As conventional land for solar installations become saturated, the global clean transition depends on unlocking non-traditional application scenarios. Governments and energy developers alike are now prioritizing solar integration across ecological restoration sites, urban infrastructure, and water bodies. These environments require tailored technologies that go beyond standardized engineering, combining environmental resilience, spatial efficiency, and long-term sustainability.

In that context, DAS Solar introduces its all-scenario module solutions, designed to bring clean energy to a wider range of environments through three core offerings: DAS ECO, DAS Urban, and DAS Floating PV scenario solution. By prioritizing system integration, terrain compatibility, and cross-sector applications, the company aims to drive the next wave of global solar penetration.

DAS ECO PV Scenario Solution: Resilient Solar for Ecological Restoration

DAS ECO solution is designed to bring solar to remote and environmentally sensitive areas such as deserts, grasslands, and mountainous terrain. Through adaptive engineering and land-sparing infrastructure, DAS Solar enables energy production to complement ecological value.

In arid and erosion-prone regions, the company uses long-span, cable-supported flexible mounting system to reduce land disturbance and withstand high winds. The structural design minimizes foundations and allows plant growth or grazing to continue beneath the arrays, creating a dual-use model for both power generation and ecosystem services. DAS ECO solution enables PV arrays to coexist with low-water agricultural crops and native grasses, transforming degraded land into productive, self-sustaining spaces.

In mountainous regions, DAS ECO solution's steep-slope, terrain-following mounting allows PV arrays to span ridgelines and adapt to natural contours. This not only improves land-use efficiency by saving over 25% of space compared to flat installations, but also supports reforestation, vegetation recovery, and post-mining land rehabilitation. At a hillside project in a subtropical region, DAS Solar combines solar power generation with medicinal crop cultivation on challenging terrain, maximizing both energy output and ecological renewal.

In aquaculture zones, DAS ECO solution introduces elevated, large-clearance mounting systems with spans up to 40 meters and clearances exceeding 10 meters, ensuring that aquaculture operations such as fish farming can continue without disruption. In a pilot project, DAS Solar maintained fishpond integrity while enabling scalable energy generation, with the system successfully enduring multiple typhoons thanks to its tensioned cable design and structural resilience.

DAS Urban PV Scenario Solution: Solar-Enabled Cities, Powered by Smart Integration

As cities seek more sustainable infrastructure, DAS Urban brings clean energy into urban environments through lightweight PV modules, integrated solar-storage-charging (SSC) platforms, and intelligent energy monitoring.

At the heart of DAS Urban solution is its lightweight modules, weighing just 4.2 kg/m², over 70% lighter than conventional systems. The frameless, adhesive design removes the need for traditional mounting structures, making it ideal for commercial rooftops with limited load capacity such as metal-clad or older buildings. Paired with N-type TOPCon cells, the system improves annual energy yield by over 15%, delivering both structural and financial efficiency for city-based users.

In a major urban rest stop deployment, DAS Solar provided a comprehensive SSC system including building-integrated PV, solar carports, slope-mounted systems, battery storage, and EV charging infrastructure. As China's first fully carbon-neutral rest stop, the project generates approximately 10,000 kWh of clean electricity daily, achieving 100% on-site green energy supply, fully managed through cloud-based dispatch and monitoring.

In the fast-growing “PV + Transportation” segment, DAS Urban solution also supports public transportation infrastructure with custom SSC canopy solutions, spanning 15-35 meters and adaptable to rest areas, train stations, parking facilities, and highway service zones. These modular platforms optimize solar layout even in constrained city spaces. To further strengthen system safety, the company has developed a rapid shutdown solution capable of arc detection within 20 milliseconds, executing shutdown and reducing voltage to 0V in under 1 second. This safeguards people and assets from fire hazards and enables secure deployment in dense urban environments.

DAS Floating PV Scenario Solution: Making Clean Energy Work on Water

With global land resources under pressure, DAS Floating solution is emerging as a scalable, efficient way to deliver solar energy using lakes, reservoirs, and even coastal waters. DAS Solar's floating systems are engineered to withstand humidity, wave motion, and corrosion while maintaining high-performance output.

Its key features include high durability through the use of resilient encapsulation materials, with modules tested extensively for moisture resistance, insulation integrity, and long-term reliability. The system ensures structural stability with rigid, box-type floats connected by flexible trusses, forming secure arrays that adapt to water movement without compromising performance. Environmentally, the layout is designed with integrated biological corridors to preserve aquatic wildlife migration routes. To maximize operational efficiency, DAS Floating solution incorporates advanced robotic cleaners and high-pressure washing systems that effectively reduce salt accumulation, algae growth, and biofouling, ensuring long-term performance and reduced maintenance costs.

In the world's largest single-site floating PV plant located in a former coal mining subsidence zone, DAS Solar delivered a 650 MW system capable of withstanding 4-meter waves. The project supports fish farming under the arrays and improves water quality, contributing to both economic output and ecological restoration.

In Les Ilots Blandin, France, Europe's largest floating PV plant, built in partnership with Q ENERGY France, spans 127 hectares and delivers 74.3 MW of clean electricity, enough to power 37,000 homes annually. It also reduces algae growth and improves water quality in the lake ecosystem.

From remote terrain to urban infrastructure and aquatic surfaces, DAS Solar's all-scenario solutions reflect a broader shift in the solar industry—from one-size-fits-all deployment to site-specific energy design. With DAS ECO, DAS Urban, and DAS Floating PV scenario solutions, the company is expanding the boundaries of where and how solar energy can be deployed.