Jinko ESS, the energy storage arm of JinkoSolar Co., Ltd., has successfully supplied 722MWh of energy storage equipment for a major renewable energy development in India. The project incorporates 144 units of the company's SunTera G2 liquid-cooled energy storage systems, which are designed to support large-scale renewable energy integration, enhance grid reliability, facilitate clean energy distribution, and assist with peak demand management. Beyond supplying equipment, Jinko ESS offers comprehensive services including system integration, project execution, and long-term operational support tailored to various energy storage applications.

As renewable energy projects expand and a greater share of power generation is connected to national grids, energy storage has emerged as a crucial component for maintaining grid stability and optimizing asset performance. Utility-scale renewable energy facilities require storage solutions capable of meeting stringent standards for safety, environmental resilience, project delivery, and ongoing service support.

The Indian project presents several operational challenges, including extreme heat, elevated humidity levels, dusty conditions, intense solar exposure, and logistical complexities associated with long-distance transportation. These demanding conditions necessitate robust engineering, advanced thermal management, high protection standards, and dependable on-site service capabilities. The successful deployment of the 722MWh system highlights Jinko ESS's expertise in delivering large-scale energy storage solutions in challenging environments.

To address these requirements, the SunTera G2 system utilizes advanced liquid-cooling technology that maintains battery cell temperature variations within 2.5°C, improving system efficiency, consistency, and long-term operational reliability. The solution is engineered to perform in temperatures of up to 55°C and humidity levels reaching 99%. Additional features such as an IP55-rated enclosure, corrosion-resistant design, multilayer safety mechanisms, and intelligent thermal controls ensure dependable and secure operation for large renewable energy installations.

While equipment supply marks an important milestone, sustained performance throughout the system's lifecycle remains essential for maximizing customer value. Drawing on its expertise in battery cells, PACK manufacturing, system integration, and global project execution, Jinko ESS provides end-to-end support that includes system design, product deployment, field services, and long-term operations and maintenance partnerships. The company also offers an AI-enabled Energy Management System (EMS) that delivers real-time monitoring, operational analysis, load forecasting, and charge-discharge optimization, helping customers improve renewable energy utilization, strengthen grid responsiveness, and enhance asset returns.

According to Anita Li, Vice President of Jinko ESS, the growing scale of renewable energy projects is driving increased expectations for energy storage solutions. She noted that energy storage systems play a vital role not only in capacity management but also in ensuring project safety, grid dispatch efficiency, and long-term economic performance. Li described the successful delivery of the 722MWh project as another significant milestone for the company in handling complex utility-scale applications and reaffirmed Jinko ESS's commitment to supporting customers through reliable technology, effective project delivery, and ongoing service support.

Looking ahead, Jinko ESS intends to continue supporting large-scale energy storage developments worldwide through its integrated approach encompassing advanced products, system integration expertise, project management capabilities, and long-term service offerings. The company aims to contribute to a more resilient, adaptable, and sustainable global energy infrastructure as the transition to clean energy accelerates.

JinkoSolar, a leading global provider of photovoltaic (PV) and energy storage solutions (ESS), has introduced its latest AIDC modules tailored for data centers worldwide. Developed on the advanced Tiger Neo 3.0 TOPCon technology platform, these modules are engineered to support a wide range of high-performance environments, including AI data centers, GPU clusters, supercomputing facilities, semiconductor plants, edge computing hubs, and carbon-neutral intelligent development zones.

Designed to meet the demanding operational needs of modern data centers, the AIDC modules deliver exceptional load capacity, enhanced asset protection, uninterrupted performance, resilience in extreme climates, long-term reliability, minimal maintenance, and scalability for large deployments. They offer an optimized clean energy solution that aligns with the growing need for efficient integration between computing power and sustainable energy.

Key Advantages of the AIDC Modules
1. Enhanced Efficiency and Power Output: Lowering Lifecycle Costs
Leveraging JinkoSolar’s proprietary Tiger Neo 3.0 platform, these modules combine current large-scale manufacturing capabilities with future-ready scalability. They achieve front-side efficiencies of 24.8% or higher and power outputs of 670W or more. This enables greater electricity generation within the same footprint, maximizing land and rooftop usage while reducing the overall levelized cost of energy (LCOE) over the system’s lifetime.

2. Superior Bifacial Performance: Increased Energy Yield
With TOPCon cell architecture featuring a fully symmetrical front-and-back design, along with JinkoSolar’s MAX technology, the modules deliver bifaciality of approximately 85% (±5%). Compared to traditional back-contact (BC) modules, which typically achieve 65–75%, these modules generate significantly more energy from the rear side. For instance, a 670W module under standard reflective conditions can produce up to 844W total output, effectively offering additional energy generation without extra cost—an advantage particularly valuable in reflective environments like snowy regions or deserts.

3. Strong Low-Light Performance: Reliable All-Day Generation
Optimized for low-irradiance conditions, the modules maintain strong energy output during early mornings, evenings, and cloudy or rainy weather. In light conditions between 100–200 W/m², they can deliver up to 8.93% more power compared to BC modules. Even in extreme low-light scenarios such as fog or shading, performance remains stable at 95–98%. This ensures a smoother power generation curve that closely matches the continuous energy demands of data centers, increasing self-consumption of renewable energy and improving grid efficiency.

4. Advanced Fire Safety Standards: Maximum Protection
To meet stringent safety requirements, the modules comply with IEC 61730-2:2023 and UL 790 Class A certifications. These standards ensure minimal flame spread and high resistance to ignition sources. Key insulation components meet UL 94 V-0 ratings, meaning they self-extinguish quickly without producing burning droplets. Additional safety features include arc-resistant junction boxes and advanced connection technologies that significantly reduce the risk of electrical faults and fire hazards.

5. Exceptional Hail Resistance: Built for Harsh Conditions
The modules are engineered to withstand severe weather, successfully passing impact tests with hailstones up to 55 mm in diameter—well above the typical 25 mm standard. Reinforced tempered glass and shock-absorbing encapsulation structures help prevent damage and eliminate risks associated with mechanical failure leading to electrical or fire issues.

6. High Mechanical Strength: Reliable Structural Integrity
With the ability to endure front-side loads of up to 6,000 Pa and rear-side loads of 4,000 Pa, the modules can handle extreme snow accumulation and strong winds. Even under heavy snow loads exceeding 600 kg/m² or in typhoon-prone regions, they maintain structural and electrical integrity, preventing issues such as cracking or component loosening.