When it comes to manufacturing-related accidents, the images that come most readily to mind are mishaps with industrial machines, chemical spills, or fires caused by the processing of highly combustible materials. But one of the most frequently occurring industrial accidents involves an all-too-common fault with the very power needed to operate any sort of manufacturing operation.
What is arc flash?
Arc flash is the term used to define the release of energy caused by an electrical arc. Temperatures associated with arc flash incidents can reach as high as 35,000 degrees F—four times the temperature of the sun’s surface. More disturbing is the fact that hospitalization reports related to arch flash incidents occur five to ten times a day in the U.S. alone. If these are the reported cases with serious injuries, how many more times a day might arc flash occur in which, fortunately, no one is harmed?
除了极高的热量,电弧闪光灯还带来了压力,听觉,弹丸和吸入危害。与某些电弧闪存事件相关的压力已经足够大,足以吹向附近的混凝土墙。
How to avoid arc flash.
To mitigate the risk of arc flash occurring in your facility, a number of steps can provide a high degree of safety:
* Do all maintenance repair work on de-energized equipment (a requirement of OSHA 1910.333).
*仅在电气面板门关闭时执行操作和/或架子。
* Operate equipment remotely.
* Use arc-venting switchgear (arc flash will typically exit via the weakest part of the structure in which the electrical components are housed, which is typically the front door of the unit). Arc fault venting allows arc flash energy to exit in a specific direction away from where personnel are likely to be.
* Set protection devices, such as differential relays, to react quickly. However, this may not be optimal in all cases as such relays can cause unwanted tripping due to minor overloads.
* Adapt settings during exposure. Establish sensor setup so that when someone comes close to the electrical unit, sensors will adjust to deliver that fastest possible tripping.
* Use current limiting fuses or circuit breakers, as these can interrupt in as little as one-quarter of a cycle, but may not operate correctly at arc fault levels.
Even with all these safety steps available, there will still be occasions when personnel will be required to interact with machinery in circumstances that don’t fit these parameters. In those cases, other precautions are required.
Official arc flash hazard notices.
Regardless of when or how qualified internal or external personnel will interact with electrical equipment, facility management is required to be knowledgeable of Arc flash hazards and provide the proper PPE (personal protective equipment) required to protect workers and communicate the risks.
NEC 2008条110.16,flash布鲁泰克tion notice should be placed on any electrical equipment that requires inspection and maintenance. The notice can include arc flash boundary details, PPE category requirements and potential shock hazard when the cover is removed. However, current NEC requirements do not state that such specific details be listed on the notice. All that is required is the basic notice of “Danger: Arc Flash Hazard Exists; Appropriate PPE Required.” Specific arc flash details have not been mandated on these notices, as these numbers will change over the course of the day based on use of the electrical systems.
Gerald Brewer, senior technical trainer at Siemens, says, “There is now a suggestion before the NEC to list the numbers indicating the worst possible scenario in order to ensure use of proper protection.”
OSHA requires an employer to determine the presence of a hazard, require appropriate PPE, communicate decisions around PPE, and ensure on-hand PPE fits personnel. But OSHA’s requirement does not directly address arc flash—it applies to any hazard in the workplace that an employee may face.
NFPA arc flash requirements are a bit different.
NFPA 70E 2004 130.3, on the other hand, specifically requires a flash hazard analysis be performed to protect against arc flash and to determine the arc flash boundary. Though it does not directly enforce the NFPA standard, OSHA does recognize it as an accepted industry practice and states that any company following NFPA 70E 2000 edition or later is in compliance with OSHA standards.
“If you have an arc flash accident,” says Brewer, “OSHA will ask why you did not follow NFPA’s accepted industry practice.”
Arc flash safety compliance delivers a number of benefits.
There are many obvious benefits of arc flash safety compliance:
* reduces risk of employee injury or death
* provides safety info for sub-contractors
* limits equipment damage
* increases system reliability for better uptime for production
* yields a potential reduction in workers comp and insurance claims
因此,尽管许多制造地点倾向于不需要操作,但实际上没有充分的理由不这样做。为了使您的设施符合法规,您必须遵循NFPA 70E指南并进行ARC Flash研究。
You’ll need to know this to manually calculate your arc flash hazard.
If you wish to calculate your arc flash hazard manually, the following information is required:
* an up-to-date one-line diagram to verify where all power is coming from.
* a short circuit study MVA and source MVA ratings, equipment and cable impedance, cable length and motor contribution.
* a coordination study to know how fast protective devices will react to level of fault you may experience.
Determining appropriate PPE is key.
Reference sources are available through IEEE and NFPATBD to aid in conducting the calculations for analysis and to determine appropriate PPE. You can perform the calculations yourself, but there are a number of variables associated with current, type of equipment, use and potential fault varieties. Software designed for such calculations makes the job much easier. Organizations offering such software include: Cooper Bussmann, Easy Power, eTAP, Ferraz Shawmut, IEEE, Littlefuse, and SKM, among others.
Hiring a consultant firm to help you.
As an added step toward achieving proper compliance, employing a third-party vendor to conduct the analysis will ensure that the calculations are performed correctly, proper documentation is provided, and that your facility is in compliance and personnel are safely protected.
What is arc flash?
Arc flash is the term used to define the release of energy caused by an electrical arc. Temperatures associated with arc flash incidents can reach as high as 35,000 degrees F—four times the temperature of the sun’s surface. More disturbing is the fact that hospitalization reports related to arch flash incidents occur five to ten times a day in the U.S. alone. If these are the reported cases with serious injuries, how many more times a day might arc flash occur in which, fortunately, no one is harmed?
除了极高的热量,电弧闪光灯还带来了压力,听觉,弹丸和吸入危害。与某些电弧闪存事件相关的压力已经足够大,足以吹向附近的混凝土墙。
How to avoid arc flash.
To mitigate the risk of arc flash occurring in your facility, a number of steps can provide a high degree of safety:
* Do all maintenance repair work on de-energized equipment (a requirement of OSHA 1910.333).
*仅在电气面板门关闭时执行操作和/或架子。
* Operate equipment remotely.
* Use arc-venting switchgear (arc flash will typically exit via the weakest part of the structure in which the electrical components are housed, which is typically the front door of the unit). Arc fault venting allows arc flash energy to exit in a specific direction away from where personnel are likely to be.
* Set protection devices, such as differential relays, to react quickly. However, this may not be optimal in all cases as such relays can cause unwanted tripping due to minor overloads.
* Adapt settings during exposure. Establish sensor setup so that when someone comes close to the electrical unit, sensors will adjust to deliver that fastest possible tripping.
* Use current limiting fuses or circuit breakers, as these can interrupt in as little as one-quarter of a cycle, but may not operate correctly at arc fault levels.
Even with all these safety steps available, there will still be occasions when personnel will be required to interact with machinery in circumstances that don’t fit these parameters. In those cases, other precautions are required.
Official arc flash hazard notices.
Regardless of when or how qualified internal or external personnel will interact with electrical equipment, facility management is required to be knowledgeable of Arc flash hazards and provide the proper PPE (personal protective equipment) required to protect workers and communicate the risks.
NEC 2008条110.16,flash布鲁泰克tion notice should be placed on any electrical equipment that requires inspection and maintenance. The notice can include arc flash boundary details, PPE category requirements and potential shock hazard when the cover is removed. However, current NEC requirements do not state that such specific details be listed on the notice. All that is required is the basic notice of “Danger: Arc Flash Hazard Exists; Appropriate PPE Required.” Specific arc flash details have not been mandated on these notices, as these numbers will change over the course of the day based on use of the electrical systems.
Gerald Brewer, senior technical trainer at Siemens, says, “There is now a suggestion before the NEC to list the numbers indicating the worst possible scenario in order to ensure use of proper protection.”
OSHA requires an employer to determine the presence of a hazard, require appropriate PPE, communicate decisions around PPE, and ensure on-hand PPE fits personnel. But OSHA’s requirement does not directly address arc flash—it applies to any hazard in the workplace that an employee may face.
NFPA arc flash requirements are a bit different.
NFPA 70E 2004 130.3, on the other hand, specifically requires a flash hazard analysis be performed to protect against arc flash and to determine the arc flash boundary. Though it does not directly enforce the NFPA standard, OSHA does recognize it as an accepted industry practice and states that any company following NFPA 70E 2000 edition or later is in compliance with OSHA standards.
“If you have an arc flash accident,” says Brewer, “OSHA will ask why you did not follow NFPA’s accepted industry practice.”
Arc flash safety compliance delivers a number of benefits.
There are many obvious benefits of arc flash safety compliance:
* reduces risk of employee injury or death
* provides safety info for sub-contractors
* limits equipment damage
* increases system reliability for better uptime for production
* yields a potential reduction in workers comp and insurance claims
因此,尽管许多制造地点倾向于不需要操作,但实际上没有充分的理由不这样做。为了使您的设施符合法规,您必须遵循NFPA 70E指南并进行ARC Flash研究。
You’ll need to know this to manually calculate your arc flash hazard.
If you wish to calculate your arc flash hazard manually, the following information is required:
* an up-to-date one-line diagram to verify where all power is coming from.
* a short circuit study MVA and source MVA ratings, equipment and cable impedance, cable length and motor contribution.
* a coordination study to know how fast protective devices will react to level of fault you may experience.
Determining appropriate PPE is key.
Reference sources are available through IEEE and NFPATBD to aid in conducting the calculations for analysis and to determine appropriate PPE. You can perform the calculations yourself, but there are a number of variables associated with current, type of equipment, use and potential fault varieties. Software designed for such calculations makes the job much easier. Organizations offering such software include: Cooper Bussmann, Easy Power, eTAP, Ferraz Shawmut, IEEE, Littlefuse, and SKM, among others.
Hiring a consultant firm to help you.
As an added step toward achieving proper compliance, employing a third-party vendor to conduct the analysis will ensure that the calculations are performed correctly, proper documentation is provided, and that your facility is in compliance and personnel are safely protected.