Wind Turbine Pitch Supercapacitor Market - Forecast(2023 - 2028)
Wind Turbine Pitch Supercapacitor Market Overview
The
global Wind Turbine Pitch Supercapacitor Market is estimated to grow at a CAGR
of 15.12% during the forecast period 2022-2027 and reach $347.9 million by 2027,
from around $147.5 million in 2021. In comparison to batteries,
ultracapacitors offer a high power density, high efficiency and improved pitch control, extended service
life, predictable ageing, a wide operating temperature range, and are light
weight. Modern applications in the rapidly expanding renewable energy market
place high demands on both their components and their operating strategy. As
the cost of electricity generated by renewables like wind and solar falls
closer to the cost of electricity supplied by traditional power plants, demand
for components with high dependability and efficiency rises. Ultracapacitors,
which are fast-responding, power-packed energy storage devices that have been
integrated into a range of applications and sectors, are the most often
utilized pitch technology for turbines today, accounting for 43% of newly
installed turbines worldwide in 2015. Batteries account for 20% of electric
pitch systems, while hydraulic turbines account for the remaining 37%.
Wind Turbine Pitch Supercapacitor Market Report Coverage
The report: “Wind
Turbine Pitch Supercapacitor Market – Forecast (2022-2027)”, by IndustryARC
covers an in-depth analysis of the following segments of the Wind Turbine Pitch
Supercapacitor market
By Type: Electrostatic double-layer Capacitors, Hybrid
Capacitors, Pseudo Capacitors
By Capacitance: 350-800F, 800-3000F, >3000F
By Geography: North America (U.S, Canada, Mexico), South America (Brazil, Argentina and others), Europe (Germany, UK, France, Italy, Spain, Russia and Others), APAC (China, Japan India, SK, Aus and Others), and RoW (Middle east and Africa)
Key Takeaways
- While the accessible potential for deployment of wireless connectivity in substation automation is high, the acceptance of the technology is afflicted by myriad set anxieties and worries close to the wireless technology, one among which is the lack of interoperability
- Approximately 83% of the end-users across substation automation regarded interoperability as major concern.
- Accomplishment of interoperability would necessitate a construction of full fledged architecture with software based systems, in which disparate standards can be applied.
- Being connected to a substation and retrieving
vital information from remote devices has always been a challenge for system
designers. Not all the substations are of the same size or importance. Many
substations are in remote areas where communication could be the biggest
challenge when it comes to monitoring a substation.
Wind Turbine Pitch Supercapacitor Market Segment Analysis – By Type
Electrostatic double-layer Capacitors dominated
the Wind Turbine Pitch Supercapacitor Market with a value share of
approximately 53% in 2021, Electric double layer capacitors are one of the next
steps in lowering costs and increasing the efficiency of wind turbines.
Ultracapacitors can tolerate rapid, repetitive charges and discharges at high
power since they don't rely on electrochemical reactions. Hybrid capacitors
feature fewer flaws than traditional aluminium electrolytic capacitors, as well
as benefits such as safety and low layer capacitors (LC), which drive category
growth. Utilities dominated the Wind Turbine Pitch Supercapacitor Market with a
value share of approximately 78% in 2021. Due to the technology's numerous
advantages over battery-based pitch systems, the wind industry is seeing a
growing shift toward ultracapacitor wind pitch systems. Because an
ultracapacitor stores energy in an electric field rather than a chemical
process, it can withstand hundreds of thousands of charge and discharge cycles
and function at considerably lower and higher temperatures than a battery.
Ultracapacitors are noted for their unique ability to deliver a strong burst of
power—unlike batteries, they can swiftly and efficiently capture and release
energy. The significant benefit for wind park developers is that they may be
able to access previously unfavourable sites, particularly in the offshore wind
industry, which is expected to increase at over 23% per year through 2025.
Wind Turbine Pitch Supercapacitor Market Segment Analysis – By Capacitance
The capacitance range from 800-3000F are
moderately used in the pitch control systems. The growing demand with the
rising construction and wind energy installation projects are analyzed to boost
the market growth rate during forecast period 2022-2027. In India there are
around $55.7bn wind power projects under construction. As stated by US
Department of Energy, With spending estimated to $15bn, Massachusetts is
constructing 6 new projects. With a cumulative investment through 2019 of
$4.2bn, New York will build 18 new projects with spending estimated to
$11bn.The global Wind power installed capacity grew at a CAGR of 11.14% during
the period 2015-2020 and reached total installed capacity of 733 GW by 2020.
Despite the pandemic it increased by 12.68% from 2019. Around 93GW of new wind power capacity was
installed in 2020 according to the GWEC, out of which a significant majority
share was from China with 55.91% followed by USA with 18.19% and surprisingly
Brazil with 2.47%. It Is now estimated
that 113GW capacity will be installed in 2025, growing each year during
2021-2025. The wind power capacity growth annually augurs well for the
supercapacitor companies, targeting sales with respect to the wind turbine
pitch control systems.
Wind Turbine Pitch Supercapacitor Market Segment Analysis – By Geography
APAC dominated the Wind Turbine Pitch Supercapacitor
Market with a value share of approximately 60% in 2021, Continuous
infrastructural development and rapid industrialization are two aspects driving
the growth of the Wind Turbine industry, particularly in China, which has
fuelled demand for the market in this region. However, due to significant
demand for Wind Turbine Pitch Supercapacitor in big and mid-sized enterprises,
North America is predicted to grow at a faster CAGR throughout the projection
period. Approximately 20% to 30% of the wind turbines in the field are equipped
with an ultracapacitor electrical pitch control system. Ultracapacitor-based
pitch control systems have a lower total-cost-of-ownership than battery- based
systems. The electrical system costs excluding the energy storage itself tend
to be lower due to simpler charging and monitoring systems. The portion of
costs of a pitch control system compared to the entire system cost of a wind
turbine is between 3% to 5%. Considering total cost of ownership, the balance
shifts in favor of ultracapacitor based systems due to the long life and
minimal maintenance. Considering a 20-year-period as typical wind turbine
service life, the total energy storage cost due to periodical battery
replacement is 2.5 times the total cost of an equivalent ultracapacitor energy
storage system.
Wind Turbine Pitch Supercapacitor Market Drivers
Higher adoption of Pitch super capacitors in wind turbines
Hydraulic systems are complex and require heavy
maintenance and are difficult to troubleshoot when issues occur. Lead-acid
batteries similarly require maintenance throughout their lifetime, leading to
expensive downtime. However, ultracapacitors provide several advantages over
competing technologies such as no maintenance required throughout the 15+ year
lifetime and reaction time measured in milliseconds. Ultracapacitors
significantly reduce the risk of collateral damage, while decreasing
maintenance cost, and increasing reliability. Ultracapacitors are very
efficient energy storage devices. Short-term imbalances between power demand
and power availability are buffered by this extremely dependable energy
storage. Ultracapacitors can function at a wide variety of temperatures and
have exceptional low-temperature performance. It is not unusual for
ultracapacitors to have a 97% or greater efficiency. Due to their operating
features, particularly the high power density, ultracapacitors are an excellent
alternative for electric pitch control systems. An electric pitch control
system has a modest energy requirement that ultracapacitors can readily meet. A
blade pitch order usually takes around 30 seconds to complete. Systems based on
ultracapacitors are smaller and lighter, and they don't need to be enlarged to
handle high power cycling. Ultracapacitors are also recognised to be a green
technology because of their great efficiency and the materials utilized in their
production.
Global investments in renewable energies such as wind turbines
As stated by US government, Wind power
installations outpaced those in solar power for the first time in several years
and represented $24.6 billion of investment. Wind provides more than 10% of
electricity in 16 states, and over 30% in Iowa, Kansas, Oklahoma, South Dakota,
and North Dakota. New wind projects account for annual investments of over $10
billion in the U.S. economy. The United States has a vast domestic resources and
a highly-skilled workforce, and can compete globally in the clean energy
economy. As stated by NREL, Offshore wind could trigger more than $12 billion
per year in U.S. capital investment in offshore wind projects. As stated by
EIA, the share of U.S. electricity generation from wind accounted to about 8.4%
in 2020. Incentives in Europe have resulted in a large expansion of wind energy
use there. China has invested heavily in wind energy and is now the world's
largest wind electricity generator. In 2019, 127 countries generated a total of
about 1.42 trillion kWh of wind electricity.
Wind Turbine Pitch Supercapacitor Market Challenges
High Capital Cost
Although the adoption of the wind turbines is
significant, the installation costs are high which are hindering the market
growth rate. The capital cost of the wind generated power is 28-55USD whereas,
the gas generated power is 11USD, Hence the cost is thrice to that of the
conventional systems. The costs incurred in the wind turbine installation
include the heavy machinery and the capacitors involved in the pitch control
are made of high cost materials, hence the overall costs are high which are
majorly hampering the market growth rate during the forecast period 2022-2027
Wind Turbine Pitch Supercapacitor Market Landscape
Technology
launches, acquisitions, and R&D activities are key strategies adopted by
players in the market. Wind Turbine Pitch Supercapacitor top 10 companies include:
- Maxwell Technologies
- Kemet
- Anwei Technology
- Vitrocell
- Kamcap
- Vinatech
- Skeleton Technology
- Nippon Chemi-con
- Yunasko
- CSI Capacitors
Recent Developments
- In October 2020, Skeleton Technologies in cooperation with Wrightbus will supply high energy ultracapacitor model to fuel the cell buses in UK. The two times higher energy density makes them an ideal addition to the hydrogen fuel cells in emission free transportation.
- In August 2021, Vitzro Cell acquired Flex Power Co Ltd in order to enhance their product portfolio surrounding Supercapacitors.
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