Tiếng ViệtAmid the growing trend of manufacturers prioritizing sustainable energy solutions, the ILSHINVN rooftop solar project in Tay Ninh is being rapidly advanced, with clear progress observed at each construction phase. With a total installed capacity of nearly 10 MWp, the project not only delivers significant energy value but also requires strict adherence to technical standards and rigorous quality control throughout implementation.
Synchronized Deployment of Structural and Technical Systems
The project is being implemented at ILSHIN Vietnam Co., Ltd., located at Lot 30-04, N14 Road, Phuoc Dong Industrial Park, Truong Mit Commune, Tay Ninh Province, with a total designed capacity of 9,999.375 kWp. This is a large-scale rooftop photovoltaic (PV) system that requires the integration of multiple structural and electrical components to ensure long-term operational performance.
According to progress reports from the supervision consultant, the project is currently focusing on the completion of the PV module mounting structure. This is a critical foundation component that determines the overall mechanical stability of the system, while ensuring compliance with wind load resistance and site-specific environmental conditions.
Adjustment and optimization of the mounting system are being carried out to refine tilt angles, structural connections, and load distribution. These improvements ensure that PV modules are installed in accordance with design specifications, maximizing solar irradiance capture while minimizing long-term operational risks.
In parallel, fabrication and installation of the equipment station structure are underway. This station houses key components such as inverters, electrical switchboards, and control systems, requiring high precision in both fabrication and installation. Additionally, the fabrication of caged ladders is being executed to facilitate safe operation, maintenance access, and system inspection.
Notably, the pilot installation of the racking system at Roof Area 1 has been completed. This serves as a practical validation step for the design approach, installation procedures, and construction feasibility before full-scale deployment across all rooftop areas.
Accelerated PV Module Installation Across Roof Areas
Alongside structural works, the installation of PV modules has shown significant acceleration across construction phases. Initial reports indicated that Roof Area 3 had reached only 5/121 pallets, while Roof Area 4 achieved 8/100 pallets of installed PV modules. However, subsequent updates demonstrate substantial progress.
Specifically:
Roof Area 3 has increased to 47/121 pallets
Roof Area 4 has reached 51/100 pallets
This improvement reflects enhanced construction efficiency and effective resource allocation by the project team.
PV module installation is being carried out zone by zone to ensure strict quality control and construction safety. Modules are mounted on pre-inspected racking systems, ensuring accuracy in positioning, tilt angle, and mechanical fastening. This approach optimizes power generation efficiency and enhances system durability under real operating conditions.
Furthermore, phased implementation enables the engineering team to conduct inspections, calibration, and issue resolution before scaling up to full deployment.
Meeting Technical Standards in the Transition to Sustainable Energy
The ILSHINVN rooftop solar project is being developed in response to the increasing demand from manufacturers to optimize energy costs and reduce carbon emissions. However, achieving long-term performance for large-scale PV systems requires strict compliance with technical standards from design through construction.
The project’s focus on refining the mounting structure, maintaining strict quality control of the racking system, and accelerating PV module installation demonstrates a structured and technically robust execution strategy. These factors are essential to ensuring system reliability, safety, and optimal performance upon commissioning.
Upon completion and commissioning, the project is expected to provide a stable source of clean electricity for the ILSHIN Vietnam factory, while contributing to the broader adoption of renewable energy solutions within Vietnam’s industrial parks.