Encapsulated-Ice Thermal Storage

MasterFormat Division 23 71 19.19: Encapsulated-Ice Thermal Storage for Efficient Cooling

In a world increasingly focused on energy efficiency and sustainability, innovative building technologies are constantly emerging. One such technology, Encapsulated-Ice Thermal Storage Systems (Division 23 71 19.19), offers a smart and effective solution for reducing peak cooling loads and optimizing energy consumption in buildings.

What is Encapsulated-Ice Thermal Storage (23 71 19.19)?

Encapsulated-Ice Thermal Storage, as categorized under MasterFormat Division 23 71 19.19, refers to systems that leverage the high latent heat of fusion of water to store thermal energy. In simpler terms, these systems utilize the phase change of water from liquid to ice and vice-versa to store and release cooling energy.

The core component is an "ice battery" comprising numerous small containers or capsules filled with water or a phase-change material (PCM). These capsules are then integrated into a heat exchanger, forming a thermal storage tank.

How Does Encapsulated-Ice Thermal Storage Work?

The working principle is elegantly simple:

• Charging (Ice Formation): During off-peak hours, typically at night when electricity demand and cost are low, the system's chiller runs to freeze the water within the capsules. This "charges" the system, storing cooling energy.
• Discharging (Ice Melting): During peak hours, when cooling demand is high, the stored ice melts, absorbing heat from the building's chilled water loop. This "discharges" the system, providing cooling without running the energy-intensive chiller.

Where is Encapsulated-Ice Thermal Storage Commonly Used?

23 71 19.19 systems are particularly well-suited for buildings with high daytime cooling loads and offer substantial benefits in:

• Commercial Buildings: Offices, hotels, shopping malls
• Institutional Facilities: Schools, universities, hospitals
• Industrial Processes: Food processing, pharmaceutical manufacturing
• Data Centers: For managing significant heat generated by servers

Installation Best Practices for 23 71 19.19 Systems:

Proper installation is crucial for optimal performance and longevity:

• System Sizing: Accurately calculating the building's cooling load profile is essential to determine the appropriate size of the ice storage tank.
• Chiller Compatibility: Ensuring compatibility between the chiller and the thermal storage system is non-negotiable.
• Control System Integration: Integrating the system with the building's energy management system (EMS) allows for intelligent control and optimization.
• Regular Maintenance: Like any HVAC system, routine maintenance, including inspection, cleaning, and potential replacement of components, ensures long-term efficiency and reliability.

Top Manufacturers of Encapsulated-Ice Thermal Storage Systems:

Several reputable manufacturers specialize in 23 71 19.19 systems, including:

• CALMAC
• EVAPCO
• Baltimore Aircoil Company (BAC)
• VIKING COOLING

(Note: This is not an exhaustive list, and other manufacturers may exist.)

Conclusion

MasterFormat Division 23 71 19.19, encompassing Encapsulated-Ice Thermal Storage, presents a compelling solution for achieving energy-efficient cooling in buildings. By shifting cooling loads to off-peak hours, these systems not only reduce energy costs but also promote grid stability and contribute to a more sustainable future. As we strive for greater efficiency in our built environment, ice-based thermal storage emerges as a technology worth serious consideration.