Static Protection
Lightning Protection
Electromagnetic Hazard Protection
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Heilongjiang Junhe Building Materials Technology Co., Ltd , https://www.junhejiancai.com
Static electricity is a common hazard in many industrial processes. Activities such as extrusion, cutting, stirring, splashing, fluid flow, induction, and friction can generate dangerous static charges. Due to the high voltage associated with static electricity, it can easily lead to electrostatic sparks, which pose a serious risk of fire or explosion, especially in flammable and explosive environments.
To prevent static hazards, several methods are commonly used. One of the most effective is grounding, which allows static charges to dissipate safely into the earth. Increasing air humidity, adding antistatic agents to materials, and using static neutralizers are also effective strategies. Additionally, reducing friction, controlling flow velocity, and using inert gases can help minimize static buildup. Choosing materials with better conductivity is another important step in managing static electricity.
Lightning poses a significant threat to both property and human life. To protect against lightning damage, various devices are employed, such as lightning rods, arresters, lightning protection nets, and other specialized systems designed to safely direct lightning currents into the ground.
Lightning rods are typically used to protect open-air equipment, buildings, and structures. Lightning conductors are mainly installed on power lines to prevent damage from direct strikes. Lightning protection nets are often used for building protection, while surge arresters safeguard electrical equipment by limiting voltage surges caused by lightning strikes.
Electromagnetic hazards can be mitigated through the use of electromagnetic shielding. High-frequency shielding devices are often made from materials like copper, aluminum, or steel. These materials can effectively block or absorb electromagnetic fields, making them useful for creating shielded rooms, protective clothing, and other safety measures.
For optimal performance, electromagnetic shielding should be properly grounded. This ensures that any stray electromagnetic energy is safely directed away, enhancing the overall effectiveness of the shielding system. In modern industries, where electronic devices are prevalent, proper electromagnetic protection is essential to avoid interference and ensure safety.