Currently, with the application and rise of various big data technologies in the data center industry, the data volume is growing in a spurt and the availability requirements of users for Data Center businesses are also putting forward new demands and changes. In this context, the data center infrastructure is facing new challenges and opportunities, modular, intelligent, fast resizing, flexible response, and green.
I. modularization of infrastructure and Engineering
At present, the commonly used micro-module data center is mainly used in indoor scenarios. It mainly consists of end IT equipment, inter-column air conditioners, high voltage DC, modular ups, cold channels, and other micro-module products; the container data center is mainly used in outdoor scenarios, including IT boxes, distribution boxes, cold cabinets, diesel boxes, and office boxes. The former implements large-scale deployment, but is only used for terminal devices of IDCs, and lacks mobility. The latter is easy to move and flexible to build, but the scale is limited. By combining the two, you can build a large data center in a more rapid and flexible manner.
Ii. Combination of new energy and uninterruptible power supply and distribution
The data center has been a large consumer of energy, so many tech giants are trying to innovate new energy introduction and application technologies. In cities with ample lighting, solar energy is the most widely used green new energy. The solar photovoltaic power generation system is composed of Polysilicon components. To save the installation site, it can be installed on the top of the modular data center. All components are horizontally arranged. In addition, the support supports adjustable angle and spacing, the complete bracket is simple and quick to install.
Photovoltaic power generation is affected by the sunlight, and the power supply is unstable. The data center distribution can combine uninterrupted power supply and the grid connection mode to adopt multi-channel redundancy scheme to ensure flexible switch between day and night. You can flexibly select multiple working modes based on different application scenarios:
Mode 1
The server power supply is customized based on the master and backup. After mains supply, photovoltaic power supply, and uninterruptible power supply (UPS) are connected to the grid, the two power supplies are one master and one backup;
Mode 2
The server power supply is independent of the master and backup, and the PV and UPS are connected to the grid and the mains supply are both two-way to bear half of the load.
Mode 3
The server power supply is customized based on the master and backup. After the PV and mains supply are connected to the grid, the two power supplies of the ups are master and backup;
Mode 4
The server power supply is not divided into the master and slave nodes. After the PV and mains supply are connected to the grid, each of them bears half of the load with the ups.
Iii. Data Center Lifecycle
Focusing on data center construction and O & M is a drawback of most projects. O & M plays a vital role in the energy-saving and reliability of the system during the long life cycle of the data center. After years of exploration and summarization of the O & M management practices of the data center, the owner's O & M and management requirements for data center infrastructure can be summarized into three core objectives and three work implementations ".
1. Three Cores
Data Center, secure, stable, and reliable operation
Minimize the energy consumption cost of data centers
Extend device life and reduce total data center ownership costs
2. Three tasks
(1) daily O & M
24-hour monitoring of strict routine inspection and standard work processes.
(2) Asset Management
Regular asset maintenance management Comprehensive Preventive Maintenance Plan professional operation energy consumption analysis Good Supply Management.
(3) Emergency Management
Comprehensive risk analysis, careful contingency plans, skilled emergency response.
Modular Management and Analysis of Data Center Infrastructure!