储能容器是主要针对移动储能市场需求而开发的一体化储能系统。以下是有关储能容器的一些关键信息:分类:按材质分类:储能容器可分为铝合金容器、钢制容器、玻璃钢容器。铝合金容器重量轻、耐腐蚀、弹性好,但价格昂贵,焊接性能差。钢制容器强度高、结构坚固、可焊性高,但重量重、耐腐蚀性差。玻璃钢容器强度高、隔热、耐腐蚀、耐化学药品性好,但笨重、容易老化。设计与构成:The energy storage container integrates a battery cabinet, a lithium battery management system (BMS), and a container dynamic environmental monitoring system. It can also be customized to include an energy storage converter and an energy management system according to customer needs.
The battery compartment mainly includes batteries, battery racks, BMS control cabinets, heptafluoropropane fire extinguishing cabinets, cooling air conditioners, smoke sensing lighting, surveillance cameras, etc.
The battery types can be lithium iron phosphate batteries, lithium batteries, lead-carbon batteries, and lead-acid batteries.技术特点:The energy storage container exhibits excellent environmental adaptability, boasting capabilities such as corrosion resistance, fire prevention, waterproofing, dustproofing, shock resistance, and UV protection.
The steel structure is made of high-weather-resistant steel plates and features a flat-top structure, facilitating easy stacking.
The shell is made of two layers of steel plates, with A-grade fire-retardant rock wool filled in between, providing waterproofing.
Configure an escape door that leads directly to the outside, and equip the power distribution cabin with double-leaf shutter doors and ventilation shutters.
Four symmetrical grounding points are set at the four corners of the box exterior, and there should be obvious grounding signs.应用场景:Energy storage containers are widely used in various stages of power systems, including generation, transmission, distribution, and utilization, as well as in scenarios such as ships, factories, large load centers, power stations, user-side energy storage, and microgrids.
It can serve as an auxiliary means for grid stability, reducing grid load fluctuations and enhancing the stability and safety of the grid by storing and releasing electrical energy.
In regions abundant in renewable energy sources such as wind and solar power, energy storage containers can store excess electrical energy and release it during peak energy demand periods, balancing grid load and promoting the consumption of renewable energy.
In remote areas, islands, and other regions with unstable power supply, energy storage containers can be integrated with renewable energy generation equipment to form a standalone microgrid system, providing reliable power supply for local residents and businesses.
The energy storage container can also be rapidly deployed as an emergency backup power source, providing power support for critical facilities and residents.
Energy storage containers, characterized by their high degree of modularization, ease of transportation, and installation, have emerged as one of the future directions for energy storage technology development.活动板房是一种集成电气设备,具有以下特点及应用:Definition: Prefabricated cabinets are complete sets of electrical equipment that have undergone full or partial assembly, debugging, and testing in a factory, and are capable of being quickly assembled at the installation site. They possess a certain level of protection and can serve as a place for equipment transfer.
Composition: The prefabricated cabin consists of a prefabricated cabin body, secondary equipment cabinets (or racks), and auxiliary facilities for the cabin body. The fabrication, assembly, wiring, and debugging are completed in the factory, and the entire structure is transported to the project site as a single unit.技术特点:Standardization: The dimensions of the prefabricated cabin are based on standard container dimensions and have been appropriately modified to accommodate the adoption and operation of equipment.
Modularity: Prefabricated cabins are divided into multiple modules based on the different functions of their internal equipment, such as public equipment prefabricated cabins, partition equipment prefabricated cabins, etc.
Prefabrication: The cabin structure, internal equipment installation, and inter-equipment wiring are all processed using factory prefabrication methods, and all equipment installation, wiring, and debugging work is completed in the factory.
Application areas: Prefabricated cabinets are widely used in urban power grids, industrial parks, new energy, and other fields. In urban power grids, prefabricated cabinets can serve as an alternative to power equipment such as substations and distribution rooms. In industrial parks, prefabricated cabinets meet the power needs of various enterprises within the park. In the new energy field, prefabricated cabinets can serve as supporting equipment for new energy devices such as wind power generation and solar power generation.
Environmental adaptability: The prefabricated cabin box adopts special sealing materials and anti-corrosion measures, boasting excellent waterproof, dustproof, and anti-corrosion properties, enabling it to adapt to various harsh environments.
