Department of Atmospheric Science, Colorado State University, Fort Collins, CO 80523, USA
Received: 19 Jul 2010 – Published in Atmos. Chem. Phys. Discuss.: 30 Sep 2010
Abstract. This paper examines the feasibility of mitigating the intensity of hurricanes by enhancing the CCN concentrations in the outer rainband region. Increasing CCN concentrations would cause a reduced collision and coalescence, resulting in more supercooled liquid water to be transported aloft which then freezes and enhances convection via enhanced latent heat of freezing. The intensified convection would condense more water ultimately enhancing precipitation in the outer rainbands. Enhanced evaporative cooling from the increased precipitation in the outer rainbands would produce stronger and more widespread areal cold pools which block the flow of energy into the storm core, ultimately inhibiting the intensification of the tropical cyclone.
Revised: 21 Jan 2011 – Accepted: 21 Feb 2011 – Published: 18 Mar 2011
We designed a series of multi-grid for which the time of the "virtual flights" as well as the aerosol release rates are varied. A code that simulates the flight of a plane is used to increase the CCN concentrations as an aircraft flies. Results show a significant sensitivity to both the seeding time and the aerosol release rates and support the aforementioned hypothesis.
Citation: Carrio, G. G. and Cotton, W. R.: Investigations of aerosol impacts on hurricanes: virtual seeding flights, Atmos. Chem. Phys., 11, 2557-2567, doi:10.5194/acp-11-2557-2011, 2011.