Particle Aggregation Afshan Shaikh EAS 4480 Spring 2012 April 26, 2012.

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Presentation transcript:

Particle Aggregation Afshan Shaikh EAS 4480 Spring 2012 April 26, 2012

Importance Ash plumes of explosive volcanism can reach upper atmosphere Ash plume travel distance dependent on ash aggregation ▫Also case for volcanic vents ▫Pyroclastic density currents Better understanding of eruptive flows Help predict after math of volcanic eruptions

Methods First experiment (referred to as ‘old data’ later’) ▫Laser sheet ▫Data processed by matlab ▫Ash and Ballontini Second experiment ▫Evacuate to simulate lower pressures ▫Hand processed (yay) Old experiment set up, Image obtained from Jen Telling

Formulas and Assumptions CKE ( Collisional Kinetic Energy) ▫Calculated differently for both experiments ▫Energy of the collision Assumed densities of the ash was 2650 kg/m 3 Perfect sphere for volume calculation Diameter ▫Reduced Diameter vs. Assumed Diameter Aggregation Efficiency calculation

Analysis Used Regression analysis (RH and CKE) ▫For linear regression, error structures calculated and plotted (RH) Correlation Coefficient (RH and CKE) Boot Strap for Correlation Coefficients (RH and CKE) Comparison of actual vs. bootstrap mean

Boot Strap Correlation Coefficients (CKE) CorrCoef R = P =.0 BootStrap R = CorrCoef R = P =.005 BootStrap R = 0.609

Boot Strap Correlation Coefficient (RH) CorrCoef R = P =.5892 BootStrap R = CorrCoef R = P = BootStrap R = CorrCoef R = P = BootStrap R =

Conclusion No significant correlation between RH andAggregation Efficiency Definite nonlinear regression AggregationEfficiency and CKE