ATEX batteries are designed for use with equipment in hazardous and potentially explosive environments. Mandatory compliance with the European Union Directive 2014/34/EU ensures the safe operation of both the battery and associated certified equipment to maintain the highest safety standards for the operators having to work in these potentially.
The Pyroban explosion protection offshore battery is designed for use in hazardous areas and are corrosion resistant with a 316 stainless casing. The 12V and 24V units contain deep cycle batteries protected with a 50A MCB isolator. These ATEX batteries are not suited to engine cranking applications.
What is explosion-proof battery?
Explosion-proof battery is a new type of battery product, which is made of high safety material and can effectively prevent the explosion of the battery. The safety performance of explosion-proof battery is its distinguishing feature. 2.Passed the National Coal Safety certification, and can be used in mines and oil wells.
What are explosive devices used for?
Explosive devices are used in artillery, mortar, cannon and bomb fuzing, and in the detonation of main warheads. Pyrotechnic devices are actuated by small quantities of less powerful primary explosives. They take many forms and are used to provide motion, perform work, ignite materials, generate gas, and accomplish many other tasks.
What are ATEX batteries used for?
ATEX batteries are designed for use with equipment in hazardous and potentially explosive environments.
Explosive and pyrotechnic devices transform a small input of mechanical or electrical energy into a higher level of mechanical or thermal energy, which is then applied to do practical work on a one-time basis. This is accomplished by releasing the stored energy in an explosive or pyrotechnic mixture through a precisely controlled reaction.
What are the advantages and disadvantages of explosive devices?
The amount of energy released and the way it is used varies widely based on design and application. The inherent advantages of these devices include high power-to-weight ratio, compact size, low input energy requirements and extreme reliability. Explosive devices, such as detonators and boosters, use secondary explosives for their output charge.