Static Electricity 2000 Edition
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NFPA 77 Static Electricity
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- Chapter 9 Specific Applications 9.1 Intermediate Bulk Containers. 9.1.1
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8.12 Bulk Storage.
When powders are moved into bulk stor- age (e.g., silos, rail cars, trucks, IBCs, or flexible IBCs), the powder is compacted by the force of gravity. The compaction process is accompanied by bulking brush discharge, as explained in 8.5.4. In the compaction process, the energy of the discharge increases as the particle size increases. There- fore, the systems most at risk are pellets with an appreciable fraction of fines (dust). The exact conditions for ignition-capable bulking brush discharge are not well understood. However, the following general factors that are known to increase its probability have been identified by Glor in Electrostatic Hazards in Power Handling: (1) An increase in the resistivity of the powder, greater than 10 10 ohm-m (2) An increase in the particle size of the powder, greater than 1 mm (3) An increase in the charge density of the powder, greater than 1 µC/kg (4) An increase in filling rate — for granules with a diameter greater than 1 mm to 2 mm, greater than 2 × 10 3 kg/hr, and for granules with a diameter of about 0.8 mm, greater than 20 to 30 × 10 3 kg/hr Chapter 9 Specific Applications 9.1 Intermediate Bulk Containers. 9.1.1 The discussion and precautions for powders and granu- lar solids, as set forth in Chapter 8, also apply to operations that involve handling these materials in intermediate bulk containers (IBCs). Static electric charges are generated in granular materials when filling and emptying IBCs. These charges result from movement and rubbing of the granules against process equipment or against each other. The amount of charge that can be accumulated on a bed of a powdered material in a grounded container depends on the resistivity of the powder, not the resistivity of a block of the material. The higher the resistivity, the lower the apparent conductivity and the longer a charge will be retained. In cases of very large resis- tivities, charges will relax slowly and can remain on beds of material for appreciable periods. Thus, generation and relax- ation occur simultaneously when granular materials are moved about. When the rate of generation exceeds the rate of relaxation, significant charges can accumulate. 9.1.2 When a static electric charge accumulates on bulk con- tainers or associated process equipment, the following four types of discharge can occur: (1) Spark discharge (2) Brush discharge (3) Propagating brush discharge (4) Bulking brush discharge (See Section 4.3 for discussions of these four types of discharge.) 9.1.2.1 Spark discharges can take place between two conduc- tors at different potentials and can release energy capable of igniting atmospheres containing flammable gases or vapors or combustible dusts, depending on process conditions. An example of a situation in which such a discharge can occur is a conductor that is isolated from ground and located in a bin of material. 9.1.2.2 Brush discharge is usually not a concern in the normal handling of granular materials. However, brush discharge can be a source of ignition where flammable gases or vapors are present, as in the handling of hybrid mixtures or very rapid discharge of a granular material from a container. Such situa- tions should be avoided if possible. 9.1.2.3 Propagating brush discharges typically contain ener- gies of 1 J or greater, depending on process conditions. These discharges can ignite most flammable atmospheres. 9.1.2.4 Bulking brush discharges contain energies on the order of 10 mJ. In order to minimize the risks associated with bulking brush discharge, powders that have minimum igni- tion energies of 10 mJ or less should only be loaded into con- tainers of 2 m 3 or less, unless the vessel is inerted. |
