Static 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. These charges often result in high voltages and can easily lead to electrostatic sparks, which are especially hazardous in flammable or explosive environments. This makes static electricity a significant risk factor for fires and explosions in such settings.
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 can also help reduce static buildup, as moisture in the air prevents charge accumulation. Adding antistatic agents to materials, using conductive materials, and reducing friction and flow velocity are additional strategies. Inert gas protection is another technique that minimizes the risk by replacing oxygen-rich atmospheres with non-reactive gases. Static neutralizers are also widely used to eliminate static charges before they become a threat.
Lightning Protection
Lightning poses a serious threat to both infrastructure and electrical systems. To mitigate this risk, various protective devices are employed. Lightning rods, for example, are installed on buildings and open-air equipment to provide a safe path for lightning to reach the ground. Lightning arresters are used to protect electrical equipment by diverting excessive voltage away from sensitive components. Lightning protection nets are often used to cover large structures, while lightning conductors are typically applied to power lines. These systems work together to ensure that lightning strikes are safely directed and do not cause damage.
Electromagnetic Hazard Protection
Electromagnetic interference (EMI) can disrupt electronic devices and pose risks in sensitive environments. To combat this, electromagnetic shielding is widely used. Shielding devices made from conductive materials like copper, aluminum, or steel can block or absorb electromagnetic fields. These shields are used in shielded rooms, protective clothing, and enclosures to safeguard equipment and personnel. For optimal performance, the shielding must be properly grounded to enhance its effectiveness and prevent leakage of electromagnetic energy.