1) typical in summertime buoyancy process important. Ordinary: Short-lived (30-60 minutes) storm generally is non-severe but pulse severe storm is possible storm moves with mean wind little or no vertical wind shear/weak winds aloft in environment chaotic hodograph (Fig. WSR-88D Doppler radar imagery showing the evolution of some supercell events across Kentucky and south-central Indiana are available. More information concerning environmental conditions and the structure of classic and HP supercells is given below. In general, however, the supercell class of storms is defined by a persistent rotating updraft (i.e., mesocyclone) which promotes storm organization, maintenance, and severity. There are variations of supercells, including "classic," "miniature," "high precipitation (HP)," and "low precipitation (LP)" storms. Once thunderstorms form, small/convective-scale interactions also influence storm type and evolution. The degree and vertical distribution of moisture, instability, lift, and wind fields have a profound influence on convective storm type, including supercells, multicells (including squall lines and bow echoes), ordinary/pulse storms, or a combination of storm types. They are most common during the spring across the central United States when moderate-to-strong atmospheric wind fields, vertical wind shear (change in wind direction and/or speed with height), and instability are present. Supercell thunderstorms are perhaps the most violent of all thunderstorm types, and are capable of producing damaging winds, large hail, and weak-to-violent tornadoes. Structure and Dynamics of Supercell Thunderstorms
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |