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Harger Lightning & Grounding © 2005
Harger Lightning & GroundingHarger Lightning & Grounding20052005
Lightning Protection SystemsLightning Protection Systems
Harger Lightning & Grounding © 2005
Harger Lightning & Grounding © 2005
Lightning Protection Systems
I. What is Lightning/Lightning Protection?II. Basic Principles of Lightning ProtectionIII. Risk AssessmentIV. Applicable Codes/Standards V. Basic ComponentsVI. “ Typical ” Roof Top Detail
Harger Lightning & Grounding © 2005
I. What is Lightning?
Consider Lightning a Gigantic Electrical Spark traveling betweenConsider Lightning a Gigantic Electrical Spark traveling betweenCloud to Cloud or Cloud to Earth containing an average Charge ofCloud to Cloud or Cloud to Earth containing an average Charge of30 to 50 Million Volts and a Current of 18,000 Amps.30 to 50 Million Volts and a Current of 18,000 Amps.
Harger Lightning & Grounding © 2005
Harger Lightning & Grounding © 2005
What is Lightning Protection?
NFPA 780 -
A Complete System of Air Terminals, Conductors, Ground Terminals, Interconnecting Conductors, Surge Suppression Devices, and other Connectors or Fittings required to complete the System.
Harger Lightning & Grounding © 2005
Lightning Damage Can Be Traced To :
Inadequate (or no) direct strike protection
Harger Lightning & Grounding © 2005
Risks Posed from a Direct StrikeRisks Posed from a Direct Strike
Harger Lightning & Grounding © 2005
Risks Posed from an Indirect StrikeRisks Posed from an Indirect Strike
Harger Lightning & Grounding © 2005
Harger Lightning & Grounding © 2005
What is notnot Lightning Protection?
Early Streamer Emission – ESERadioactivePulsed VoltageSparking – Controlled Leader Trigger (CLT)
Lightning EliminationDissipation Array Systems (DAS)Charge Transfer Systems (CTS)
Harger Lightning & Grounding © 2005
What is notnot Lightning Protection?
ESE – Early Streamer EmissionManufacturers claim that the ESE launch an upward streamer faster than conventional Franklin Rods or the features on the structures to be protected.Claim streamer speeds of 106 m/s to provide this advantageActual field measures from multiple investigators have documented streamer speeds ranging from
McEachron - 5.2 x 104 to 6.4 x 105 m/sYokoyama - 0.8 to 2.7 x 105 m/s
Laboratory propagation speeds 104 m/sStriking distance directly proportional to Leader charge.
Reference: M.A. Uman & V.A Rakov (University of Florida)American Meteorological Society Paper 2002
Harger Lightning & Grounding © 2005
What is notnot Lightning Protection?
ESE – Early Streamer EmissionHeary Bros – PreventorIndelec - PrevectronErico – DynasphereFranklin France – Saint ElmoIngescoDuval Messien – SatelitHelita
1999 Byran Report commissioned by NFPA – found no technical basis for the claims of enhanced performance
Harger Lightning & Grounding © 2005
Prevectron
Dynasphere
19mm Blunt Franklin Rod
Seven year period - air terminals on 6 m mastsNeither ESE or Sharp Franklin Rods struck12 Blunt Franklin Rods were struck (12.7 to 25.4 mm)
Charles Moore - Principal Investigator - New Mexico Tech
Harger Lightning & Grounding © 2005
French Made - Duval Messien SatelitESE 30m from damaged wall
Photos courtesy Hartono & Robiah
Malaysia Apartment Building
One of numerous such cases in Malaysia where ESE have failed to protect structures where the ESE was located at a distance well within the claimed radius of protection.
Harger Lightning & Grounding © 2005
Harger Lightning & Grounding © 2005
High Voltage Lab Test
Mississippi State University
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Dynasphere Damaged
Harger Lightning & Grounding © 2005
ESE LawsuitIn connection with the NFPA’s rejection of ESE draft standard 781, three ESE companies (Heary Bros. Lightning Protection Co., Inc., Lightning Preventor of America, Inc., and the National Lightning Protection Corp., of which the two first mentioned have merged) filed a law suit against the Lightning Protection Institute, Thompson Lightning Protection Inc., and East Coast Lightning Equipment, Inc.
The lawsuit, which was initiated in 1996, contained allegations of conspiracy, false advertising and product defamation regarding the advertised improved efficiency of ESE terminals compared to conventional Franklin rods.
In October, 2003, the Federal District Court of Arizona dismissed the lawsuit.The dismissal was largely based on the fact that the ESE vendors presented no admissible evidence at all to support their claims. Additionally, the Court granted a favorable ruling to a counterclaim against the ESE vendors. The ESE vendors were convicted of falsely advertising the claimed increase in efficiency of ESE rods in comparison to conventional Franklin rods.
Significantly, the verdict rejected the ESE vendor’s claims that their ESE terminals’compliance with various ESE standards justified the advertised expanded zones of protection for ESE devices. The Court found that the conformance with foreign ESE standards failed to prove claimed increased zones of protection for ESE rods. The Court found that the ESE vendor’s claims are not supported by tests sufficiently reliable to support those claims and are therefore in violation of American “truth-in-advertising”laws.
Harger Lightning & Grounding © 2005
What is notnot Lightning Protection?
Lightning Elimination
According to proponents the charge released via corona discharge at the sharp points will either:
1. Discharge the overhead thundercloud thereby eliminating any possibility of lightning (Dissipation Array)
2. Discourage a downward-moving leader from attaching to the array or structure by reducing the electric field near the arrayand, hence, suppress the initiation of an upward streamer.
Harger Lightning & Grounding © 2005
What is notnot Lightning Protection?
Dissipation / Charge Transfer System)SplineballLightning MasterLEC – Dissipation Array System DASLEC – Charge Transfer System CTSLightning Prevention Systems – ALS Static Dissipater
Harger Lightning & Grounding © 2005
What is notnot Lightning Protection?Lightning EliminationDevices have failed to perform as claimed by manufacturers.
US Federal Aviation Administration (FAA)• Banned after towers and DAS struck
National Aeronautical Space Administration• Banned after towers struck at Kennedy Space Center
US Military• Banned towers at military bases struck
Japan - field test showed statistical distribution of peak current unchanged. (Kuwabara et al.)Trees & grass often generate more corona discharge than dissipation arrays without apparently inhibiting lightning.
Harger Lightning & Grounding © 2005
Non Conventional Lightning Protection Systems
These systems are not allowed by:US National Fire Protection Association (NFPA)IEEEIECUS MilitaryUnderwriters Laboratory (UL)
Harger Lightning & Grounding © 2005
II. Basic Principles of Lightning Protection
• Intercept the Lightning Discharge• Safely Conduct the Lightning Currents• Minimize the Effects of Lightning Currents• Dissipate the Lightning Currents in the Earth
Zone of Protection - space adjacent to LPS substantially immune to direct lightning discharges. Determined using Rolling Sphere Method.
Harger Lightning & Grounding © 2005
III. Risk Assessment*
The Lightning Risk Assessment Methodology is provided to assist the building owner or architect/engineer in determining the risk of damage due to lightning. The methodology considers only the damage caused by a direct strike to the structure.
* NFPA 780 revised in 2004
Harger Lightning & Grounding © 2005
Lightning Strike Probability
The probability that a structure will be struck by lightning is the product of the equivalent collection area of the structure times the flash density for the area that the structure is located.
Harger Lightning & Grounding © 2005
Risk Assessment Formula
If Nd > Nc Lightning Protection Should be Installed
Nd = The Yearly Lightning Strike Frequency
Nc = Tolerable Lightning Frequency
Harger Lightning & Grounding © 2005
Nd = The Yearly Lightning Strike Frequency
Nd = (Ng)(Ag)(C1)Where:
Ng = The yearly average flash density in the region where the structure is located.
Ag = The equivalent collective area of the structure in km2.
C1 = The environmental coefficient.
Harger Lightning & Grounding © 2005
10-year Flash Density Map - U.S.
)
0.1
0.5
1.0
2.0
3.0
4.0
6.0
8.0
10.0
12.0
14.0
16.0
Ng = The Yearly Average Flash Density
Units: flashes/km2/yr
Lightning Density Map provided by Global Atmospherics, Inc. Tucson Arizona.
Harger Lightning & Grounding © 2005
Ag = The Equivalent Collective Area
Refers to the ground area having the same yearly direct lighting flash probability as the structure. It is an increase area for the structure that includes the effect of the height and location of the structure.There are 3 models:
Harger Lightning & Grounding © 2005
Rectangular Model
Harger Lightning & Grounding © 2005
Model 2
Harger Lightning & Grounding © 2005
Model 3
Harger Lightning & Grounding © 2005
Harger Lightning & Grounding © 2005
C1 = The Environmental Coefficient
The Environmental Coefficient accounts for the topography of the site of the structure and any object located with the distance 3H from the structure that can affect the collection area.They are as follows:
Harger Lightning & Grounding © 2005
C1 = The Environmental Coefficient
Relative Structure Location C1Structure located within a space containing structures or trees of the same height or taller with a distance of 3H
0.25
Structure surrounded by smaller structures within a distance of 3H
0.5
Isolated structure, no other structures located with a distance of 3H
1
Isolated structure on a hilltop 2
Harger Lightning & Grounding © 2005
Tolerable Lightning Frequency (Nc)
The Tolerable Lightning Frequency is a measure of the damage risk to the structure including factors affecting risks to the structure, environment and monetary loss. It is calculated as follows:
Harger Lightning & Grounding © 2005
Tolerable Lightning Frequency (Nc)
Nc = 1.5 x 10-3
CWhere:
C = (C2)(C3)(C4)(C5)
Harger Lightning & Grounding © 2005
C2 – Structural CoefficientRoof
Structure Metal Nonmetallic Flammable
Metal 0.5 1.0 2.0
Nonmetallic 1.0 1.0 2.5
Flammable 2.0 2.5 3.0
Harger Lightning & Grounding © 2005
C3 – Structural Contents Coefficient
Structure Contents C3
Low value and nonflammable 0.5
Standard value and nonflammable 1.0
High value, moderate flammability 2.0
Exceptional value, flammable, computer or electronics
3.0
Exceptional value, irreplaceable cultural items 4.0
Harger Lightning & Grounding © 2005
C4 – Structural Occupancy Coefficient
Structure Occupancy C4Unoccupied 0.5Normally occupied 1.0Difficult to evacuate or risk of panic 3.0
Harger Lightning & Grounding © 2005
C5 – Lightning Consequence Coefficient
Lightning Consequence C5
Continuity of facility service not required, no environmental impact
1.0
Continuity of facility service required, no environmental impact
5.0
Consequences to the environment 10.0
Harger Lightning & Grounding © 2005
Risk Assessment Formula
If Nd > Nc Lightning Protection Should be Installed
Nd = The Yearly Lightning Strike Frequency
Nc = Tolerable Lightning Frequency
Lightning Risk Assessment for Rectangular Structure
Lightning Flash Density (Fig. H.2) …………………… Ng = 4
Relative Structure Location (Table H.4.3) …………… C1 = 2
Rectangular Structure Length (ft) : L = 80 ftWidth (ft) : W = 50 ftHeight (ft) : H = 30 ft
Equivalent Collective Area: Ae = 4.91E-03 km 2̂
Lightning Strike Frequency: Nd = 3.93E-02
Structural Coefficients (Table H.5.a) ………………… C2 = 3Structural Contents Coefficients (Table H.5.b) ……… C3 = 3Structural Occupancy Coefficient (Table H.5.c) …… C4 = 1Lightning Consequence Coefficient (Table H.5.d) …… C5 = 5
Tolerable Lightning Frequency: Nc = 3.33E-05
Lightning Protection System Should Be Installed
Based on NFPA780-2000
Rectangular Model
Example
Harger Lightning & Grounding © 2005
Ouch!!Harger Lightning & Grounding © 2005
Harger Lightning & Grounding © 2005
IV. Applicable Codes/Standards
NFPA 780UL 96AUL 96
Harger Lightning & Grounding © 2005
NFPA 780
• Standard for the Installation of Lightning Protection Systems (2004)
• Most Active Standard Available• Not a Code, (not enforced)
Harger Lightning & Grounding © 2005
UL 96 & 96A
• 96A - Installation Standard• “Master Label”• Independent Third Party Testing• 96 - Manufacturing Standard for Listed
LP Components
Harger Lightning & Grounding © 2005
UL Master Label Program
Must be UL Listed to be Eligible
Materials must be UL Listed
System will be subjected to Inspection by UL
Harger Lightning & Grounding © 2005
VII. Basic Components
• Air Terminals• Lightning Conductors• Ground Terminals• Connectors/Fittings• Surge Suppression Devices
Harger Lightning & Grounding © 2005
Types of Air Terminals
• Plain Air Terminals• Safety Air Terminals• Flexible Air Terminals
Harger Lightning & Grounding © 2005
New Mexico Tests
19mm (3/4”) blunt rod was most effective
Harger Lightning & Grounding © 2005
Types of Lightning Conductors
• UL Listed Lightning Conductors
• Copper • Aluminum
• Class I • Class II
• Structural Steel Framework
Harger Lightning & Grounding © 2005
Types of Ground Terminals
• Ground Rods
• Plain/Sectional Copper-Clad Steel, Copper, Galvanized Steel, Stainless Steel
• Enhanced Ground Rods
Harger Lightning & Grounding © 2005
Types of Ground TerminalsContinued...
• Ground Plates• Ground Mesh• Concrete Encased
Electrodes• Reinforcing Steel• Copper Conductors
Harger Lightning & Grounding © 2005
Connectors/FittingsFunctions
• Bonds Conductors to Strike Terminals and Ground Terminals
• Bond Metal Bodies to Provide a Path to Ground
• Alleviates Potential Differences between System and Metal Bodies
• Helps Prevent Flashover Potentials
Harger Lightning & Grounding © 2005
Surge Suppression DevicesHelps Prevent Surge Currents from Entering the Structure via Electrical, Data, Phone, Cable Lines, etc.
Integral Part of Total Protection Package
UL96A & NFPA Surge Suppression Requirements vague
Roof Top Detail
VIII.
Harger Lightning & Grounding © 2005
Details
Thank You
Harger Lightning & Grounding © 2005
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