Ah. On the basis of design, it is bifurcated into a solid-state battery and flow battery. Based on application, it is classified into defense and commercial. Regionally, it is clubbed into North America, Europe, Asia Pacific, and the Rest of the World.
Drivers and Restraints
Strong Demand for Alternative Energy Resources and Maritime Infrastructure to Bolster Growth
Rising demand for alternative energy resources is expected to boost the adoption of marine battery. As per the Maritime Supply Chain Optimization’s study, world trade depends extensively on maritime transport. Furthermore, rising sea trade routes for nearly 90% of goods are expected to fuel the product adoption. Moreover, the rising demand for better maritime infrastructure and tourism is expected to bolster industry development. Also, the rising demand for better connectivity in the marine sector and the adoption of the products are likely to surge the product sales. These factors may drive the marine battery market growth.
However, high costs associated with the product, limited range, and capacity are expected to restrain the market growth.
Regional Insights
Presence of Several Marine Operators to Boost Market Growth in Europe
The market in Europe was valued at USD 195.5 million in 2020 and is expected to gain a significant market share in the upcoming years. Further, competitors' procurement of advanced electric propulsions for future marine vessels is expected to fuel industry development.
In North America, the rising utilization of electric propulsion by NOAA, defense utilities, and other governmental and commercial applications is expected to foster industry growth. Further, the rising adoption of marine batteries for leisure boats is expected to boost market development during the pandemic.
In Asia Pacific, there is presence of major manufacturers such as Furukawa Battery Solutions, Korea Special Battery, Exide Industries Ltd., and Toshiba Corporation. These factors may propel market development.
Competitive Landscape
Companies Acquire Contracts to Boost Market Position
Prominent companies operating in the market acquired contracts to boost their market position. For example, Wartsila acquired a contract with Zero Emissions Services BV (ZES) to deliver Warsila's mobile battery container solutions in September 2021. This strategy may enable the company to boost its market position. Furthermore, companies adopt mergers, acquisitions, automated production techniques, and expansions to attract consumers, boost product sales, and achieve organizational goals.
Industry Development
November 2021: Siemens Energy AS was selected by the National Oceanographic and Atmospheric Administration (NOAA) for the completion of a contract and equipping its research vehicles with integrated battery storage solutions, control systems, power, and electric propulsions. 
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