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contributor authorJensen, Anders A.
contributor authorHarrington, Jerry Y.
contributor authorMorrison, Hugh
date accessioned2019-09-19T10:07:59Z
date available2019-09-19T10:07:59Z
date copyright6/29/2018 12:00:00 AM
date issued2018
identifier otherjas-d-17-0400.1.pdf
identifier urihttp://yetl.yabesh.ir/yetl1/handle/yetl/4261898
description abstractAbstractAn IMPROVE-2 orographic precipitation case is simulated using the Ice-Spheroids Habit Model with Aspect-Ratio Evolution (ISHMAEL) microphysics. In ISHMAEL, the evolution of ice particle properties such as mass, shape, size, density, and fall speed are predicted. These ice particle properties along with the ice size distributions from ISHMAEL and model-derived spatial distribution of accumulated precipitation are compared to observations. ISHMAEL predicts planar and columnar particles at spatial locations that agree with observations. Sensitivity simulations are used to explore the impact of predicting ice particle shape evolution on orographic cloud properties and precipitation compared to the traditional approach of representing snow and graupel using separate categories with conversion from snow to graupel during riming. High biases in both IWCs aloft and surface precipitation accumulation occur in the Umpqua River valley using separate snow and graupel categories because snow that does not convert to graupel is advected over the Coast Range and precipitates out in the valley. Improvements in IWCs aloft and surface precipitation using ISHMAEL occur from both predicting various vapor-grown habits and predicting the impact of partial riming on ice particle properties. Compared to traditional microphysics schemes, ISHMAEL also produces less spatial variability in accumulated precipitation.
publisherAmerican Meteorological Society
titleImpacts of Ice Particle Shape and Density Evolution on the Distribution of Orographic Precipitation
typeJournal Paper
journal volume75
journal issue9
journal titleJournal of the Atmospheric Sciences
identifier doi10.1175/JAS-D-17-0400.1
journal fristpage3095
journal lastpage3114
treeJournal of the Atmospheric Sciences:;2018:;volume 075:;issue 009
contenttypeFulltext


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