NEW YORK, Jan. 6, 2020 /PRNewswire/ --
The widespread deployment of batteries in power systems and
transportation applications is expected to face challenges related
to the raw material supply chain and the environmental impact of
the materials.Current energy storage systems are expensive and
difficult to scale, mainly due to the cost and performance of the
battery chemistry.
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https://www.reportlinker.com/p05837278/?utm_source=PRN
The cutting-edge innovations in battery storage technology have
potential to address the present and future challenges of the
energy storage sector with the production of high-performance,
cost-efficient batteries. The novel battery chemistries are being
developed in order to address the present limitations of Li-ion
batteries, such as high cost, raw materials supply shortage, and
safety issues.
This research service, 'Disruptive Battery Storage Technologies,'
focuses on the emerging innovations and the latest achievements in
the development of batteries beyond Li-ion chemistry. The findings
depicted in this study will help to drive the economic growth and
technology revolution of the battery industry. The study exhibits
the major challenges faced by technology innovators in developing
an affordable and high-performance battery chemistry and design,
while gaining market acceptance by transforming technology
innovation to market competitiveness. The study presents a snapshot
of emerging battery storage technologies, their advantages and
limitations, possible application and impact on battery market. The
discussed battery storage technologies with different chemistries
are optimized for different applications and market fit, and are
aiming to reduce the cost of energy storage. Special attention is
given to the factors determining the commercialization potential of
emerging battery storage technologies. Successful case studies of
successful technology development and implementation are included
in report. Additionally, it presents the performance analysis and
comparison of different battery storage technologies, adoption
scenario, and applications in the future. The growth opportunities
of Disruptive Battery Storage:
•The main factor that drives researchers to look well-beyond
current Li-ion technology is a high battery cost. Novel battery
technologies are aiming to reduce the cost of battery, and create
new opportunities for energy and automotive sectors. The cost of
disruptive battery energy storage of beyond Li-ion chemistry must
be competitive with conventional energy storage to be commercially
viable.
•Based on the wide availability and low cost of sodium, sodium-ion
batteries are considered as a substitute for Li-ion batteries for
grid-scale energy storages. It is expected that the sodium-ion
battery will first of all gain market acceptance and become the
first commercially available battery beyond Li-ion chemistry.
•Battery beyond Li-ion chemistry is at an early stage of
development and commercialization, and could potentially disrupt
the market in the coming 5-10 years. The study deeply illustrates
the following:
•Disruptive battery storage technologies – overview and current
trends
•Factors driving adoption and development of battery storage
•Key properties, drawbacks, major innovations, and research and
development (R&D) activities
•Snapshot of disruptive battery storage technologies, applications,
and future prospects
•Technology benchmarking for smart decisions
Read the full report:
https://www.reportlinker.com/p05837278/?utm_source=PRN
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