Vanadium Redox Flow Batteries Market Will Reach USD 759.4 Million by 2030

In 2023, the market for vanadium redox flow batteries witnessed an approximate revenue of USD 401.2 million. Projected into the forecast period from 2024 to 2030, the market is anticipated to exhibit a Compound Annual Growth Rate (CAGR) of 9.7%, ultimately reaching a valuation of USD 759.4 million by the end of 2030.

This can be credited to the rising need for vanadium redox flow (VRF) batteries for microgrids and several sectors, the growing requirement for reliable power backup, and the growing trend of their addition to renewable power sources.

The heat and electricity sectors are the highest emitters of greenhouse gases presently, which is why they are making changes to lessen their releases. Thus, the industry for VRFBs will grow as the demand for carbon-neutral electricity surges, as they work even during severe weather. Also, their dependability and long-duration storage make them appropriate for addition with microgrids, even for isolated areas and those that do not have any grid connectivity.

The automotive category, within the end-user category, holds a substantial market share owing to the increasing need for rechargeable batteries in both traditional and electric vehicles. Governments worldwide are actively endorsing electric vehicles (EVs) by implementing short-term sales targets and offering financial incentives. India, for instance, has set an ambitious target of selling 50 million EVs by 2030. The surge in demand for rechargeable batteries is particularly driven by electric and hybrid vehicles, which possess the capability for rapid and cost-effective self-recharging with reduced power consumption.

The trouble of shifting from fossil fuels to low-carbon power sources is worsened by the increasing power consumption. New low-carbon power must target to replace the present fossil fuels in the energy mix while meeting the growing need for heat and electricity.

The Asia-Pacific (APAC) region, accounting for approximately 50% of the market share in 2023, stands as the most prominent, primarily driven by the escalating concerns regarding carbon emissions and the growing dependence on electricity. Developing nations within the region are consistently striving to enhance industrial operations to mitigate carbon emissions.

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EV Charging Cables Market Will Reach USD 3,775.6 Million by 2030

The market size for EV charging cables is projected to be approximately USD 1,287.3 million in 2023, with an anticipated compound annual growth rate (CAGR) of 16.8% from 2024 to 2030. This growth is expected to lead to a market valuation of USD 3,775.6 million by the year 2030.

This development of the market can be credited to the increasing use of EVs due to the growing count of government initiatives to guarantee their acceptance. Furthermore, the rising pace of technical improvements, which are allowing advanced driving ranges and speeds, is contributing toward the development of the industry.

In terms of application, private charging holds the majority market share at approximately 70%, primarily due to the fact that a significant number of electric vehicles (EVs) are charged at the residences of their owners. The predominant type of private Electric Vehicle Supply Equipment (EVSE) consists of slow-charging variants, allowing vehicles to be plugged in overnight for charging.

The Asia-Pacific (APAC) region currently dominates the EV cables market, and it is expected to maintain its leading position until 2030, reaching a value of approximately USD 1.8 billion. This can be largely attributed to the increasing disposable income in the region and the presence of key industry players.

Within APAC, China holds the top position and is projected to experience a Compound Annual Growth Rate (CAGR) of 17.2% throughout the forecast period. This growth is driven by the widespread availability of electric vehicles (EVs), charging stations, and charging cables, coupled with continuous advancements in automotive technologies.

Apart from contaminating the air, fossil-fuel-based cars possess higher maintenance and working prices than EVs. This is mainly because they require changes in oil, fuel filter retrofitting, spark plug replacements, emission checks, and other efforts. On the other hand, 

EVs do not have numerous of these components, which makes their processes lucrative. Furthermore, several of them use regenerative braking, which helps in decreasing the wear and tear on brakes, and also in saving power.

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Exploring the Advantages of Automotive OTA Updates

It is hardly believable to imagine a world where we go inside any store every time to update our phone or computer OS. But we’re used to using OTA technology to keep up with the latest updates such as bug fixing and also launching new functions.

Though currently only a few of us link OTA updates with the auto vehicles, our views will soon change. With the help of this technology, manufacturers are trying to save and make money by looking for means of recalling and introducing updates.

Understanding Automotive OTA Updates 

OTA updates may include the software component known as SOTA, and FOTA – firmware over-the-air. Currently, SOTA updates are more likely to be used in vehicles than FOTA. If you are wondering why, it assists in understanding the differences between firmware and software.

Most of the automotive FOTA updates are directed to the essential systems. Alternatively, SOTA updates are mainly used to address the other non-safety issues such as poor latency that causes laggy touch screens.

Now, let’s look at some major advantages of Automotive OTA Updates:

When your car has a breakdown, it is very stressful and troublesome. The benefit of the OTA updates is that they take much less time from the consumers. Even if there is an advanced coffee maker, nobody would like their day to go by sitting in the dealership’s service waiting room.

A second benefit is money. People want to know how they can pay less for the repairs. Removal of the labor charges by the OTA updates reduces repair costs for any problems that are not recalled or beyond the manufacturing warranty limits. That is also great news for the dealers affected by a national shortage of auto technicians.

Moreover, data scientists will use the benefit of bidirectional connectivity that is being offered by OTA to upgrade the battery technology. Automakers can send or receive data from electric vehicles to enhance their performance over time.

OTA technology additionally makes it possible to monitor in real-time, and this will be very useful for any company that benefits from knowing the location of its drivers at any given moment and how a car is used.

Wrapping This Up

With the growing count of EVs and connected cars, the demand for automotive OTA updates will reach USD 13,959.5 million by the end of this decade.

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Hydrodesulfurization Catalyst Market is Led by the North American Region

The hydrodesulfurization catalyst market produced USD 3,092.9 million in 2023, and it will propel at a compound annual growth rate of 4.9% by the end of this decade, touching a value of USD 4,267.9 million by 2030. 

This is because of the cumulative air pollution from combustion devices in petroleum refineries, houses, motor vehicles, industrial amenities, and forest fires.

On the basis of type, the cobalt–molybdenum category led the industry with a share of about 40%, and it will power at a considerable rate in the years to come. Cobalt–molybdenum-based catalyst is the most used for the hydrodesulfurization of crude oil in refineries. 

This is for the reason that molybdenum catalysts are resilient to poisoning by sulfur, and cobalt-based catalyst has the advantage of high catalytic action, high selectivity on the way to hydrocarbons, weak water, gas shift reaction action, and strong regenerability.

Petrochemicals led the hydrodesulfurization catalyst market, based on end user. Hydrodesulfurization is usually used in the petroleum sector to lower the number of sulfur in crude oil. 

Furthermore, the petrochemicals sector is mounting because of the increasing global demand for products for example fertilizers, plastics, and chemicals resultant from petroleum. This development is powered by industrialization, population development and tech progression.

Furthermore, the application of rules by governments to guard the environment by adapting the sulfur content in gasoline, diesel, natural gas, and kerosene drives the industry.

 It is because of the increasing level of air pollution from combustion vehicles all over the world, the demand for hydrodesulfurization catalyst is on the rise. This trend will continue to grow in the years to come as well.

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North American Region is the Leader of the Remote Power Panel Market

The remote power panel market made about USD 1,248.2 million in 2023, and it will power at a rate of 5% by the end of this decade, touching USD 1,734.7 million by 2030. 

This is credited to the snowballing count of data centers and corporate offices with the increasing level of development at a global level. Remote power panels are used in data centers because they offer local power straight to server racks, with additional control.

These power panels are vital for industrial automation as they provide improved control over the production machinery, therefore letting manufacturers to define, establish, and meet the objectives of production.

The wall-mounted category also makes substantial revenue. This is because these alternatives are small and therefore, take a smaller amount space and are extensively used in network cabinets. Furthermore, their lower cost than further alternatives make them prevalent across industries.

Server rooms also has a considerable share as these spaces offer a central point for establishments for managing their network server resources. Remote power panels offer power distribution extensions from the electricity source straight to server racks, with quite a lot of benefits, such as a high distribution capacity and decreased cooling need. 

Fundamentally, the rising internet use is powering the count of servers, which, is pushing the necessity for efficient distribution of electricity in server rooms.

North America has the largest share in the remote power panel market, and it will power at a rate of 5.2% in the years to come. This has a lot to do with the growing use of data centers and IoT technologies, rising IT & telecom sector, and existence of key cloud service providers. Furthermore, North America is a tech advanced region with a robust industrial base and consequently, has a numerous colocation amenities and data center clusters providing related services.

It is because of the rising number of data centers all over the world, the demand for remote power panels is on the rise. This trend will continue in the years to come as well.

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Rising Number of Smart Cities Boosts APAC Solar Street Lighting Market

 The APAC solar street lighting market was USD 2,315.9 million in 2023, which will rise to USD 6,691.2 million, advancing at a 16.4% CAGR, by 2030.

The growth is mainly because of the reducing costs of such solutions, the growing count of smart cities, and the increasing urbanization in emerging economies.

The centralized category, on the basis of structure type, led the industry. This can be because of the increasing on-grid based solar streetlight disposition that gets a constant electric source from a grid to fuel lights at a great illumination.

The standalone category, on the other hand, will advance at the highest rate, of 16.6%, in the coming years. Companies in this sector have been working on heat-resistant, off-grid standalone lighting solutions, which have resulted in the enhancement of the function of these lighting types, making them more accessible.

The solar panel category, based on component, was the largest contributor to the APAC solar street lighting market in 2023, with a 35% share. This can be because it is essential for the operation of entire street lighting via renewable energy. 

The new category, based on installation, will advance at the fastest rate, of 16.8%, in the years to come. This will be because of the rising government initiatives for LED light installation in this region, particularly in China and India.

The highways & roadways category, on the basis of application, led the industry in 2023, with a 25% share. This can be mainly because of the rising government emphasis on developing high-class infrastructure and the increasing placement of outdoor lighting on roadways and highways.

China led the industry, and it is likely to advance at a 17.0% compound annual growth rate, in the coming years. This can be mainly because of the continuing building of several highways, streets, flyovers, and airports; and the increasing urbanization.

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APAC Has Significant Position in Semiconductor Chemicals Market

The size of the semiconductor chemicals market was about USD 12.5 billion in 2023, and it will power at a growth rate of 12.5% by the end of this decade, to touch a total value of USD 28.3 billion by 2030. 

Furthermore, the progressing semiconductor technologies, for example complex designs, and the evolution to smaller nodes require the expansion of new chemicals, for meeting the needs for miniaturization, competence, and performance.

The rising requirement for cutting-edge technologies and products, such as 5G, autonomous automobiles, and AI, has formed a high demand for semiconductor components that can endure high temperatures and other extreme conditions.

APAC semiconductor chemicals market has a substantial position, and it will reach a value of over USD 6 billion by 2030. This is credited to the mounting automotive sector and the increasing production of semiconductors. 

The requirement for semiconductors is one of the biggest trends, and because of it, the industry is rising at a substantial rate. This is because of their vital role of powering electronic appliances, for example smartphones, tablets, and laptops. Consequently, this trend is shaping the requirement for supreme chemicals that allow higher accuracy in the wafer fabrication process, augmented production, and cost-efficiency.

 Due to the growing use of electronic devices all over the world, the demand for semiconductor chemicals is on the rise. This trend will continue in the years to come as well.

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