Sweden-based PV Project Profile
In establishing a cutting-edge biotech facility, a Swedish biopharmaceutical company prioritized the seamless integration of sustainable energy while maintaining uninterrupted production. Recognizing the critical importance of this, the client strategically chose Will Nine as their partner. The decision was influenced by Will Nine’s renowned product quality and demonstrated expertise in engineering and installation services.
The collaboration was founded on a shared commitment to surpass industry standards, establishing new benchmarks for sustainability and operational efficiency in the biopharmaceutical sector. Will Nine’s track record of innovative solutions aligned perfectly with the client’s vision for a state-of-the-art facility that not only met regulatory requirements but also showcased a dedication to environmental responsibility.
Challenges & Solutions
Challenge:
The primary challenge was to ensure complete isolation between the production facility and the PV system to maintain the integrity of the manufacturing process. This necessitated an innovative approach in the design to prevent the need for post-construction modifications and minimize disruption to the production process.
Solutions:
1. Introduction of a Dedicated Superstructure:
To address the isolation challenge, we proposed the utilization of a dedicated superstructure for mounting the PV system. This superstructure was meticulously designed to seamlessly integrate with the construction phase, eliminating the need for any structural modifications after the facility’s completion.
2. Design Integration:
We ensured that the design of the PV system seamlessly integrated with the entire construction process, minimizing unnecessary interference with the building’s structure during installation. Close collaboration with the construction team during the design phase was crucial to achieving this level of integration.
3. Consideration for Future Expansion:
Our solution not only met the current isolation requirements but also took into account potential future expansions. This means that if the client needs to expand either the production facility or the PV system in the future, it can be achieved with minimal modifications, avoiding adverse effects on existing structures and processes.
4. Sustainability and Environmental Considerations:
Sustainability and environmental factors were prioritized in designing the superstructure. The use of eco-friendly materials and processes ensured that the installation of the PV system adhered to sustainability standards, aligning with the client’s corporate values.
By implementing these solutions, we not only met the client’s isolation requirements but also provided a solid foundation for sustainability and scalability. This ensures the protection of the integrity of the production facility to the highest degree while offering the client flexibility for sustainable development and future growth.
Environmental Impact
The solar plant not only successfully offsets 152 tons of CO2 emissions annually but also achieves a significant reduction of 4,970 tons of CO2 over its entire lifespan. This highlights the project’s substantial contribution to environmental sustainability and underscores its commitment to global efforts in combating climate change. Additionally, the project’s combination of environmental friendliness and economic viability sets a benchmark for businesses aiming to lead a sustainable future. Through the solar plant, we not only meet emission reduction targets but also lay a solid foundation for a greener, more sustainable future.
Key Details:
450KW
Photovoltaic Power
500KW
PCS Output Power
1.2MWh
Energy Storage Capacity
15-20Y
System service life
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