Immersion Liquid Cooling in Computing Centers: Revolutionizing Efficiency and Performance

In the rapidly evolving world of technology, computing centers stand at the forefront of innovation and efficiency. Among the myriad advancements, Immersion Liquid Cooling (ILC) emerges as a groundbreaking solution, offering unparalleled benefits to computing centers worldwide. This article delves deep into the essence of ILC, exploring its mechanics, advantages, and the transformative impact it has on computing infrastructures.

Understanding Immersion Liquid Cooling

Immersion Liquid Cooling is a cutting-edge technology that involves submerging computer components, or entire servers, in a non-conductive liquid. This technique drastically reduces the cooling requirements of data centers by leveraging the superior heat absorption capacity of liquids compared to air. The process not only enhances the performance of computing systems but also significantly curtails energy consumption and operational costs.

The Mechanics Behind Immersion Liquid Cooling

The core principle of ILC revolves around its efficient heat transfer process. By immersing computer hardware in a specially designed liquid, heat is directly and efficiently absorbed from components, thereby maintaining optimal operating temperatures. This direct cooling method is far more effective than traditional air cooling mechanisms, as liquids have a higher capacity to absorb and dissipate heat.

Advantages of Immersion Liquid Cooling

1. Enhanced Performance: 

ILC allows computing centers to operate at higher frequencies without the risk of overheating, thus boosting computational power and efficiency.

2. Reduced Energy Consumption:

Traditional cooling systems, such as HVAC, consume a substantial amount of energy. ILC, on the other hand, significantly reduces this consumption, leading to lower utility bills and a smaller carbon footprint.

3. Increased Hardware Lifespan: 

By maintaining consistent and optimal temperatures, ILC minimizes the thermal stress on components, extending their lifespan and reliability.

4. Noise Reduction:

 ILC systems operate silently, creating a more pleasant and less disruptive environment in computing centers.

5. Space Efficiency:

 Eliminating the need for bulky air cooling systems frees up space, allowing for a more compact and efficient layout of computing infrastructures.

Implementation and Integration of Immersion Liquid Cooling

Adopting ILC technology in computing centers involves a strategic overhaul of the existing cooling infrastructure. It requires careful planning, from selecting the appropriate cooling liquid to integrating the system with existing hardware. The transition, while intricate, promises substantial long-term benefits, making it a worthy investment for forward-thinking organizations.

Heat dissipation principle

Working principle of phase change immersion liquid cooling

Leading technology

Monitoring and management system

Comparison of investment  calculation for air-cooled liquid cooling

Product Introduction

Lithium battery energy storage system

Container energy storage power station

1. High system security, using high security LFP cells, and conducting comprehensive high security design from cells, packs, battery clusters, and systems.

2. The system has a high energy density, and a single 40 foot container can hold up to 2.76 MWh (0.5C) at most.

3. The system has a long cycle life of 1C/1C, 90MDOD, with a remaining 70% and a lifespan of up to 6000 cycles.

4. The system supports maximum continuous 1C charging and discharging.

5. Modular and standardized product design, easy to install, maintain, and expand.

6. The adjustable design of the system's heat dissipation duct ensures temperature consistency

Battery Management System

The product series includes various lithium battery management systems for low-voltage 12V/48V/60V/72V and high-voltage 96V-768V.

1. Real time monitoring of battery operation status, collecting data and analyzing.

2. Voltage, current, temperature alarms and protection functions can effectively ensure the safe operation of the battery.

3. By using WIFI and client apps, computers and smartphones can easily and quickly view the real-time running status of batteries.

4. Support the storage, reading, and export of historical data.

5. SOC intelligent repair calculation and correction, with accuracy at a leading level in the industry.

6. SOH intelligent calculation and correction.

7. Default software anti-theft function, optional gyroscope, GPRS, GPS background data management, and path tracking.

8. Supports RS485, RS232, and CAN communication.

9. The passive equalization function of the battery is the default, while the active equalization function of the battery is optional.

Product Introduction

The Future of Computing Centers with Immersion Liquid Cooling

The adoption of Immersion Liquid Cooling signifies a monumental shift in how computing centers approach efficiency and performance. As more organizations recognize its potential, ILC is poised to become a standard in the industry. This technology not only represents a leap towards more sustainable computing but also paves the way for further innovations in thermal management and system design.

In conclusion, Immersion Liquid Cooling stands as a beacon of technological advancement in the realm of computing centers. Its ability to enhance performance, reduce costs, and contribute to environmental sustainability marks a new era in data center operation. As the tech community continues to embrace and refine this technology, the future of computing centers looks brighter and more efficient than ever.

Partnering with DGMY

Choosing DGMY means embracing innovation and sustainability in the digital age. Our services are at the forefront of technology, designed not just to meet the current needs of our clients but to anticipate and shape future demands. As we continue to explore and expand the boundaries of digital technology, we invite you to join us in this journey of discovery and excellence. Together, we can create a more connected, sustainable, and innovative future.