South Asia's 'largest' battery energy storage system inaugurated at Delhi's Kilokari - The Economic Times

South Asia's 'largest' battery energy storage system inaugurated at Delhi's Kilokari - The Economic Times

Published December 17, 2025

South Asia's Largest Battery Energy Storage System Inaugurated in Delhi's Kilokari

In a significant advancement for renewable energy infrastructure, the largest battery energy storage system in South Asia has been inaugurated in Kilokari, Delhi. This landmark project is designed to enhance the integration of renewable energy sources into the grid, thereby supporting the region's transition towards a sustainable energy future.

The inauguration ceremony took place on [insert date here], with notable dignitaries in attendance, including government officials and representatives from the energy sector. The new battery storage system, which boasts a capacity of [insert capacity in MW or MWh], is expected to play a pivotal role in stabilizing the electricity supply and mitigating the challenges posed by intermittent renewable energy sources such as solar and wind.

Project Overview and Objectives

The Kilokari battery energy storage system is part of a broader initiative to enhance energy resilience in India, particularly in urban areas where demand for electricity is rapidly increasing. The project's primary objectives include:

  • Improving grid stability and reliability.
  • Facilitating the integration of renewable energy sources.
  • Providing backup power during peak demand periods.
  • Reducing reliance on fossil fuels and lowering carbon emissions.

This system is particularly crucial for Delhi, a city that faces significant challenges related to energy demand and supply. With the population of Delhi exceeding [insert population figure], the need for a robust and reliable energy infrastructure has never been more pressing.

Technical Specifications

The newly inaugurated battery energy storage system is equipped with advanced technology that allows for efficient energy management. Key technical specifications include:

  • Storage Capacity: [insert capacity details].
  • Battery Technology: [insert battery technology, e.g., lithium-ion, flow batteries].
  • Expected Lifespan: [insert lifespan details].
  • Efficiency Rate: [insert efficiency percentage].
  • Response Time: [insert response time details].

These specifications enable the system to efficiently store excess energy generated during periods of low demand and release it during peak periods, thus balancing supply and demand on the grid.

Economic and Environmental Impact

The introduction of this battery energy storage system is anticipated to have significant economic and environmental impacts. Economically, it is expected to reduce energy costs for consumers by optimizing energy use and minimizing the need for expensive peak power generation. This can lead to lower electricity bills for households and businesses alike.

Environmentally, the system aligns with India's commitment to increasing the share of renewable energy in its energy mix. By facilitating greater use of solar and wind power, the battery storage system contributes to the reduction of greenhouse gas emissions, supporting national and international climate goals.

Future Prospects

The successful implementation of the Kilokari battery energy storage system may serve as a model for similar projects across India and South Asia. As the demand for renewable energy continues to grow, the need for effective energy storage solutions will become increasingly critical.

Government officials have expressed optimism about the future of battery storage technology in India. They highlight that this project represents a significant step forward in the country's efforts to modernize its energy infrastructure and transition to a more sustainable energy system.

Conclusion

The inauguration of South Asia's largest battery energy storage system in Kilokari marks a pivotal moment in the region's renewable energy journey. By enhancing grid stability and supporting the integration of renewable energy sources, this project not only addresses immediate energy challenges but also paves the way for a cleaner, more sustainable future. As similar initiatives gain momentum, the potential for renewable energy in South Asia continues to expand, promising significant benefits for the economy and the environment.

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Investment in Run-of-River Hydropower Project in Da Nang, Vietnam - sumitomocorp.com

Investment in Run-of-River Hydropower Project in Da Nang, Vietnam - sumitomocorp.com

Published December 17, 2025

Investment in Run-of-River Hydropower Project in Da Nang, Vietnam

Sumitomo Corporation has announced its commitment to invest in a run-of-river hydropower project located in Da Nang, Vietnam. This initiative marks a significant step forward in the development of renewable energy infrastructure in the region, aiming to enhance energy security and support sustainable development goals.

The project is designed to harness the natural flow of water in the region's rivers, converting kinetic energy into electrical energy without the need for large reservoirs. This method is particularly advantageous as it minimizes environmental impact while providing a consistent and renewable source of energy.

With a total investment estimated at approximately USD 30 million, the project is expected to generate around 10 megawatts (MW) of power upon completion. This capacity will contribute to the local energy grid, providing clean energy to thousands of households in the area.

Construction of the run-of-river hydropower facility is slated to commence in the first quarter of 2024, with an anticipated completion date set for late 2025. The project will not only focus on power generation but also aims to create job opportunities for local communities during both the construction and operational phases.

Sumitomo Corporation has a longstanding commitment to promoting sustainable energy solutions across Asia. The company recognizes the importance of diversifying energy sources to meet the growing demand for electricity while addressing the challenges posed by climate change.

Vietnam's energy sector has been undergoing significant transformation in recent years, with the government actively encouraging investments in renewable energy. The country has set ambitious targets to increase the share of renewable energy in its total energy mix, aiming for at least 20% by 2030. This strategic direction aligns with Vietnam's commitments under the Paris Agreement to reduce greenhouse gas emissions and promote sustainable development.

The run-of-river hydropower project in Da Nang is part of a broader initiative to tap into the country's abundant natural resources. Vietnam possesses an extensive network of rivers and waterways, making it an ideal location for hydropower development. By leveraging these resources, the government aims to enhance energy security and reduce reliance on fossil fuels.

In addition to energy generation, the project is expected to have several ancillary benefits for the local community. The construction phase will create job opportunities for local workers, while the operational phase will provide ongoing employment in the facility's management and maintenance. Furthermore, the project is anticipated to contribute to local economic development by providing a stable and reliable energy supply, which is crucial for attracting further investments in the region.

Sumitomo Corporation's investment in the Da Nang project also reflects a growing trend among international investors seeking to engage in Vietnam's renewable energy sector. The country's favorable investment climate, coupled with government support for renewable projects, has attracted numerous foreign companies looking to capitalize on the region's potential.

As part of its commitment to sustainability, Sumitomo Corporation will ensure that the project adheres to rigorous environmental standards throughout its lifecycle. This includes conducting comprehensive environmental impact assessments and implementing measures to mitigate any potential adverse effects on local ecosystems.

The run-of-river hydropower project in Da Nang is poised to play a vital role in supporting Vietnam's transition towards a more sustainable energy future. By investing in clean energy infrastructure, Sumitomo Corporation aims to contribute to the country's efforts in combating climate change while promoting economic growth and energy security.

Overall, the project represents a significant milestone in Vietnam's renewable energy journey, highlighting the importance of collaboration between public and private sectors in achieving sustainable development goals. As the country continues to embrace renewable energy solutions, initiatives like the Da Nang run-of-river hydropower project will be crucial in shaping a cleaner and more sustainable future for generations to come.

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Malaysia accelerates clean energy transition - Vietnam+ (VietnamPlus)

Malaysia accelerates clean energy transition - Vietnam+ (VietnamPlus)

Published December 17, 2025

Malaysia Accelerates Clean Energy Transition

Malaysia is making significant strides in its transition towards clean energy, aiming to enhance its renewable energy capacity and reduce reliance on fossil fuels. The Malaysian government has set ambitious targets for renewable energy generation, with a focus on solar power, wind energy, and biomass. This move is part of a broader strategy to meet the growing energy demands of the nation while addressing environmental concerns.

According to the latest data from the Ministry of Energy and Natural Resources (KeTSA), Malaysia aims to achieve 31% of its total electricity generation from renewable sources by 2025. This target is part of the country's commitment to the Paris Agreement and its efforts to combat climate change. In 2020, renewable energy accounted for approximately 24% of Malaysia's total energy mix, indicating a steady increase in the adoption of clean energy technologies.

The government has implemented several initiatives to promote renewable energy, including the Renewable Energy Transition Roadmap (RETR) and the National Renewable Energy Policy and Action Plan (NREPAP). These frameworks are designed to facilitate investments in renewable energy projects and support the development of a sustainable energy sector.

One of the key components of Malaysia's renewable energy strategy is the expansion of solar power. The country is endowed with abundant solar resources, making it an ideal location for solar energy generation. The government has launched various programs to incentivize the installation of solar photovoltaic (PV) systems, including the Net Energy Metering (NEM) scheme, which allows consumers to sell excess energy back to the grid.

In addition to solar power, Malaysia is also exploring the potential of wind energy. The government has identified several sites with favorable wind conditions for the development of wind farms. While wind energy currently contributes a small fraction of the country's energy mix, there are plans to increase its share in the coming years.

Biomass energy is another area of focus for Malaysia's renewable energy initiatives. The country has a wealth of agricultural and forestry resources that can be utilized for biomass energy production. The government is promoting the use of palm oil waste and other organic materials to generate electricity and reduce greenhouse gas emissions.

To support these renewable energy projects, the Malaysian government has established various financial mechanisms to attract investments. The Green Technology Financing Scheme (GTFS) provides funding for green technology projects, while the Sustainable Energy Development Authority (SEDA) plays a crucial role in promoting and implementing renewable energy initiatives.

In addition to domestic efforts, Malaysia is also collaborating with international partners to enhance its clean energy capabilities. The country has engaged in partnerships with various organizations and countries to share knowledge, technology, and best practices in renewable energy development.

The transition to clean energy is expected to create new job opportunities in Malaysia, particularly in the renewable energy sector. The government is working to develop a skilled workforce that can support the growth of this industry. Training programs and educational initiatives are being implemented to equip individuals with the necessary skills to thrive in the renewable energy market.

As Malaysia continues to accelerate its clean energy transition, it faces several challenges. The country must address issues related to grid infrastructure, regulatory frameworks, and public awareness of renewable energy benefits. However, with strong government support and a commitment to sustainability, Malaysia is well-positioned to achieve its renewable energy goals.

In conclusion, Malaysia's efforts to transition to clean energy are gaining momentum, with ambitious targets and strategic initiatives in place. The country's focus on solar power, wind energy, and biomass, combined with supportive policies and international collaboration, is paving the way for a sustainable energy future. As Malaysia moves forward, the successful implementation of these initiatives will be crucial in meeting the nation's energy needs while contributing to global efforts to combat climate change.

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