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Lightning Potential Index (J/Kg) (Yair et al.2010,JGR)

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Presentation on theme: "Lightning Potential Index (J/Kg) (Yair et al.2010,JGR)"— Presentation transcript:

1 Lightning Potential Index (J/Kg) (Yair et al.2010,JGR)
Lightning Potential Index (LPI) is a measure of the potential charge separation that leads to lightning flashes in convective TSs. It is calculated from model simulated updraft and microphysical fields within the charge separation region of clouds between (0 o C and - 20 o C), where the non inductive mechanism involving collisions of ice and graupel particles in the presence of supercooled water is most effective (Saunders, 2008). So, the LPI is defined as the volume integral of the total mass flux of ice and liquid water within the “charging zone” in a developing thundercloud. The LPI (J kg-1) and is defined as, Where V is the volume of air in the layer between 0oC and -20oC, w is the vertical wind component (m s-1), and qs, qi and qg are the model-computed mass mixing ratios for snow, cloud ice, and graupel respectively (in kg kg-1).€ is a dimensionless number that has a value between 0 and 1 and is defined by, Where Ql is the total liquid water mass mixing ratio (kg kg-1 )and Qi is the ice fractional mixing ratio (kg kg-1 ) defined by, In essence, € is a scaling factor for the cloud updraft and attains a maximal value when the mixing ratios of supercooled liquid water and of the combined ice species (the total of cloud ice, graupel, and snow) are equal., calculation of the LPI from the cloud-resolving atmospheric model output fields can provide maps of the microphysics based potential for electrical activity and lightning flashes.

2 Day1 IC:

3 Day2 IC:

4 IC:

5 IC:

6 IC: Hourly evolution of IMD: WRF (3km) Derived :Lightning Potential Index (J/kg)

7 IC: Hourly evolution of IMD: WRF (3km) Derived :Threat of Lightning Potential Index (J/kg) Threat Level : LOW: LPI < and >0.0005 Threat Level : Moderate: LPI :< 0.01 and > 0.001 Threat Level : High : LPI > 0.01

8 Moderate: 5 < SCP < 7 High : SCP > 7
IC: Hourly evolution of IMD: WRF (3km) Derived : Supercell Composite Parameter SCP = (CAPE/1000 J kg–1) × (SRH/50 m–2 s–2) × (BWD/20 m s–1) Where -- CAPE –180-hPa-layer “most unstable” 0-3km SRH Storm Relative Helicity between 0-3km BWD Bulk shear is computed from the u and υ winds between the model’s 0–30-hPa-above-ground layer and 500 hPa. SCP >= 1 are associated with environments conducive to thunderstorm updraft persistence and rotation. ( Ref: Carbin et al BAMS Threat Level : LOW: 3 < SCP < 5 Moderate: 5 < SCP < 7 High : SCP > 7

9 IC: Hourly evolution of IMD: WRF (3km) Derived :Layer Mean Relative Humidity LAYRH= Layer mean Relative Humidity Between 1000hPa and 100hPa( Ref: Rajeevan et al J. Earth Sys. Sci) Threat Level : LOW: 20 < LAYRH < 40 Moderate: 40 < LAYRH < 60 High : LAYRH > 60


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