Cooling system for data center

---

Revolutionizing Data Center Cooling

 The Simix Advantage

1. Simix: The Conductor of Heat for Your Data Center Cooling System

Modern data centers generate substantial heat, making the efficiency and reliability of the cooling system for data center operations a critical concern Traditional coil coatings often act as insulators, which can impede the crucial process of heat transfer 

2. Simix Multi-Surface Ceramic Clearcoat distinguishes itself by being a heat conductor, not an insulator

3.The primary ingredient in Simix is silica (sand), just like in glass

4. This is combined with highly conductive potassium and lithium, enabling the product to actively conduct heat

5. In the context of a cooling system for data center infrastructure—which relies heavily on Cooling Distribution Units (CDUs) and other HVAC components—this conductive property is a game-changer. Simix is engineered to pull heat away from the coils, directly improving the efficiency of the heat exchange process

6.Air conditioners begin to lose efficiency as soon as they are installed due to the microscopic gaps that form between fins and tubes from expansion and contraction

7. Airborne corrosive particles and salt ions enter these gaps, causing corrosion and decreasing efficiency

8. Simix addresses this issue by filling in these microscopic gaps, creating a smoother surface that significantly improves heat transfer

9. This optimization ensures that your cooling system for data center infrastructure operates at peak performance, a necessity for managing the intense heat loads of high-density computing

Furthermore, the implementation of Simix can yield significant energy savings, reducing kilowatt-hour (kWh) consumption by 15% to 25%

In a case study, an Arizona school utilized Simix on forty-four nine-year-old Trane™ rooftop units (RTUs), resulting in substantial kWh reduction

Over a five-month period (January through May), the kWh reduction ranged from 4.72% to 33.4% compared to the prior year, despite similar or higher average temperatures

These demonstrable savings translate directly into lower operational costs and a rapid return on investment, with a payback period typically ranging from three to nine months.

Optimizing the energy consumption of the cooling system for data center operations is paramount for both financial savings and sustainability efforts.

See The Savings Below

The Hygroscopic Effect: Evaporative Cooling for Your CDU

A unique feature of Simix is its hygroscopic nature.

Hygroscopic means the Simix coating continually attracts and adsorbs water molecules from the air to the surface. This property is crucial for the function of a cooling system for data center equipment.

This process facilitates evaporative cooling, which actively draws heat away from the coils. In essence, the coating leverages the natural process of evaporation to cool the coil surfaces, further augmenting the heat transfer capabilities of the underlying equipment. This evaporative effect works in conjunction with Simix's conductive properties to provide superior thermal management, directly benefiting the performance of your Cooling Distribution Units (CDUs) and the overall cooling system for data center environment.

The hygroscopic action also enhances the Sustainable Photocatalytic Oxidation Technology (SPOT-ON™). This combined action not only improves thermal performance but also contributes to air quality, which is an increasingly important factor in equipment lifespan and maintenance within a controlled environment.

Addressing Corrosion and Contaminants in Your Cooling System for Data Center Your Net Carbon Footprint Reduction Strategy

The protection offered by Simix is substantial, as demonstrated by accelerated weathering tests. Laboratory testing involved exposing coated test panels to a cyclic accelerated weathering environment for 1008 hours (six weeks), as described in ASTM D5894-2114.

The test panels, made of both aluminum and copper, achieved the highest possible Blistering and Rusting grades available after this rigorous salt fog/UV exposure15.

This unparalleled anti-corrosion capability means Simix prevents salt damage and airborne corrosive particle damage, critical for the exposed components of any cooling system for data center infrastructure.

Your Net Carbon Footprint Reduction Strategy

Your Net Carbon Footprint Reduction Strategy

Implementing Simix is a decisive step toward reducing the Net Carbon Footprint associated with running a large-scale cooling system for data center. By significantly lowering kWh consumption (up to 25.69% in one instance) and improving the efficiency of the HVAC equipment, the demand for energy is curtailed.

Data centers are known for their massive energy consumption, and cooling systems can account for a substantial portion of that load. Optimizing this system with Simix directly translates into a reduction in overall energy usage and associated emissions.

The ability of Simix to improve indoor air quality by breaking down carbon dioxide and other airborne contaminants further contributes to a sustainable operating model. The product's application is easy and can be done in the field. By extending the life of your equipment and ensuring it runs optimally for longer, Simix supports the circular economy and reduces the need for premature equipment replacement. For any organization committed to corporate social responsibility and environmental sustainability, integrating Simix into the existing cooling system for data center operations represents a clear path to real savings and real sustainability. A win win for everyone.

Your second block of text...