The Phase I 100MW/200MWh Nanlang energy storage power station, supplied by Sineng Electric, has now been successfully commissioned and put into operation. As the first large-scale standalone energy storage project on the grid side to be completed and commissioned in Zhongshan, China, the facility not only injects enhanced flexibility into the regional power grid, but establishes efficient and reliable revenue mechanism through an innovative frequency regulation service model.

Grid-Forming Foundation, Intelligent Frequency Regulation

The project was invested in and developed by Shennan Dianxiwan (Zhongshan) Company, with Sineng Electric providing the core equipment, 1,250 kW centralized energy storage PCS units. The system is equipped with Sineng Electric’s second-generation enhanced hybrid grid-forming technology, incorporating globally leading IGBT drive technology and advanced intelligent control algorithms. As a result, the solution demonstrates significant advantages in three critical areas including response speed, command latency, and control accuracy, with its comprehensive frequency regulation performance index (K value) ranking among the best in the industry.

Since entering commercial operation six months ago, the power station has become an indispensable “gold-standard auxiliary service provider” for the regional grid. Supported by Sineng Electric’s energy storage PCS as the core equipment, the station has repeatedly delivered high-quality secondary frequency regulation services, effectively smoothing grid frequency fluctuations. The PCS offers flexible, on-demand adjustable ramp rates, reaching up to 50Pn/s, with a response time of ≤5 ms and a control accuracy error of no more than 0.5%. Much like a “speed stabilizer” for a high-speed power system, the solution significantly enhances the stability and reliability of electricity supply for thousands of households.

Sineng Electric has also confirmed its participation in the 14th Energy Storage International Conference and Expo (ESIE 2026), register now to attend Asia’s Largest Energy Storage Trade Show for free:

What: The 14th Energy Storage International Conference & Expo

When: Conferences: March 31 - April 2, 2026

Exhibitions: April 1-3, 2026

Where: CIECC Beijing, China

Address: No. 55 Yudong road, Shunyi District, Beijing China

According to foreign media reports, the Egyptian government recently announced that it has signed a series of agreements worth over 1.8 billion USD with Norwegian renewable energy developer Scatec and Chinese energy storage company Sungrow. These agreements aim to build large-scale solar+storage projects and promote local manufacturing of battery energy storage systems. This series of agreements is a key initiative for Egypt to expand its clean energy installed capacity and improve its new energy industry chain.

Scatec will develop the “Energy Valley” project in Minya, which will include the construction of a large-scale integrated solar power and energy storage plant. Meanwhile, Sungrow will build a battery energy storage system manufacturing plant in the Suez Canal Economic Zone (SCZONE) to support energy storage equipment for the project and the regional market.

Both projects are being advanced with the coordination of Egyptian Ministry of Electricity and Renewable Energy and the Suez Canal Economic Zone Authority. Egyptian Prime Minister Mostafa Madbouly stated that these projects highly align with the country’s strategy of localizing new energy industries, and that localizing energy storage and renewable energy manufacturing will be key pillars for enhancing Egypt’s energy security and driving its green transformation.

As part of the project arrangements, the Egyptian Electricity Transmission Company (EETC) has signed a Power Purchase Agreement (PPA) with Scatec, while the New and Renewable Energy Authority (NREA) has signed a land use agreement for the Energy Valley project. Additionally, Sungrow has secured the land use rights for building the battery energy storage manufacturing plant in the TEDA Industrial Zone in SCZONE.

Furthermore, Scatec and Sungrow Energy have signed a battery supply contract, under which Sungrow Energy will provide the battery energy storage systems for the Energy Valley project in Minya.

According to the introduction, the Energy Valley project is positioned as one of the largest integrated clean energy projects in the world, and the first solar+storage project in the region capable of providing stable power supply around the clock. The project will build a 1.7 GW (AC) solar photovoltaic capacity, along with a total of 4 GWh of battery storage systems, distributed across Minya, Qena, and Alexandria. The project will also build new substations and dedicated transmission lines to provide clean electricity to the Wadi El-Sereiriya Industrial Zone in Minya.

On the manufacturing side, Sungrow Energy’s factory in Egypt will become the first battery energy storage system manufacturing base in the Middle East and Africa. Located in the TEDA-Egypt Industrial Zone in Ain Sokhna, the factory will cover an area of about 50,000 square meters and is expected to create around 150 direct jobs. Once operational, the factory will have an annual capacity of 10 GWh, with production expected to begin in April 2027.

Regarding financing, the Egyptian Prime Minister also witnessed the signing of preliminary financing agreements for the Energy Valley project between Scatec and the European Investment Bank (EIB), the European Bank for Reconstruction and Development (EBRD), and the African Development Bank (AfDB), marking the project’s support from multilateral development financial institutions.

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Sungrow Energy has confirmed its sponsorship of the 14th Energy Storage International Conference and Expo (ESIE 2026), register now to attend Asia’s Largest Energy Storage Trade Show for free:

What: The 14th Energy Storage International Conference & Expo

When: Conferences: March 31 - April 2, 2026

  Exhibitions: April 1-3, 2026

Where: CIECC Beijing, China

Address: No. 55 Yudong road, Shunyi District, Beijing China

On December 28, Mingyang Longyuan’s first 100MW/400MWh high-voltage cascade independent energy storage project, the Yashitu  Power Station, successfully achieved full-capacity grid connection at the Gushanliang site in Ordos, China. The project also passed the “three charge and three discharge” test of the West Inner Mongolia Power Grid and has officially entered commercial operation.

As an optimal solution for large-scale energy storage power stations, Mingyang Longyuan’s high-voltage cascade energy storage system demonstrates significant advantages, including large unit capacity, high energy conversion efficiency, enhanced safety performance, lower overall system cost, simplified coordinated control, and extended battery lifespan. The system also provides strong grid-support capabilities, enabling reliable performance under complex conditions such as extreme temperature variations and high humidity, while effectively supporting peak shaving, frequency regulation, and large-scale integration of renewable energy.

The project has achieved a long-duration cycle efficiency exceeding 90 percent, marking a substantial breakthrough in key performance indicators. This achievement reflects the sustained efforts of Mingyang Longyuan’s R&D and service teams. Despite harsh construction conditions characterized by strong winds, heavy snowfall, and extremely low temperatures in Ordos, the team overcame multiple technical challenges through continuous on-site work, ensuring the project’s timely commissioning. The experience gained has further strengthened the company’s capabilities in operating energy storage systems under extreme environmental conditions, laying a solid foundation for long-term stable and reliable performance.

The successful commissioning of the Gushanliang energy storage power station in Ordos underscores Mingyang Longyuan’s technical strength and product reliability, representing an important milestone in the company’s continued expansion in the energy storage sector. Looking ahead, Mingyang Longyuan will remain driven by technological innovation, advancing the upgrading of the energy storage industry and contributing to the development of a clean, low-carbon, safe, and efficient energy system.

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Register now to attend Asia's Largest Energy Storage Trade Show for free:

What: The 14th Energy Storage International Conference & Expo

When: Conferences: March 31 - April 2, 2026

              Exhibitions: April 1-3, 2026

Where: CIECC Beijing, China

Address: No. 55 Yudong road, Shunyi District, Beijing China

Recently, the world’s largest single-site electrochemical energy storage power station—the Envision Jingyi Chagan Hada Energy Storage Power Station—was successfully connected to the grid. With a total capacity of 4 GWh, the project is fully equipped with Envision’s AI-powered energy storage system. This milestone marks the completion and grid connection of Envision’s 12.8 GWh energy storage cluster deployed across Bayannur, Ordos, Hohhot, Ulanqab, Xilingol League, and Alxa League. To date, Envision-led energy storage projects in Inner Mongolia exceed 14 GWh in total capacity.

The project passed grid verification at rated power through “three charge and three discharge” and a 72-hour continuous trial operation at one time, becoming the largest energy storage project in China to complete such testing. This achievement not only sets new global records for energy storage cluster scale and grid-connection speed, but also demonstrates Envision’s capabilities in ultra-large-scale system integration, extreme-environment adaptability, deep grid interaction, and large-scale project delivery.

Notably, the project’s grid connection coincided with the release of China’s Guidelines on Promoting High-Quality Power Grid Development by the National Development and Reform Commission (NDRC) and the National Energy Administration (NEA), highlighting strong alignment between national policy direction and industrial practice. Together, they signal that AI-centered energy storage technologies are reshaping the future of new power system from technological, market, and application perspectives.

Technology: From “Optional” to “Essential”

The Guidelines clearly state that power system regulation capabilities should be upgraded toward greater diversity and massive-scale coordination. They call for accelerated development of regulation capabilities for new grid-connected entities, including distributed renewable energy and new-type energy storage, to enable the coordinated and optimized dispatch of diverse and large-scale resources. The Guidelines also emphasize strengthening R&D in critical power grid technologies, targeting application scenarios such as deserts, Gobi and barren regions, integrated wind–solar–hydro systems, high-altitude areas, and deep and far-offshore environments. They propose piloting long-distance transmission from large-scale 100% renewable energy bases, and accelerating the engineering validation and deployment of grid-forming technologies.

It is said that Envision’s AI energy storage system deployed in Inner Mongolia integrates advanced capabilities from “grid-following” to “grid-forming”, enabled by a full-time-scale simulation platform and a three-layer grid-forming architecture spanning equipment, system, and site levels. This allows GW-scale stations to connect to the grid immediately upon energization, significantly reducing commissioning time, mitigating oscillation risks, and enhancing system support strength. As a result, energy storage evolves from a “grid follower” to a “grid builder,” providing a solid technical foundation for power systems with high shares of renewable energy.

Market: From Grid Connection to Market Participation

The Guidelines emphasize deep integration between market mechanisms and dispatch systems, and encourage exploration of new pricing mechanisms. This creates clear and predictable revenue pathways for AI-powered energy storage through participation in electricity spot markets, provision of ancillary services such as frequency and peak regulation, and access to capacity compensation and price arbitrage.

The 12.8 GWh energy storage cluster will be fully integrated into the electricity spot market. Leveraging Envision’s AI system—where trading agents and grid-forming agents operate in coordination—the project enables a closed-loop lifecycle operation covering forecasting, dispatch, trading, and self-learning. This approach not only enhances the intelligence, efficiency, and execution of power trading decisions, but also provides a replicable and scalable model for the large-scale participation of new-type energy storage in electricity markets. At the same time, it significantly improves regional renewable energy consumption and strengthens the operational resilience of the power grid. In previous deployments, Envision’s AI energy storage system has ranked first in trading forecast accuracy at several sites in Inner Mongolia for consecutive months. Based on measured operational data, the project is expected to increase total lifecycle returns by more than 20%.

Applications: From Single Use to Broad Scenarios

The Guidelines elevate smart microgrids as a key component of new-type power systems, unlocking vast opportunities for AI energy storage in industrial parks, zero-carbon parks, and remote areas. In these scenarios, AI-powered energy storage functions as a local energy brain, optimizing the coordination of generation, grid, load, and storage to maximize renewable self-consumption, enhance supply reliability, and enable higher-level grid interaction.

As power systems become increasingly clean and market-oriented, simple equipment aggregation is no longer sufficient. In high-renewable scenarios, AI-driven energy storage that balances grid stability with revenue optimization has become indispensable. The successful grid connection of the Inner Mongolia cluster underscores Envision’s leadership in physical AI and AI-enabled renewable energy solutions.

Envision has established a full industrial chain in Inner Mongolia, from battery cells and system integration to project delivery and intelligent operation. Leveraging its integrated capabilities, the project drives industrial clustering, injects new momentum into the local economy, supports the development of a new-type power system, and underpins the region’s efforts to accelerate the construction of a nationally important energy and strategic resources base.

This milestone delivery marks a successful conclusion to Envision’s energy storage business expansion in 2025. Empowered by physical artificial intelligence, Envision has secured a series of major contracts both at home and abroad this year. Building on its established global footprint, the company has successfully expanded into ten strategic overseas markets, including Australia, Chile, Italy, and Poland. Looking ahead, Envision will continue to strengthen the foundational support for next-generation power systems through innovative products and world-class project execution, accelerating the global transition toward zero-carbon and driving a new era of shared prosperity powered by Chinese renewable energy technologies.

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Envision Energy Storage has confirmed its participation in the 14th Energy Storage International Conference and Expo (ESIE 2026). Register now to attend Asia's Largest Energy Storage Trade Show for free:

What: The 14th Energy Storage International Conference & Expo

When: Conferences: March 31 - April 2, 2026

              Exhibitions: April 1-3, 2026

Where: CIECC Beijing, China

Address: No. 55 Yudong road, Shunyi District, Beijing China

Source: CNESA

The 14th Energy Storage International Conference & Expo (ESIE 2026) 

March 31 - April 3, 2026 

Capital International Exhibition & Convention Center, Beijing, China 

With just 100 days remaining until the opening of the 14th Energy Storage International Conference & Expo (ESIE 2026), anticipation across the industry continues to build. Momentum is accelerating, and companies are actively registering to exhibit.

As exhibitor recruitment enters its final countdown, this landmark event - designed to build industry consensus, drive technological innovation, and foster global exchange - warmly invites energy storage professionals worldwide to gather in Beijing.

Exhibition Overview

ESIE 2026 will feature 6 themed exhibition halls:

Energy Storage & Power Equipment Hall

Battery & Intelligent Manufacturing Hall

2 Energy Storage Application Halls

Battery & Materials, International Hall

Future Ecology Hall

In addition, 9 specialized zones will be set up, covering:

power equipment, zero-carbon industrial parks, data centers, EV charging infrastructure, fire safety, intelligent manufacturing, hydrogen energy, materials, and testing & certification.

Together, the exhibition comprehensively covers enterprises across the entire upstream and downstream energy storage industry chain.

A1 - Energy Storage & Power Equipment Hall

Well-known brands exhibiting include: HyperStrong, EVE Energy, Zhongqi New Energy, Pengcheng Infinite, CLOU, Zhongchu Guoneng, Great Power, Inpai Battery, Huadian Heavy Industries, Hongzheng Energy Storage, Chint Electrics, Guodian Nanjing Automation, Elecnova, Envicool, Qianye Technology, Tiansu, Futronics, Dafu Integrated Equipment Technology, UTL Electrical, Winsure Communication, Sanwo Liyuan, Fans-tech Electrical, Kait, Qingyuan HeYi, YNTECH, Regal Rexnord, and more.

A2 - Battery & Intelligent Manufacturing Hall

Exhibitors include: CATL, Soaring Electric, XYZ Storage, Kehua Digital Energy, Cornex, Sineng Electric, NR Electric, AlphaESS, Hopewind, Ampace, Nebula Electronics, Autowell, Gaodengsai Energy, RelyEZ, Phoenix Contact, Youxing Shark, Lead Technology, Iron Man Fire Fighting, RePower Technology, Kelvin New Energy, Huasi Systems, Ligoo New Energy, Zonzsin, Tangent, Xenbo Heat Sink, Ubetter, Yaliqu, Heidun Cloud, Luoweite, National Center for Advanced Energy Storage Product Quality Inspection & Testing, Balance Intelligent Fire, and others.

B1 - Energy Storage Application Hall

Participating companies include: CRRC Zhuzhou Institute, Gotion High-Tech, Goldwind, Huawei, Sunwoda, Hoymiles, Hithium, Ganfeng, KE Electric & Hisense, Pylontech, Zhiguang Energy Storage, Liangxin Electrical, Ancheng New Energy, Xingchen New Energy, Gold Electronic, TCL, PULSST, Advantech, Chuancheng Energy Storage, SAV, SGS-CSTC Standards, TYT, Xinyuan Tech, Enerflow, Hysea, Stif, TIG Technology, Candera, TYES Energy Storage, among others.

B2 - Energy Storage Application Hall

Exhibitors include: Sungrow, CALB, Narada, REPT BATTERO Energy, Robestec, Windey Energy, iPotisEdge, TONGFEI, Siyuan Electric, Dongfang Electric, InfyPower, Xiqing, HYXiPOWER, Kgooer, Xiamen Hongfa, Qualtech, REsource Electric, HIGEE, State Energy XinControl, Beijing Micro Control Industrial Gateway Technology, Rongke Power, BMSER, Sinofuse, Southern CIMC, EMKA (Tianjin), Lanrui Electric, Hecheng Smart Electric, ZONZEN, Kefa Electronics, and more.

B3 - Battery & Materials, International Hall

Exhibitors include: Shuangdeng Group, Megarevo, Concord New Energy, Kstar, GoodWe, ZTT, Wocheng, Sigenergy, German Pavilion, Suqian Times, CVC Testing, SHENG YANG Electric, Heyuan Magnetics, Shentong Mechanical & Electrical, TOPOS, Honghaisheng, Dianwei, Carbon Energy Technology, WILO SE, Cergen New Energy, Longxiang Rubber, Onpow Push Button, Hefei Zhiyou Electric, WSF, CHEVRON Electronic, and others.

B4 - Future Ecology Hall

Exhibitors include: Envision Storage, BYD, Trina Storage, Singularity Energy, Longking, CSG Energy Storage, Jinko, State Power Rixin Technology, Contemporary Nebula Energy Technology, iBatteryCloud, Gresgying, CSG Technology, Wincell, ESF Technology, Sino Group, and more.

One-Stop Access to Cross-Sector Energy Storage Innovations

Visitors can explore a wide range of integrated application scenarios, including:

Energy Storage + Industry: Steel, cement, chemicals, petroleum, aluminum, coal, oilfields, and more - discover how energy-intensive enterprises reduce costs and improve efficiency with storage solutions.

Energy Storage + Wind & Solar: BIPV storage, CIPV storage, source-grid-load-storage integration, PV-storage-DC-flexible systems - all solutions for coordinated renewable and storage development.

Energy Storage + Desert & Gobi Mega Bases: Wind-solar-storage bundled transmission, grid-forming storage, multi-energy complementarity (wind + solar + storage + coal/solar thermal), and ecological desert control - unlock efficient desert energy utilization.

Energy Storage + Zero-Carbon Parks / Green Power Direct Supply: Microgrids, distributed PV-storage consumption, dedicated green power lines, peak-valley arbitrage, emergency backup, and green power traceability - ensuring stable green electricity supply.

Energy Storage + Data Centers / Telecom Base Stations: Backup power, peak-valley arbitrage, off-grid power supply, and green power integration - supporting stable and cost-efficient digital infrastructure.

Smart Energy: Smart grids, microgrids, virtual power plants, distributed energy management systems, and energy IoT platforms - key tools for future energy management.

Energy Storage + Transportation: Vehicle-to-grid interaction, charging and swapping facilities, PV-storage-charging stations, EVs, electric heavy trucks, low-altitude economy, and new energy solutions for ports and airports.

Innovative Energy Storage Technologies: Hydrogen energy; chemical storage (sodium-ion, solid-state, aqueous, all-vanadium flow, etc.); physical storage (compressed air, flywheel, gravity, molten salt, etc.).

Preparations for ESIE 2026 have entered the full-scale sprint phase. The organizing committee is advancing all work in a coordinated and efficient manner to deliver a high-level professional exchange platform for the industry.

Exhibition booths are now in short supply, with only a limited number of premium locations remaining. Energy storage enterprises across the entire value chain are warmly invited to join ESIE 2026 - uniting around technological innovation, advancing industrial upgrading, and jointly shaping a high-quality future for the new energy storage industry.

Register Now to attend, free before Dec 31, 2025：

https://mailchi.mp/2a7b423a7efb/esie-2026-registration-socialmedia