Standalone energy storage projects nearly 65% of issued Q1 tenders in India - Asian Power

Standalone energy storage projects nearly 65% of issued Q1 tenders in India - Asian Power

Published December 25, 2025

Standalone Energy Storage Projects Account for Nearly 65% of Issued Q1 Tenders in India

In the first quarter of 2023, standalone energy storage projects emerged as a significant focus within India's renewable energy sector, comprising approximately 65% of all tenders issued during this period. This trend highlights the growing emphasis on energy storage solutions as the country aims to enhance its renewable energy capacity and reliability.

According to recent data, the Indian government and various state agencies have issued a total of 16 tenders for standalone energy storage projects, amounting to a cumulative capacity of 2,882 megawatt-hours (MWh). This represents a substantial increase compared to the previous quarter, reinforcing the importance of energy storage in India's energy transition strategy.

The surge in tenders for standalone energy storage systems is primarily driven by the need to address the intermittent nature of renewable energy sources, such as solar and wind. Energy storage systems play a crucial role in stabilizing the grid by storing excess energy generated during peak production times and releasing it during periods of high demand or low generation.

Among the various types of energy storage technologies, lithium-ion batteries have emerged as the predominant choice for many of these projects. Their efficiency, scalability, and decreasing costs have made them a preferred option for developers and investors alike. Furthermore, advancements in battery technology continue to enhance the performance and lifespan of energy storage systems.

The Indian government has been proactive in promoting energy storage solutions as part of its broader renewable energy agenda. Initiatives such as the National Energy Storage Policy aim to create a conducive environment for the development and deployment of energy storage technologies across the country. This policy framework is expected to facilitate investments, research and development, and the establishment of manufacturing capabilities for energy storage systems.

In addition to standalone energy storage projects, the Indian renewable energy landscape is witnessing a growing trend towards hybrid systems that integrate energy storage with renewable generation sources. These hybrid systems offer enhanced flexibility and reliability, allowing for more efficient utilization of renewable resources.

As the demand for energy storage solutions continues to rise, several key players in the energy sector are actively seeking opportunities to participate in this burgeoning market. Major energy companies, start-ups, and technology providers are collaborating to develop innovative solutions that meet the diverse needs of consumers and businesses.

Furthermore, the integration of energy storage with digital technologies, such as artificial intelligence and the Internet of Things (IoT), is expected to drive further efficiencies and optimization in energy management. These advancements will enable better forecasting, demand response, and grid management, ultimately contributing to a more resilient energy system.

The increased focus on energy storage is also aligned with India's commitment to achieving its ambitious renewable energy targets. The country aims to reach 500 gigawatts (GW) of renewable energy capacity by 2030, with a significant portion of this capacity expected to come from solar and wind sources. Energy storage will be essential in ensuring that this renewable energy can be effectively harnessed and utilized.

As the first quarter of 2023 comes to a close, the outlook for standalone energy storage projects in India remains positive. The ongoing issuance of tenders and the active participation of various stakeholders indicate a robust market potential for energy storage solutions. This trend is expected to continue as India navigates its transition towards a more sustainable and resilient energy future.

The data from Q1 of 2023 reflects a broader global trend in which energy storage is becoming an integral component of energy systems worldwide. Countries around the globe are recognizing the importance of energy storage in facilitating the integration of renewable energy sources and achieving energy security.

In conclusion, standalone energy storage projects are playing a pivotal role in shaping India's renewable energy landscape. With nearly 65% of issued tenders in Q1 dedicated to these projects, the emphasis on energy storage is set to grow as the country strives to meet its renewable energy goals. The continued development and deployment of energy storage technologies will be essential in ensuring a reliable and sustainable energy future for India.

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$170M geothermal de-risking facility in the Philippines officially launched - ThinkGeoEnergy

$170M geothermal de-risking facility in the Philippines officially launched - ThinkGeoEnergy

Published December 25, 2025

$170 Million Geothermal De-Risking Facility Launched in the Philippines

The Philippines has officially inaugurated a significant geothermal de-risking facility, with an investment totaling $170 million. This facility aims to enhance the development of geothermal energy resources in the country, which is known for its rich geothermal potential. The launch of this facility marks a pivotal moment in the Philippines' renewable energy landscape, particularly in the geothermal sector.

The initiative is part of a broader effort to promote sustainable energy solutions and reduce reliance on fossil fuels. The geothermal de-risking facility is designed to mitigate the financial risks associated with geothermal exploration and development, making it more attractive for investors and developers in the renewable energy sector.

Geothermal energy is a crucial component of the Philippines' energy mix, contributing significantly to the country’s electricity supply. The Philippines ranks as the third-largest producer of geothermal energy in the world, following the United States and Indonesia. The country has an installed geothermal capacity of approximately 1,900 megawatts, which accounts for around 13% of the total electricity generation in the country.

The establishment of the geothermal de-risking facility aims to address the challenges faced by geothermal developers, particularly in the early stages of project development. These challenges often include high upfront costs, technical uncertainties, and long lead times associated with geothermal exploration. By providing financial support and reducing risks, the facility is expected to encourage more investments in geothermal projects.

Officials involved in the launch of the facility emphasized the importance of geothermal energy in achieving the Philippines' renewable energy targets. The government has set ambitious goals to increase the share of renewable energy in the overall energy mix, aiming for 35% by 2030 and 50% by 2040. The geothermal de-risking facility is seen as a crucial step towards achieving these targets.

The facility will offer various financial instruments to support geothermal projects, including grants, loans, and guarantees. These financial tools are designed to assist developers in covering the costs associated with exploration drilling, resource assessment, and feasibility studies. By lowering the financial barriers, the facility aims to stimulate growth in the geothermal sector and attract both local and international investors.

In addition to financial support, the facility will also provide technical assistance and capacity-building programs for project developers. This support aims to enhance the technical skills and knowledge of stakeholders involved in geothermal energy development, ensuring that projects are executed efficiently and effectively.

The launch of the geothermal de-risking facility has garnered positive reactions from various stakeholders in the renewable energy sector. Industry experts believe that this initiative will significantly boost the geothermal market in the Philippines, leading to the development of new projects and the expansion of existing ones. The facility is expected to play a vital role in unlocking the country’s geothermal potential, which remains largely untapped.

Currently, there are several geothermal projects in the pipeline in the Philippines, with potential sites identified across the archipelago. The de-risking facility is anticipated to accelerate the development of these projects, contributing to the country’s energy security and sustainability goals.

The Philippine government, in collaboration with various partners, is committed to promoting renewable energy sources, particularly geothermal energy. The establishment of the geothermal de-risking facility aligns with the government’s broader strategy to transition towards a more sustainable energy future, reducing greenhouse gas emissions and enhancing energy resilience.

Overall, the $170 million geothermal de-risking facility represents a significant investment in the future of renewable energy in the Philippines. By addressing the financial and technical challenges faced by geothermal developers, the facility aims to unlock the full potential of the country’s geothermal resources, paving the way for a greener and more sustainable energy landscape.

As the Philippines continues to harness its geothermal potential, the launch of this facility is expected to attract increased interest from investors and developers, ultimately leading to the growth of the geothermal sector and contributing to the country’s renewable energy goals.

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Google Signs First Offshore Wind Deal in Asia to Power Taiwan Data Center with 24/7 Clean Energy - ESG News

Google Signs First Offshore Wind Deal in Asia to Power Taiwan Data Center with 24/7 Clean Energy - ESG News

Published December 25, 2025

Google Signs First Offshore Wind Agreement in Asia to Supply 24/7 Clean Energy for Taiwan Data Center

Google has made a significant move in the renewable energy sector by signing its first offshore wind power agreement in Asia. This landmark deal is aimed at providing 24/7 clean energy to its data center located in Taiwan. The agreement marks a pivotal step for Google as it continues to expand its commitment to sustainability and clean energy initiatives across the globe.

The agreement was formalized with the Taiwan-based company, Ørsted, a leading global renewable energy company specializing in offshore wind projects. This partnership is expected to bolster Taiwan's renewable energy landscape while also supporting Google's ambitious climate goals.

Details of the Offshore Wind Agreement

The deal involves the procurement of energy from Ørsted’s Greater Changhua offshore wind farm, which is currently under development. Once operational, this wind farm is anticipated to generate approximately 900 megawatts (MW) of clean energy, enough to power hundreds of thousands of homes in the region.

Google's commitment to utilizing 24/7 clean energy is a key component of its environmental strategy. The company aims to ensure that its data centers operate on renewable energy around the clock, thus reducing its carbon footprint significantly. This initiative aligns with Google's goal of operating on 100% renewable energy by 2030.

Impacts on Taiwan's Renewable Energy Sector

This partnership is expected to have a positive impact on Taiwan's renewable energy sector. The Greater Changhua offshore wind farm is part of Taiwan's broader strategy to increase its reliance on renewable energy sources, aiming to reach 20% of its total energy generation from renewables by 2025.

According to the Taiwanese government, the offshore wind sector is projected to create thousands of jobs and stimulate economic growth. The collaboration with Google is expected to enhance investment in renewable technologies and infrastructure, furthering the country’s transition to a low-carbon economy.

Google's Commitment to Sustainability

Google has been a leader in the tech industry regarding sustainability initiatives. The company has pledged to operate its global data centers on renewable energy and has been actively investing in various renewable energy projects worldwide. This new agreement with Ørsted is a testament to Google's ongoing commitment to reducing its environmental impact and promoting sustainable energy solutions.

In addition to its energy procurement strategies, Google has also been working on improving the energy efficiency of its data centers. The company has invested in advanced technologies and innovative cooling solutions to reduce energy consumption, further enhancing its sustainability efforts.

Future Outlook

The signing of this offshore wind deal represents a significant milestone not only for Google but also for the renewable energy sector in Asia. As countries around the world strive to meet climate goals and reduce greenhouse gas emissions, partnerships like this will be crucial in accelerating the transition to renewable energy sources.

As the Greater Changhua offshore wind farm progresses towards completion, it is anticipated that Google will continue to explore additional renewable energy projects in the region. This approach will not only support its operational needs but also contribute to the broader goals of reducing carbon emissions and promoting sustainable energy practices in Asia.

Conclusion

Google's first offshore wind deal in Asia is a significant step towards achieving its sustainability goals while supporting Taiwan's renewable energy ambitions. The collaboration with Ørsted is set to pave the way for future investments in clean energy, demonstrating the vital role that technology companies play in advancing the global transition to renewable energy.

As the world moves closer to a sustainable future, partnerships like this will be essential in shaping the energy landscape and promoting the use of clean, renewable resources. The commitment to 24/7 clean energy is a noteworthy stride in Google’s ongoing efforts to operate sustainably and responsibly within the energy sector.

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