In 2024, the competition for energy storage will intensify, and various energy storage system integrators will pay more attention to cost and control fire protection costs more strictly. Therefore, the configuration of energy storage fire protection system must be cost-effective. However, cost-effectiveness cannot be at the expense of energy storage security. In this context, the trend of energy storage fire protection systems is to achieve intelligence and efficiency, while controlling costs.
First of all, intelligence is an inevitable trend in the development of energy storage fire protection systems. With the development of technologies such as the Internet of Things, big data, and cloud computing, the energy storage fire protection system can achieve rapid response, automatic detection, intelligent identification and other functions with the help of intelligent technology. The application of intelligent technology can not only improve the efficiency of energy storage fire protection system, but also reduce the frequency of manual intervention and reduce labor costs.
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Secondly, high efficiency is also an important development direction of energy storage fire protection system. An efficient energy storage fire protection system can quickly extinguish fires, reduce fire damage to energy storage equipment, and reduce fire losses. In order to achieve high efficiency, the energy storage fire protection system needs to use advanced fire extinguishing media and fire extinguishing technology, such as perfluorohexanone fire extinguishing devices. These extinguishing media and extinguishing technologies can quickly extinguish fires and are environmentally friendly and harmless to humans.
At the same time, while focusing on intelligence and efficiency, the energy storage fire protection system also needs to control costs. Cost control needs to start from design, production, maintenance and other links. In the design, modular design can be adopted to improve the standardization of products and reduce production costs. In production, advanced production technology and equipment can be used to improve production efficiency and reduce production costs. In maintenance, advanced maintenance and other technologies can be used to prolong the service life of the equipment and reduce maintenance costs.
Finally, it should be emphasized that high cost performance cannot be at the expense of energy storage security. The core purpose of the energy storage fire protection system is to ensure the safety of energy storage equipment. Therefore, while pursuing high cost performance, it is necessary to ensure the reliability, stability and safety of the energy storage fire protection system. At the same time, it is also necessary to establish a sound emergency plan and drill mechanism to improve emergency response capabilities, ensure that effective measures can be taken quickly and accurately to extinguish the fire when a fire occurs, and ensure the safety of energy storage equipment.
To sum up, in 2024, the configuration of energy storage fire protection system must be developed to be cost-effective, and at the same time, pay attention to the development of intelligence, efficiency, cost control and other aspects. Fire extinguishing media such as perfluorohexanone and fire extinguishing technologies will be more widely used in energy storage fire protection systems. In order to ensure the safety of energy storage equipment, the energy storage fire protection system must have the characteristics of high reliability, stability and safety. Therefore, in the future development, the energy storage fire protection system needs to be continuously innovated and improved to meet the needs of the market and ensure the safety of energy storage equipment.