[ID] => 9290
[post_author] => 34
[post_date] => 2018-03-06 12:18:52
[post_date_gmt] => 2018-03-06 12:18:52
[post_content] => Pneumatic transport systems represent the heart of any granular bulk material handling system in many industries today. Being an efficient method of transporting granular material, such systems allow for quick movement of powders between processes, enabling companies to keep up with ever-growing demands on production.
However, such processes are not without their risks. When the product being processed is considered combustible and has an appreciable portion of fine material, the potential for an explosion increases dramatically. Fine powders with low minimum ignition energies (MIE) will regularly reach the minimum explosive concentration (MEC) along the conveying system and may be at risk of combustion by several sources of ignition. One such ignition source is electrostatic discharge.
Pneumatic conveying systems have the ability to generate vast quantities of electrostatic charge via the movement of product through the plant equipment. The most common method of electrostatic charging on such process operations is tribo-electrification, which is simply the contact and separation of the powder with the walls of the processing equipment, the powder molecules itself or other factors that can cause charging, like surface contaminants.
In one recent incident a process operator working on a pneumatic conveying system heard a crackling noise when powdered material was being transported between the classifier and the loading hopper. During investigation of the noise, the operator came into contact with a section of the duct and received a significant static shock. Although the operator was unharmed, the severity of the incident warranted a full system shutdown to investigate how static charges had been able to accumulate on a particular section of ducting.
During the inspection the duct was examined and it was identified that the section of duct was not suitably grounded. When tested it was found the duct had a resistance path back to ground well in excess of 1011
Ω, exceeding the recommended resistance of less than 10 Ω for metal plant items in good contact with ground, as stated in IEC 60079-32-1:2013 Explosive atmospheres Part 32-1: Electrostatic hazards, guidance.
Further inspection found that the unusually high resistance was a result of a single grounding clip that had not been properly installed after a clean-down operation. Consequently, the piping between the two ducts acted as an isolated conductor resulting in the generation and subsequent accumulation of charge. The lack of continuity to ground meant that the charge could not be dissipated, allowing an excessively high voltage potential to develop on the duct that eventually discharged onto the operator.
Given the high rate of charge generation and spark discharge by a poorly fitted grounding clip, a review of grounding and bonding of all metallic parts was carried out. The inspection scrutinised the grounding and bonding integrity of all equipment units, all sections of ducts, bags and cages in the bag filters. As a result many deficiencies were found and swiftly rectified.
NATURE OF THE BEAST
The nature of a powder processing operation means that the generation of static electricity is to be expected in all parts of the system because of the movement of the particles through equipment. Therefore, regular maintenance is required to stop material from clogging up the machinery. Regular disassembly for cleaning and maintenance can result in bonding connections being missed or not made correctly when the equipment is reassembled. Vibration and corrosion may also degrade assembly connections.
Fortunately in this particular scenario, a larger scale incident was avoided by the luck of the operator. If the isolated ducting had not been found the outcome could have been very different. A static discharge in the right place through a combustible atmosphere along any section of ducting could have resulted in a significant ignition incident, putting the lives of employees and plant assets at risk.
The most effective way of ensuring that complex equipment used in powder processing operations cannot accumulate static electricity is to provide a dedicated static grounding solution that is capable of monitoring the ground connection to components at risk of isolation. Such a solution should also be able to prevent the flow of product and alert personnel to a potential hazard should a component lose its connection to ground. This is especially important if the ground connection point to the equipment is not readily visible or is not easily accessible, as was the case with the grounding clips mentioned in this scenario.
It is highly plausible that charge accumulation on an isolated ducting section had resulted from a misplaced grounding clip multiple times during previous operations without a visible electrostatic ignition incident ever occurring. Without a flammable/combustible atmosphere being present in the spark gap when such a discharge occurs, frequent discharges could have gone unnoticed. This is a common feature of process operations that have suffered from the consequences of a fire or explosion caused by static electricity.
The first place to start is to determine why electrostatic charge was ‘permitted’ to accumulate on the section of ducting. In this case the loss of continuity resulted in the section being electrically isolated from the general mass of ground. Had the section been connected to a true ground, charge would not have accumulated on its surface. Instead, excess electrostatic charges would simply have found their way to ground. In accordance with industry guidelines like NFPA 77 and IEC 60079-32-1, the isolated section (in this case the length of ducting) should have had continuity through to a verified ground with a resistance of 10 Ω or less.
In the example shown in the images, the system is configured to ground 7 sections of ducting (1 – 7) and a drum (8). Each channel is individually monitored back to ground to a resistance of less than 10 Ω and interlocked with the control equipment responsible for the flow of product. All monitored channels including the drum (1 – 8) need to have a path to ground (via bonding straps or grounding clamp) before the system will go permissive and allow the operation and flow of product to commence.
HERE’S A SOLUTION
Powder processing equipment presents more of a challenge than standard applications as there are metal parts making up larger assemblies that can be electrically isolated from each other. The risk of removable sections becoming isolated conductors will occur if:
- Each section does not have a sufficiently low path to ground to safely dissipate charge.
- The correct reassembly of equipment after cleaning between operations and regular examination of bonding straps between the metal pipework and duct sections by plant personnel is not routinely carried out.
The Earth-Rite® MULTIPOINT II system solves these problems by ensuring that all parts of the equipment have continuity through to ground with a resistance connection of less than 10 Ω. The reliance on human intervention to perform regular resistance checks is alleviated due to the monitoring and interlocking capabilities of the Earth-Rite MULTIPOINT II.
If a loss of continuity between one of the ducting sections to the verified earth occurs, the system will go non-permissive and the operation will cease. The system only permits the product transfer process when the ground loop resistance of each utilised channel is less than 10 Ω, as recommended in the various international standards. The system has cCSAus, ATEX and IECEx approval for use in hazardous atmospheres and meets all current EC directives.
* This article was prepared by James Grimshaw of Newson Gale; the company stresses that the incident referred to was referenced from a third-party source. Further information on the risks described and systems provided to resolve them can be found at www.newson-gale.co.uk
[post_title] => Static: Excuse your dust
[post_status] => publish
[comment_status] => open
[ping_status] => open
[post_name] => static-excuse-dust
[post_modified] => 2018-03-26 14:50:38
[post_modified_gmt] => 2018-03-26 13:50:38
[post_parent] => 0
[guid] => https://www.hcblive.com/?p=9290
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Electrostatic charge in bulk material handling poses significant risks to life and property. Newson Gale* explains the hazards and offers a solution