Arc Flash Calculations What Does It All Mean

Arc Flash Hazard Calculations – What does it all mean? Robert E. Fuhr, P.E. PowerStudies.com

Why are Arc Flash Hazard Studies Needed? To Increase Electrical Safety at your facility! Required by National Electric Code (NEC) and OSHA To Protect You!

OSHA Requirements Standard 29 CFR 1910 Subpart S, 1910 to 1910.336 Must identify all hazards above 50 Volts Must put safeguards in place for these hazards Must train employees on safe work practices OSHA has officially adopted NFPA 70E

Employers must provide workers with appropriate PPE as per the OSHA 29 1910.132 (h)(1) PPE payment requirement, i.e., (PPE) used to comply with this part, shall be provided by the employer at no cost to employees. Paragraph (h) became effective February 13, 2008, and employers must implement the PPE payment requirements no later than May 15, 2008

Key References in NEC ® -2008 110.16 Flash Protection. Switchboards, panel boards, industrial control panels, and motor control centers in other than dwelling occupancies, that are likely to require examination, adjustment, servicing, or maintenance while energized , shall be field marked to warn qualified persons of potential electric arc flash hazards.

NEC 110.16 (continued) The marking shall be located so as to be clearly visible to qualified persons before examination, adjustment, servicing, or maintenance of the equipment.

Key References in NEC ® -2005 FPN No. 1 : NFPA 70E-2004, Standard For Electrical Safety in the Workplace, provides assistance in determining severity of potential exposure, planning safe work practices and selecting personal protective equipment.

NFPA 70E -Flash Hazard Analysis 130.3 – A flash hazard analysis shall be done in order to protect personnel from the possibility of being injured by an arc flash. The analysis shall determine: Flash Protection Boundary Personal protective equipment Calculate using Formulas in 130.3.A and Table 130.7(C)(9)(a) * in NFPA 70E * - Use with extreme caution!!! Equations in IEEE 1584

Industry standards and regulations: OSHA 29 CFR 1910 Subpart S NFPA 70 - The National Electrical Code (2008 Edition) NFPA 70E - Standard for Electrical Safety in the Workplace (2004 Edition)

Arc Flash Hazard Analysis Key Steps Use NFPA 70E * Tables, IEEE 1584, or Lee Equations to Determine Incident energy levels Arc Flash hazard distance * Use with extreme caution!

Arc Flash Hazard Analysis Key Steps Use Calculated Incident Energy NFPA 70E Table 130.7(C)(11) to determine Hazard/Risk Category Required PPE

Acceptable & Informative Labels

Short Circuit Fault Study Coordination (PDC) Study Arc Flash Study Device Operating Time Arcing Fault Current 3 Phase Bolted Fault Current Arc Flash Label Energy Level Boundaries Required PPE Obtain Equipment Nameplate Data & Settings

Arc Flash Energy Calculation Use 85% Ia Determine Upstream Protective Device Clearing Times (PDC Study) Repeat process for 100% Ia Use largest energy calculation

Arc Flash Hazard Analysis Key Steps Determine: Bolted Fault Currents (Short Circuit Study) Arcing Fault (AF) Current Upstream Protective Device Clearing Times (PDC Study) using AF

Arc Flash Hazard Analysis Key Steps Calculate Arc Flash Energy Use NFPA 70E Tables to determine: Glove Rating Class Limited Approach Boundary Prohibited Approach Boundary Restricted Approach Boundary Required PPE

Arc Flash Hazard Analysis Key Steps Arc Flash Warning Labels showing the details .

How a Short Circuit Study is Performed Obtain distribution system nameplate data for: Transformers Motors Circuit breakers, fuses, relays Switchgear Motor Control Centers Conductor sizes and lengths

How a Short Circuit Study is Performed Enter data into the computer program. Simulate short circuit at each location and calculate the fault current. Compare calculated fault current to equipment short circuit rating.

What is Protective Device Coordination (PDC) Study? Determines: fuse sizes Settings for relays and circuit breakers Device operating time The study has 2 conflicting goals

Goal #1 - Maximum Selective Coordination Between Equipment Correct fuse sizes and settings will allow the device closest to a fault to trip . If the first device fails to operate, then the next upstream device will trip . Longer device trip delays = increased device coordination = greater incident energy

Goal #2 - Maximum Equipment Protection and Reduction in Arc Flash Energy Correct fuse sizes and device settings will quickly interrupt the fault current for a short circuit downstream. Shorter device delays = decreased equipment damage = less Incident Energy

Maximum Equipment Protection (No Selective Coordination) 1 1 1

Must balance these two conflicting goals based upon the type of facility.

PDC Vocabulary Time Current Curve (TCC) Log-log graph of time versus current Every breaker, fuse, and relay has a time current characteristic curve.

PDC Vocabulary Selective Device Coordination The devices plotted on the time current curves are coordinated for all levels of fault current and time.

Fuse TCC 3-6 Sec 5 kA @15 kA This Fuse is Current Limiting – Clearing time is 0.004 seconds

Thermal Magnetic Trip Unit Thermal Unit is Fixed Instant-aneous Fixed Adjustable

Thermal Magnetic Breaker 20 kA 0.01-0.025 Sec 4 kA 20-50 Sec

Solid State Trip Unit SQ D NW 40H 4000 Amp Micrologic Current Sensors Rating Plugs Current Setting

Solid State Trip Unit Varies for each Trip Unit! Some Functions are Not Adjustable! Long Time Pickup (LTPU) Long Time Delay (LTD) Short Time Pickup (STPU) Short Time Delay (STD) Instantaneous (I) Short Time Delay I2T-IN (I2T)

Solid State Trip SQ D NW 40H 4000 Amp Micrologic 100 kA 0.01-0.06 Sec 6 kA 0.08-0.12 Sec 30 kA 170-210 Sec

Time Current Curves An example of a TCC with Coordinated Devices Current in Amperes X 100

Arc Flash Energy Calculations Incident Energy Levels are dependent on: Level of arcing fault current Upstream device clearing time . Multiple Sources

Typical Assumptions for an Analysis Trip time is determined by the upstream protective device settings . Worker is stationary . The maximum time that a worker will be exposed to the arc flash is 2.0 seconds . (Depends upon location!!!)

Arc Flash Warning Labels What does it mean?

Limited Approach Boundary: An approach limit at a distance from an exposed live part within which a shock hazard exists. This value is determined by NFPA 70E (2004) Table 130.2(B). Qualified Persons Unqualified if accompanied by a Qualified Persons PPE not required if AF Boundary is not in Limited Approach Boundary

Restricted Approach Boundary An approach limit at a distance from an exposed live part within which there is an increased risk of shock, due to electrical arc over combined with inadvertent movement, for personnel working in close proximity to the live part. Determined by NFPA 70E (2004) Table 130.2(B)

Restricted Approach Boundary Qualified Persons Only Must wear PPE

Prohibited Approach Boundary An approach limit at a distance from an exposed live part within which work is considered the same as making contact with the live part. Determined by NFPA 70E (2004) Table 130.2(B). Qualified Persons Only PPE Required as if in direct contact

Arc Flash Label Installation Always clean the surface with detergent to remove all grease and dirt. Wipe surface dry before applying the label. Some locations will have a Line Side Label. They should be installed at locations where maintenance staff could be exposed to energized parts on the line side of a fuse or circuit breaker. Examples of this are Main Breakers in Switchboards and Switchgear.

Arc Flash Label Installation Transformer Labels are for small distribution transformers (480/208 V) where both the 480 and 208 Volts terminals are exposed. Locations where the label will be exposed to direct sun light should be brought to the attention of PowerStudies.com. We will provide labels with a special UV protective covering to protect the label from fading.

Need more Information www.powerstudies.com Articles Links Specifications for Power System Studies Short Circuit Protective Device Coordination Arc Flash Hazard Phone: 253-639-8535 Email: fuhr@powerstudies.com

Thank you for your time! Questions?????

Arc Flash Calculations What Does It All Mean

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Arc Flash Calculations What Does It All Mean