The SUNROVER 1.3MW rooftop distributed photovoltaic energy storage project has commenced commercial operation, marking a significant milestone in integrated clean energy solutions. This turnkey installation deploys SUNROVER's proprietary 700W N-type solar panels, Deye 50KW hybrid inverters, and SUNROVER’s 51.2V100AH rack-mounted lithium batteries – a testament to the company’s end-to-end capabilities. Technical calculations reveal the scale: approximately 1,857 high-efficiency SUNROVER panels harvest sunlight across the rooftop expanse, while 26 Deye 50KW inverters convert and manage power flow. The system’s backbone features SUNROVER’s innovative battery technology, with each 5.12kWh module (51.2V × 100Ah = 5,120Wh) forming a scalable  energy storage solution.   This project exemplifies SUNROVER’s unique position as an integrated manufacturer-engineer. With over a decade of field-proven expertise, the company seamlessly merges industrial production capabilities with specialized design proficiency. SUNROVER doesn’t just manufacture core components like its industry-leading panels and batteries; its engineering team architects customized solar-plus-storage systems from concept through commissioning. Whether designing compact residential units or multi-megawatt commercial installations like this rooftop project, SUNROVER tailors each solution to precise client specifications and site constraints.   Central to the project’s success are SUNROVER’s self-developed rack-mounted lithium batteries. Engineered for universal compatibility, these units integrate flawlessly with over 90% of third-party storage inverters available globally – including the Deye systems deployed here. Beyond interoperability, SUNROVER batteries deliver exceptional endurance, boasting a 6,000-cycle lifespan that ensures long-term operational economics. This durability, verified through rigorous testing, positions them among the most resilient storage solutions for commercial and industrial applications.   The operational 1.3MW installation underscores SUNROVER’s capacity to execute complex energy transitions. From producing high-wattage N-type panels that maximize limited rooftop space, to engineering grid-optimized storage architectures, the company controls every critical phase. For businesses seeking to reduce operational costs and carbon footprints, SUNROVER demonstrates how vertically integrated expertise – spanning manufacturing, system design, and component R&D – translates into reliable, high-yield energy assets. As distributed generation reshapes power infrastructures, this project stands as a replicable model for scalable commercial decarbonization.

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HEFEI, ANHUI – SUNROVER has achieved the successful grid connection of its innovative Building-Integrated Photovoltaic (BIPV) rooftop system at iFLYTEK's facility in Hefei, Anhui Province. This project serves as a practical demonstration of SUNROVER's expanding technological portfolio, proving its capabilities extend significantly beyond its established reputation as a leading producer of high-efficiency TOPCon solar panels into the specialized realm of BIPV design and manufacturing.   The installation at iFLYTEK, a major artificial intelligence enterprise, seamlessly integrates SUNROVER's proprietary BIPV panels directly into the building's roof structure. These panels function as both the primary weatherproofing layer and the electricity generator, eliminating the need for traditional roofing materials beneath conventional solar racks. This dual-purpose design optimizes space utilization and delivers a streamlined aesthetic. The system is expected to generate substantial clean energy, directly reducing iFLYTEK's operational carbon footprint and electricity expenses.   This successful deployment is pivotal in showcasing SUNROVER's dual-track expertise. While the company remains a major force in the production and innovation of TOPCon technology – widely deployed in utility-scale solar farms and standard commercial rooftop arrays – it has concurrently developed robust in-house capabilities for BIPV. SUNROVER possesses dedicated design, engineering, and manufacturing processes tailored specifically for creating these architecturally integrated photovoltaic solutions. This allows SUNROVER to offer a comprehensive suite of solar products, from high-performance mainstream modules to custom-engineered BIPV systems that meet stringent building and aesthetic requirements.   The iFLYTEK project underscores SUNROVER's ability to deliver complex BIPV solutions from concept to grid connection. It highlights the tangible benefits for commercial and industrial entities seeking innovative sustainability pathways: transforming underutilized building surfaces into active power assets while maintaining architectural integrity. SUNROVER’s commitment spans the entire spectrum of solar applications, leveraging its TOPCon foundation while advancing BIPV innovation. This positions SUNROVER uniquely as a full-spectrum solar solutions provider capable of meeting diverse market needs, from large-scale renewable energy generation to integrated sustainable construction. The Hefei project stands as a significant benchmark for BIPV adoption in Anhui and reinforces SUNROVER's leadership in this growing sector.

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SUNROVER announces the completion of production and packaging for its latest series of high-performance aluminum alloy solar mounting brackets, now commencing global shipment. This milestone underscores SUNROVER’s capability to deliver critical infrastructure for the renewable energy sector.   Engineered for excellence, SUNROVER’s aluminum alloy solar brackets deliver significant advantages for photovoltaic installations. Their lightweight yet robust construction ensures exceptional structural integrity, capable of withstanding extreme weather conditions including heavy snow loads, high winds, and corrosive coastal environments. Precision engineering guarantees optimal panel alignment for maximum energy harvest year-round, while the simplified installation process significantly reduces labor time and costs. The corrosion-resistant properties of the specialized alloy ensure decades of reliable performance, directly enhancing project ROI.   This achievement highlights SUNROVER’s unique position as an integrated manufacturer and global supplier within the renewable energy industry. The company operates its own production facilities for photovoltaic modules and a comprehensive range of complementary accessories, ensuring strict quality control from raw material sourcing to final assembly. This dual expertise in manufacturing and global supply chain management allows SUNROVER to offer cohesive, high-quality solar solutions.   Beyond photovoltaic systems, SUNROVER possesses significant manufacturing depth in energy storage. The company operates separate, dedicated production facilities for advanced lithium batteries and robust lead-acid batteries. This strategic capability enables SUNROVER to provide not only the structural framework for solar arrays but also essential energy storage components, positioning it as a single-source partner for complete solar-plus-storage projects requiring seamless integration and reliable backup power.   The shipment of these aluminum alloy brackets exemplifies SUNROVER’s commitment to driving sustainable energy adoption worldwide. By leveraging its integrated production capabilities spanning PV panels, precision mounting systems, and advanced battery technologies, SUNROVER delivers efficient, durable, and compatible solutions that address the complex demands of modern renewable energy projects. The company continues to innovate across its diverse manufacturing base to support the global transition toward cleaner energy.

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SUNROVER confirms the successful factory inspection, rigorous testing, and secure packaging of its latest 51.2V100AH/280AH lithium battery systems. These units are now en route to the port for global distribution, destined to power diverse customer applications worldwide.   At SUNROVER, uncompromising quality and safety underpin every stage of production. Our advanced manufacturing facilities operate at significant scale, enabling high-volume output of reliable battery systems like the 51.2V series to consistently meet international demand. Each unit undergoes a stringent, multi-phase testing protocol before release. This includes exhaustive performance validation, extended cycle life testing, and critical safety assessments – such as overcharge, over-discharge, short-circuit, and thermal stability checks – ensuring inherent safety and long-term reliability for end-users across residential, commercial, and industrial settings.   This commitment to excellence has fostered strong customer loyalty. SUNROVER batteries are increasingly recognized globally for their robust performance, durability, and safety, evidenced by repeated partnerships and positive feedback from a growing international client base. Customers choose SUNROVER for dependable energy storage they can trust.   Beyond supplying premium batteries, SUNROVER excels in delivering comprehensive energy storage system solutions. Our engineering team possesses deep expertise in designing bespoke solar-plus-storage configurations. We collaborate directly with clients to develop optimized systems tailored precisely to their unique energy profiles, site specifications, and performance objectives. These integrated SUNROVER solutions ensure maximized energy capture, enhanced storage efficiency, and significantly more stable, consistent power generation, ultimately delivering superior operational reliability and return on investment.   The dispatch of these 51.2V batteries underscores SUNROVER’s dedication to advancing sustainable energy through safe, high-capacity storage, robust manufacturing, and intelligent, client-focused system design.

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Marking a significant achievement in distributed solar deployment, SUNROVER successfully commissioned its 2.95MW rooftop photovoltaic project, connecting it to the grid on June 24, 2025. This substantial installation exemplifies SUNROVER's robust capabilities, utilizing the company's own high-performance 700W N-type solar panels alongside Solis 250KW grid-tied inverters. Precise engineering resulted in the deployment of 4,214 SUNROVER panels and 12 Solis inverters to achieve the targeted 2.95MW capacity, ensuring maximum energy yield and seamless grid integration.   The project's timely completion powerfully underscores SUNROVER's integrated manufacturing strength and turnkey project execution. SUNROVER operates a comprehensive, vertically integrated model, expertly managing every phase internally. This encompasses initial design consultation and feasibility studies, the in-house production of its advanced 700W N-type modules at scale, and culminating in efficient, professional on-site construction by dedicated project teams. This streamlined "one-stop" approach guarantees quality control, accelerates project timelines, and delivers significant value to clients. The proficiency of SUNROVER's specialized installation personnel in handling complex rooftop logistics and stringent grid compliance was crucial to the project's success.   Beyond this large-scale installation, SUNROVER demonstrates exceptional versatility in crafting tailored energy solutions. The company excels in designing custom photovoltaic and integrated energy storage systems (ESS) to meet diverse client needs. SUNROVER’s expertise spans the entire spectrum, from small residential and commercial rooftop systems to expansive industrial and large-scale commercial storage applications, all designed to optimize energy independence and economic returns. To further enhance accessibility and support global deployments, SUNROVER provides comprehensive remote guidance and technical assistance throughout the installation and commissioning phases. The successful energization of this 2.95MW project solidifies SUNROVER's position as a premier, full-service provider capable of reliably delivering high-capacity, complex renewable energy projects from concept to grid connection.

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The Government of Uganda has authorised engineering, procurement, and construction (EPC) contractor Energy America to build a 100MWp solar PV plant, integrated with a 250MWh battery energy storage system (BESS).   Located in Kapeeka, in the central Ugandan district of Nakaseke, the project will be developed by Energy America’s regional development subsidiary, EA Astrovolt.   It will be equipped with technology designed for tropical and equatorial climates. The systems will offer high energy yields in heat and high irradiance, modular and scalable battery architecture, centralised monitoring with grid integration, and low-maintenance, long-life assets built to international standards for grid stability, off-peak delivery, and resilience in extreme conditions.   The authorisation comes from a Gazetted Policy Direction under section 16 of the Electricity Act, which is a part of the government’s plan to develop 1GW of solar-plus-storage projects in the country.   A power purchase agreement (PPA) was secured with Uganda Electricity Transmission Company Limited (UETCL), a state-owned distribution network company.   Ruth Nankabirwa Ssentamu, minister of energy and mineral development at the Republic of Uganda, said that the policy direction “will harness clean energy technology, foster local employment and skills development, and accelerate Uganda’s transition to a modern and resilient electricity system.”   The solar PV plant will be fourfold larger than the 24MW solar PV plant from UAE-based renewable power developer AMEA Power, which at the time was said to be the largest in the region. AMEA Power began construction of the Ituka solar PV plant last year and is expected to be commissioned in the third quarter of 2025.

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According to data provided by the Fraunhofer Institute for Solar Energy Systems (ISE), solar power generation hit a record high in many European countries in the first half of 2025. Germany is in the lead, with a total of 40TWh of electricity delivered to the grid from its photovoltaic systems, an increase of 30% from 30.7TWh in the same period last year. Other European countries also saw significant increases in photovoltaic power generation in the first half of this year: France's photovoltaic power generation reached 15.1TWh in the first half of the year, compared with 11.3 TWh in the same period last year; Denmark increased from 2.0 TWh in the same period last year to 2.3 TWh; Poland's solar power generation in the first half of the year increased from 8.8 TWh in the first half of 2024 to 10.3 TWh in the first half of 2025.   However, despite the increase in the contribution of solar energy to the net generation of public electricity across Europe, the overall contribution of renewable energy fell from 358.1TWh in the first half of 2024 to 344.4TWh in the first half of 2025, mainly due to the decline in the contribution of wind energy. In Germany, for example, the contribution of wind power falls from 73.4 TWh in 2024 to 60.3 TWh in 2025, accounting for 31.6% of public net electricity generation. “This is about six percentage points less than in 2024, simply because there is less wind than last year,” said Professor Bruno Burger, senior scientist at Fraunhofer ISE EnergyGraph. “The increase in solar power can only partially make up for this shortfall.” Overall, the share of renewable electricity in Germany’s public net electricity generation is 60.9%, down from 65.1% in the first half of 2024.

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On July 7, the maximum power load of the Jiangsu power grid hit a new record high for the third time this year, reaching 152 million kilowatts. Just the night before, under the unified command of the power control center of State Grid Jiangsu Electric Power Co., Ltd., 93 new energy storage power stations in Jiangsu Province concentrated on discharging to the power grid during the evening power peak, with a maximum discharge power of 7.14 million kilowatts, realizing the largest-scale centralized call for new energy storage in my country, and testing the friendly interaction of all links of the new power system during the peak power consumption period in summer, and comprehensively improving my country's clean energy utilization level.   What is new energy storage? Energy storage means "charging" when there is sufficient power generation from new energy sources such as wind power and photovoltaics, and "discharging" to the power grid or customers during peak power consumption or extreme scenarios. New energy storage, known as "super charger", generally refers to electric energy storage technology other than pumped storage, and is one of the regulatory means to cope with the many challenges brought by the construction of new power systems. In this centralized call for new energy storage, State Grid Jiangsu Electric Power, through a new generation of dispatching support system, issued discharge instructions to more than 7 million kilowatts of new energy storage at the same time during peak power consumption, which can meet the power demand of about 48 million households for one hour at the same time. In addition, during the peak of photovoltaic and wind power generation, the dispatching department issued charging instructions to the new energy storage power station, which can add a "super charger" that can store 14.5 million kWh of electricity to Jiangsu, and play its positive role in power supply and new energy consumption.   Three new highs, 152 million kilowatts At present, continuous high temperature weather has occurred in many parts of my country, and the power grid load has continued to rise under the high temperature. On July 7, the maximum power load of the Jiangsu power grid has set a new record for the third time this year, reaching 152 million kilowatts. On the evening of the 6th, in order to support the evening peak power consumption of the power grid, State Grid Jiangsu Electric Power carried out the largest-scale centralized call-up of new energy storage in my country. A total of 64 grid-side energy storage and 29 power supply-side energy storage power stations participated in the centralized discharge, with a total participating capacity of 7.248 million kilowatts. The actual maximum call-up scale was 7.14 million kilowatts, following the centralized call-up of 4.55 million kilowatts of new energy storage last year, which once again broke the record of centralized call-up scale, an increase of 56.9% year-on-year.   "Ti...

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Recently, the largest "photovoltaic hydrogen storage integrated" offshore photovoltaic demonstration project in China, the first ecological governance type tidal flat photovoltaic demonstration project in China, the Guohua Rudong Photovoltaic Hydrogen Storage Integrated Project, which was designed and constructed by China Power Construction, was fully connected to the grid for power generation. The project is located in Rudong County, Nantong City, Jiangsu Province, and uses about 4,387.5 acres of tidal flats. The total installed capacity is 400,000 kilowatts, and supporting booster stations, energy storage facilities, and hydrogen production and refueling stations are built. The project has an average annual on-grid soalr system power of 462.934 million kWh. After completion and commissioning, it can reduce carbon dioxide emissions by about 309,400 tons per year, which is equivalent to adding 1.5 West Lake scenic areas of forest carbon sinks, which can effectively help local ecological environment protection and green and low-carbon development. It was designed by the East China Institute of China Power Construction and constructed by the Central South Institute. As the first tidal flat ecological governance photovoltaic project in China, it innovates the "offshore photovoltaic + grass control" ecological restoration model, takes the lead in the ecological governance of Spartina alterniflora, and creates a demonstration of green photovoltaic integration and ecological grass control in Jiangsu Province and the coastal areas of the country. During the construction process, the construction of the shore-based booster station and photovoltaic field area was affected by multiple factors such as the original mudflat terrain and on-site tidal changes, and the construction process was extremely difficult. The project team overcame difficulties and creatively used steel sheet pile cofferdams and well point dewatering to solve the construction problems of the shore-based station, designed a new type of aerial platform to solve the installation problems of the photovoltaic area, and used about 1,800 platform 4-wheeled carts according to local conditions to protect the local marine ecology and clam breeding areas. The first "river, sea, land, and river" intermodal transport solution was created to solve the problem of submarine cable transportation. On the vast mudflats of the Yellow Sea, nearly 700,000 photovoltaic panels "breathe" lightly with the rise and fall of the tide. Their annual power generation is as high as 468 million kWh, enough to light up the bright lights of 200,000 households. At the same time, the project will also drive the large-scale development of multiple industries such as offshore photovoltaics, energy storage and hydrogen energy, and improve and strengthen the local new energy industry chain.

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Photovoltaic energy in Europe is undergoing a new change. Just recently, Finland announced a major event in the energy field. On April 1, the Finnish government announced that as the country's two energy companies gradually shut down all coal-fired power plants, Finland will completely stop using coal in energy production this spring. The Finnish government issued a communiqué saying that this move is a key step in Finland's energy transformation, four years ahead of the statutory deadline. Fossil fuel-based energy production will be replaced by low-carbon, clean, and renewable solutions in the future, and Finland will usher in a more stable, sustainable and climate-friendly energy system. The Finnish government has made it clear that future electricity production will focus on the development of wind power, nuclear power, hydropower and solar energy, and will be supplemented by electric boilers, heat pumps, energy storage and other technologies to build a new energy system. This strategy is highly consistent with Europe's overall carbon neutrality goal. According to the EU plan, renewable energy must account for 45% of terminal energy consumption in 2030, and photovoltaics are seen as the core tool to achieve this goal. Finland's practice has proved that the coordinated efforts of policy guidance and market mechanisms can greatly accelerate the process of clean energy substitution. It is understood that Finland's coal withdrawal action stems from the "2029 Coal Ban Act" passed in 2019. Through large-scale investment in wind power, nuclear power and bioenergy, Finland's coal-fired power share has dropped sharply from 8% in 2016 to less than 1% in 2025, while wind power generation has soared to 25%, driving 26 billion euros of green industrial investment. Although Finland's current photovoltaic installed capacity is limited, and the Nordic countries have a relatively low demand for photovoltaics due to the high proportion of hydropower, their energy transformation path reveals the future trend of the European market: the withdrawal of fossil energy will inevitably be accompanied by a diversified layout of renewable energy, and photovoltaics will play a key role in it.   Finland "retires from coal", and the photovoltaic pattern is reshaped Finland has never stopped investing in renewable energy. Previously, the Finnish government had agreed to provide priority facilities for green transformation projects between 2023 and 2026. In early 2023, the Finnish government also adopted a new hydrogen strategy, setting a goal of producing 1 million tons of green hydrogen by 2030, accounting for one-tenth of the EU's total target of 10 million green hydrogen. In fact, compared with other European countries, Finland's electricity market appears to be quite "unstable". In the past few years, Finland's energy system has undergone a major transformation. With the construction of the 1.6 GW new Olkiluoto 3 nuclear power plant in April 2023, Finland's t...

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Sunrover Power Co., Ltd has become one of the world's leading power plant developers and component builders, with sales teams all over the world and products exported to more than 80 countries and regions such as Europe, America, South Africa and Southeast Asia，etc.

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Provide help for global new energy development and construction, and at the same time provide better products for customers at home and abroad, win-win cooperation, mutual benefit and mutual benefit, and jointly provide strength for the development and construction of solar energy.

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Integrity, efficiency, innovation and transcendence.Customer first, believe in partners, develop together, and achieve rapid development in the field of new energy.

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SUNROVER's shingled all-black 430W solar panels are packed in boxes and will be shipped to Norway soon! Contact us today and unlock the potential of solar power with Sunrover. E-mail:info@sunroverpv.com

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