Most of us are familiar with static electricity. We all have walked across the rug and reached for the doorknob, only to have a spark jump from our hand to the knob. We have also seen the effects of static cling when our clothes cling together in the dryer.
As a source of ignition for flammable vapors, gases, and dusts, static electricity is a common hazard in our industry. A static spark can occur when an electrical charge accumulates on the surfaces of two materials that have been brought together and then separated (between two solids, between a solid and a liquid, or between two immiscible liquids, i.e., incapable of mixing). One surface becomes charged positively and the other surface becomes charged negatively. If the materials are not bonded or grounded, they will eventually accumulate an electrical charge capable of producing a static spark that could ignite flammable vapors, gases, and dusts.
Some common processes capable of producing a static ignition are shown below:
Preventing static electricity as an ignition source can be accomplished through bonding, grounding, or possibly substitution. Bonding is the process of connecting two or more conductive objects together by means of a conductor. Grounding (earthing) is the process of connecting one or more conductive objects to the ground. If grounding or bonding is not possible, substituting may be an alternative. For example, some absorbent pads used in shops can produce a static spark when separated. If the conditions are right a static spark could be a source of ignition for flammable vapors. By substituting a non-conductive pad as an alternative, the risk of static spark can be eliminated.
Remember, taking the time to bond or ground when working around flammable vapors, gases, and dusts will help prevent a serious accident.