conditions and reliable fire suppression system should also be provided.
⚫ Meet the necessary installation site area -, and should leave enough room for capacity
expansion according to the needs of the whole life.
⚫ Choose a well-ventilated site.
Site locations should avoid scenarios that are not recommended by industry standards and
regulations, including but not limited to the following lots, areas, and places:
⚫ Strong vibrations, strong noise sources and strong electromagnetic field interference areas.
⚫ Places that generate or have dust, fumes, noxious gases, corrosive gases, etc.
⚫ Places where corrosive, flammable and explosive substances are produced or stored.
⚫ Sites with existing underground facilities.
⚫ Undesirable geological conditions such as rubbery soils, weak soils, ground prone to
waterlogging and subsidence.
⚫ Earthquake faults and seismic zones with a defence intensity higher than nine degrees.
⚫ Sections with direct hazards such as mudslides, landslides, quicksand, and caves.
⚫ Within the boundaries of the mining trap (stagger) area.
⚫ Within blasting hazard.
⚫ Areas that could be inundated if a dam or dike breaks.
⚫ Important sanitary protection areas for water supply sources.
⚫ Historic Monuments and Sites Conservation Area.
⚫ Intensively populated places, high-rise buildings, underground buildings.
Foundations shall be constructed to meet, as a minimum, the following requirements:
⚫ The energy storage system must be mounted on concrete or other non-combustible surfaces,
and the mounting plane must be level, firm, and flat, with sufficient bearing capacity to prohibit
depressions or tilting.
⚫ The equipment foundation is configured according to the total weight of the equipment n*4t
(n value 1~6, "n" indicates the number of energy storage cabinets) + m*3t (m value 0~3, "m" indicates
the number of battery cabinets), and when the load-bearing capacity of the foundation is not satisfied,
it needs to be reviewed.
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