Chapter 09 Fog Formation Lesson 30/31 Types of Fog Radiation Fog Smoke Fog (Smog) Advection Fog Thaw Fog Arctic Sea Smoke (Steam Fog) Frontal Fog Hill.

Slides:

Advertisements

Similar presentations

Dew forms as the temperature drops to the dew point. Water droplets love to collect on surfaces or tiny particles. It is very difficult for water drop.

Advertisements

Haze Hygroscopic aerosols Wet Haze with less than 75 % RH Condensation nuclei needed to form fog or cloud Hydrophobic aerosols.

2 pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt Precipitation Air Masses CloudsInstrumentsMiscellaneous.

Clouds, Precipitation & Fog

Fog and Cloud formation: How does air become saturated? North Sea Fog – a coloured visible satellite image.

HUMIDITY, PRECIPITATION AND CLOUDS � Air is formed of 99% nitrogen and air, the rest being trace gases such as argon, CO2 and water vapour. � The amount.

Fog Formation Anthony R. Lupo Lab 8 Atms 4310.

Atmospheric Moisture Key terms: Absolute & relative humidity Dew point temperature Precipitation.

#4095. How much colder than standard temperature is the actual temperature at 9,000 feet, as indicated in the excerpt from the Winds and Temperature Aloft.

Moist Processes ENVI1400: Lecture 7. ENVI 1400 : Meteorology and Forecasting2 Water in the Atmosphere Almost all the water in the atmosphere is contained.

Land And Sea Breezes Marine Layer Advection & Radiation Fog.

Weather & Climate By Sarah Waters & Therese Daly.

Precipitation Processes: Why does it fall on us?.

Fog/Foggy Weather. Overview Types of fog –Advection fog –Radiation fog –Upslope fog –Evaporation (mixing) fog –Steam fog Fog formation (1)by cooling…

Air Masses: Type, Modification, and Associated weather ENVI1400: Lecture 5.

Lecture 12: Atmospheric moisture (Ch 5) Achieving saturation by mixing parcels of air cooling to the dewpoint the dry adiabatic and saturated adiabatic.

Chapter 19 Visibility & Visibility reducing phenomena.

Visibility ATC Chapter 5.

Dew, frost and fogs.

Chapter 23 Section 2 Handout

Chapter 23 Section 2 Review Page 586 #‘s 1-6 “Clouds and Fog”

Dew, Frost and Fog. RECAP Hydrological cycle: transport of water and energy. Humidity: absolute humidity, specific humidity, water mixing ratio, relative.

Air Masses and Fronts – I. Air Masses A large (thousands of kms) body of air with more or less uniform properties in any horizontal direction at any given.

Humidity and Condensation After completing this section, students will compare the physical characteristics of the three states of water (Standard PI –

Chapter 5 Forms of Condensation and Precipitation

Cloud Formation cloud a collection of small water droplets or ice crystals suspended in the air, which forms when the air is cooled and condensation occurs.

Water in the Atmosphere I. Atmospheric Moisture Water exists on Earth in 3 forms:  Liquid  Solid (ice)  Gas.

Condensation. Atmospheric moisture has its most direct influence on land only when it is in its condensed form. Condensation is the direct cause of precipitation.

Humidity and Condensation Water is unique because it is the only substance that commonly exists in all ____________________________ of matter. Depending.

WATER IN THE ATMOSPHERE CHAPTER 18.1 HUMIDITY AND CONDENSATION.

By: Lori Sedlak. Humidity Measure of water vapor in atmosphere Water vapor is gaseous form of water - Also called atmospheric moisture Increased air temperature.

Fog Progression Presented by: Meshari Al-Hasan Supervised by: Prof. M. Fahim.

Condensation in the Atmosphere The atmosphere contains a mixture of dry air and a variable amount of water vapor (0-4% or 0-30 g/kg) An air parcel is said.

Introduction to Cloud Dynamics We are now going to concentrate on clouds that form as a result of air flows that are tied to the clouds themselves, i.e.

Water and Atmospheric Moisture

Chapter 5. The Formation of Dew & Frost  Dew forms on objects near the ground surface when they cool below the dew point temperature. More likely on.

CLOUDS. * Form of condensation * Visible chunks of small water droplets or ice crystals * Good indicators of what’s going on in the atmosphere.

Clouds and Cloud Formation. What is a cloud? A cloud is a collection of small water droplets or ice crystals suspended in the air. They are visible because.

Unit 4-2: Clouds. Fog – A cloud on the ground When the air at the surface becomes cooled below the dew point, water vapor condenses. When the air at the.

Chapter 18 Characteristics of water… Frozen water = ice

Chapter 23 Moisture in the Atmosphere Condensation.

The Hydrosphere. The hydrosphere is all of the Earth’s water – both fresh and salt. Water covers about 70% of the surface of the Earth. Of this water.

Weather Elements. Summary from Lesson 2 ____________ is the passage of energy, particularly heat and electricity, through an object. An example is a frying.

Class #23: Monday, March 1, Class #23: Monday, March 2 Clouds, fronts, precipitation processes, upper-level waves, and the extratropical cyclone.

Chapter 38 Weather.

FOG. Fog is a cloud (usually stratus) that is in contact with the ground. –Relatively stable air ie. Shallow lapse rate needed –Temperature to dew point.

MET 2204 METEOROLOGY Presentation 8: Visibility 1Presented by Mohd Amirul for AMC.

Weather in Atlantic Canada Chapter 3. Condensation Occurs when moist air rises and cools, forming clouds. Air rises because of being warmed from below.

Humidity and Condensation Water is unique because it is the only substance that commonly exists in all three states of matter. Depending upon temperature,

Lecture 5 reading assignm: A&K finish Ch 3, Ch 4. Hartmann 3.8, 3.9, 3.10, 3.12 Lapse rate, change in T with height Atmospheric water: quantifying water.

Urban Areas and Precipitation. Precipitation Remind yourself how the principle of convection rainfall works… Remind yourself how the principle of convection.

Humidity Humidity is the measure of water vapour content in the atmosphere. Absolute humidity is the mass of water vapour in a given volume.

MOISTURE, CLOUDS & PRECIPITATION Chapter 18 * REMINDER - water vapor is the source of all precipitation. Water’s Changes of State 1) Melting- solid to.

Weather phenomena associated with local energy budgets (mist, fog, dew, temperature inversions, land and sea breezes).

Monday’s lesson (At the end the lesson you will be able to…) Describe the changes in temperature with height through the lower layers of the atmosphere.

CGS Ground School Meteorology Visibility

Condensation in the Atmosphere

Dew, Frost and Fog.

Forms of Condensation.

The ability for the ocean to absorb and store energy from the sun is due to… The transparency of the water that allows the sun’s ray to penetrate deep.

Water in the Atmosphere

Weather phenomena associated with local energy budgets (mist, fog, dew, temperature inversions, land and sea breezes).

Weather phenomena associated with local energy budgets (mist, fog, dew, temperature inversions, land and sea breezes).

Clouds, Precipitation & Fog

EG1204: Earth Systems: an introduction

Air Masses and Fronts – I

Forms of Condensation and Precipitation

Air Masses and Fronts – I

Dew, Frost and Fog.

Introduction to Atmospheric Sciences Plymouth State University

Presentation transcript:

Chapter 09 Fog Formation Lesson 30/31

Types of Fog Radiation Fog Smoke Fog (Smog) Advection Fog Thaw Fog Arctic Sea Smoke (Steam Fog) Frontal Fog Hill Fog

Fog/Mist/Haze Fog: –is composed of small water droplets in suspension (or ice crystals in ice fog). –Visibility is reduced to less than 1000 m. –Relative humidity is generally 100%. –Plentiful supply of condensation nuclei.

Mist Mist: –is also caused by small droplets in suspension. –Visibility is 1000m or more. –METAR and TAF codes impose an upper limit of 5000 m. –RH is at least 95% but less than 100%. –Plentiful supply of condensation nuclei.

Haze Haze: –caused by solid particles in suspension. –visiblity in haze may reduce to fog levels but generally it is better and has an upper limit of 5000m for reporting purposes. –airborne solid particles from industrial processes are the most frequent cause of haze as well as fires.

Radiation Fog Caused by long wave radiation cooling from ground at night. Favourable conditions are –High relative humidity –little or no cloud –light winds, 2-8 knots

Radiation Fog Fog dispersal caused by: –incoming insolation heating environment to above saturation temperature, or by –turbulent mixing in the boundary layer with increasing wind and lifting fog into low stratus or by –mixing with dry air from above.

Synoptic Conditions for Radiation Fog These conditions are often met in anticyclones, ridges and cols, in late autumn, winter and early spring. Radiation fog is usually between 300 and 1000 ft in depth. Cloud cover arriving early in the night will arrest the heat loss, so that the radiation fog will not develop further, and may clear.

Radiation Fog Cont. Suitable diversion airfields in radiation fog would be: –A high level airfield if early in the night. –A coastal airfield with onshore wind. –An airfield in the lee of high ground, providing there is at least kt of wind.

Smoke Fog (Smog) A form of radiation fog. Formed when – A marked low level inversion exists. – A source of pollution. The inversion traps industrial and domestic pollution in the lower atmosphere. Fog visibilities may be found at slightly less than 100% relative humidity.

Advection Fog Formed by warm moist air moving over a colder surface below dew point of the air. Can form over sea as well as land. Wind strength is not material to the formation of advection fog.

Advection Fog Sea Fog which has formed over the sea may drift inland, as does the HAAR on east coasts of the UK in summer. Depth of advection fog is typically 1,000-1,500 ft. A change of airmass is usually necessary for the clearance of advection fog.

Thaw Fog Thaw fog is a particular case of advection fog. Warm air arriving over a snow-covered surface will often produce widespread fog while the snow melts The melting snow surface (at 0°C) both cools the air and increases the moisture content as it melts and evaporates. It is a particular feature of central and eastern European plains in the spring.

Arctic Sea Smoke Also known as steam fog or frost smoke. Occurs when very cold air moves over a relatively warm water surface. The very cold air mixes with the warm air above the sea surface to a depth of about 500 feet, cooling to below dew point temperature. There must also be a marked inversion.

Sea smoke over Thurso (Acknowledgments to A. Moar)

Arctic Sea Smoke Occurs frequently in winter –over the north-west Atlantic near Greenland or northern Canada when cold air moves over the relatively warm ocean. –very cold Siberian air moves over the sea by the Kamchatka Peninsula off eastern Russia, and –when cold katabatic air moves down the mountains into the fjords of Scandinavia.

Frontal Fog Formed by the lowering of frontal cloud to the surface (eg. at warm front passage). Forms ahead of a warm front by the saturation of air due to the continuous rain.

Orographic Fog/Hill Fog Also referred to as “cloud covering hills.” Formed by cloud in contact with high ground –forming orographic stratus due to forced ascent over high ground or, –simply high ground extending into an existing low cloud layer.

Hill Fog If forecast the visibility is automatically assumed to be less than 200m. Usually encountered in warm sectors with Tropical Maritime air.

Orographic/Upslope Fog Radiation Fog advecting up a slope If forecast the visibility is automatically assumed to be less than 200m. Usually encountered in warm sectors with Tropical Maritime air.

Orographic Fog Hill fog will clear with lifting of the cloud base or passage of the warm sector. Upslope fog will clear either by an increase in wind speed or by insolation