Precipitation AOSC 200 Tim Canty. Cloud Development: Orographic Lifting

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Transcription:

Precipitation AOSC 200 Tim Canty Class Web Site: http://www.atmos.umd.edu/~tcanty/aosc200 Topics for today: Precipitation formation Rain Ice Lecture 14 Oct 11 2018 1 Cloud Development: Orographic Lifting Air is forced up the side of a mountain and cools as it rises Fig 5.10: Essentials of Meteorology 2

Cloud Development: Frontal Lifting A cold front will lift warm air that it comes in contact with Fig 5.10: Essentials of Meteorology 3 Cloud Development: Convection As surface air is warmed by the sun, it becomes less dense and rises Fig 5.10: Essentials of Meteorology 4

Cloud Development: Convergence When wind meets from different directions, the air in between has no place to go but up Fig 5.10: Essentials of Meteorology 5 Lapse Rate Dry adiabatic lapse rate: if no cloud forms, air will cool at 10 C per kilometer. Fig 3-19 Meteorology: Understanding the Atmosphere 6

Saturated Adiabatic Lapse Rate Once water begins to condense, latent heat is released. The air parcel cools at a slower rate than if the air parcel was dry Fig 4-14 Meteorology: Understanding the Atmosphere 7 Cloud Development: Convection Hot air rises. Some evaporation occurs outside of cloud Cold air sinks, replaces the warm surface air, heats and rises Fig 5.11: Essentials of Meteorology 8

Roll Clouds http://www.geography.hunter.cuny.edu/tbw/wc.notes/10.thunderstorms. tornadoes/roll_cloud_diagram.htm 9 How Does Precipitation Really Form: Collision and Coalescence: water Fig 5.20: Essentials of Meteorology 10

How Does Precipitation Really Form: Collision and Coalescence: water Tiny droplets ride updrafts and collect more water as they rise Eventually they get big enough that gravity takes over and the drops fall This is a warm cloud process and happens primarily in the summer and in the tropics Fig 5.20: Essentials of Meteorology 11 Water Phases Within a Cloud Fig 7.1 Weather: A Concise Introduction 12

How Does Precipitation Really Form: Accretion and Aggregation: Ice This is known as the Bergeron Process Fig 5.24: Essentials of Meteorology 13 14

Ice Crystal Habits (good name for a band) Type of crystal depends on temperature and how much water is available 15 Ice Crystal Habits (good name for a band) http://iss.jaxa.jp/en/kiboexp/theme/first/ice_crystal/ 16

Best word in science coming up!!!! wait for it.. Fig 5.38: Essentials of Meteorology 17 Hail Cold water can freeze on contact to a cold condensation nuclei While the ice is in the updraft it can cycle up and down or be moved horizontally Layers of ice are added until eventually it falls from the cloud Fig 5.41: Essentials of Meteorology 18

Temperature determines the type of precipitation The type of precipitation that reaches the ground depends on the temperature profile of the atmosphere Fig 5.37: Essentials of Meteorology 19 Updrafts and Downdrafts Fig 5.28: Essentials of Meteorology 20

Updrafts and Downdrafts Falling rain and evaporation (cold air sinks) creates a downdraft Cold downdrafts can support warm updrafts This can lead to very localized rainfall Fig 5.28: Essentials of Meteorology 21 Rain: Falling drops of water larger than 0.02 inch in diameter. In forecasts, "rain" usually implies that the rain will fall steadily over a period of time. (See "showers" below). Light rain: Falls at the rate of 0.10 inch or less an hour. Moderate rain: Falls at the rate of 0.11 to 0.30 inch an hour. Heavy rain: Falls at the rate of 0.30 inch an hour or more. Drizzle: Falling drops of water smaller than 0.02 inch in diameter. They appear to float in air currents, but unlike fog, do fall to the ground. Light drizzle: Drizzle with visibility of more than 5/8 of a mile. Moderate drizzle: Drizzle with visibility from 5/16 to 5/8 of a mile. Heavy drizzle: Drizzle with visibility of less than 5/16 of a mile. Showers: Rain that falls intermittently over a small area. The rain from an individual shower can be heavy or light, but doesn't cover a large area or last more than an hour or so. rain is steady and continuous, showers start and stop abruptly and can vary in intensity 22

Snow Flurries: light snow falling for short durations. Little to no accumulation. The most accumulation that can be expected is a light snow dusting. Snow Showers: Snow falling at varying intensities for brief periods of time. Some accumulation is possible, but not guaranteed. Snow Squalls: intense, but limited duration, period of moderate to heavy snowfall, accompanied by strong, gusty surface winds and possibly lightning (generally moderate to heavy snow showers). Snow accumulation may be significant. Blizzards: Winds over 35 mph. Visibility is often near zero. Significant accumulations of snow likely 23 How are clouds REALLY formed? To answer this we should answer some other questions 24

Aerosols (really tiny!!!!) Fig 1-10 Meteorology: Understanding the Atmosphere 25 Condensation Nuclei Fig 5.18: Essentials of Meteorology 26

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