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Upper Air Measurements

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(1)

Upper Air Measurements

Chapter 12 Brock and Richardson

• Balloons

• Airplanes

• Rockets (Satellites)

(2)

Upper Air Measurements

Chapter 12 Brock and Richardson

• Advantages of balloon-borne instruments --Inexpensive

--Many uncertainties with remote sensing

• Disadvantages of balloon-borne instruments --Very poor spatial and temporal resolution

--Typically only used once

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Early “weather kite” 1900 with meteograph

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Pilot balloon release, circa 1930. Tracking telescope or "theodolite" used to obtain winds aloft.

(5)

Theodolite Wind Calculation

• Pilot balloon is tracked visually with theodolite

• Balloon ascent rate must be known (from known balloon weight and gas specifications)

• Position determined and wind velocity inferred from successive balloon

positions

(6)

Radiosondes

• Radiosonde (Sonde is French for probe) is a unit for use in weather balloons and measures various

atmospheric parameters and transmits them to a fixed receiver. Radiosondes may operate at a radio frequency of near 403 or 1680 MHz.

• A rawinsonde is a radiosonde that is designed to

also measure wind speed and direction. Colloquially, rawinsondes are usually referred to as radiosondes.

• Modern radiosondes measure or calculate the following variables:

Pressure, Altitude, Latitude/Longitude, Temperature, RH, Wind speed and direction

(7)

Early model radiosonde being attached to a balloon.

Circa 1936.

(8)

Radiosondes Continued…

• Rise about 5 m/s

• Rise to about 35 km (115,000 feet)

• Travel up to 300 km from release point

• 75,000 radiosondes launched by NWS each year, less than 20% recovered

• 800 upper-air observations points in world.

Most in Northern hemisphere. 93 in US

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Routine Upper air Observations

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Balloons

• Most are extensible (stretch)

• Volume increases until they reach bursting

altitude

• Inextensible balloon does not stretch

• Constant level balloon

• Balloon color: light

preferred on clear day,

dark on cloudy day

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Balloons

• Pilot balloons

• No payload, 10-100 g weight

• Sounding balloons

• Payload, 600-1800 g weight

• Inflated with either hydrogen or helium

• Helium = inert. Hydrogen = very explosive

• 2 meter balloon expands to about 8 meters before bursting

(12)

Balloons

• Material is not perfectly elastic

• At some point balloon will stop stretching and burst

• Helium leaks through balloon as it ascends

(13)

GRAW GPS radiosonde balloon launch near Tooele UT. Circa 2009.

(14)

Payload (Instrumentation)

VIASALA RAWINSONDE

(15)

Radiosonde Components

(16)

Types of Radiosonde Navigation

• LORAN C (LOng RAnge Navigation) is a terrestrial radio system with low frequency radio transmitters used to determine the location and speed of the receiver.

• OMEGA (8 transmitters operating in very low

frequency band; Ionosphere and Earth’s surface act as waveguides)

• The Global Positioning System (GPS) is a satellite-

based navigation system made up of a network of 24 satellites placed into orbit by the U.S. Department of Defense. Intended for military the government made the system available for civilian use in 1980’s.

(17)

Testing a prototype LORAN radiosonde tracking system and balloon shelter, circa 1993.

(18)

Calculation of wind speed and direction from GPS radiosonde

• “Differential GPS”

• If 4 or more satellites are seen by ground station, location is known to within 100 m

• Sonde also has built-in GPS receiver

• Sonde transmits received GPS signal to ground station

• Ground station computes position of sonde relative to ground (differential GPS)

• The GPS receiving device determines the distance from GPS satellite to receiver from the frequency deviation of radio wave sfrom the satellite due to the Doppler shift

• On the ground, reception of radio waves from the radiosonde allows observation of wind direction and wind speed in the upper air.

(19)

Dropsonde

• Dropsonde created by the NCAR, designed to be dropped from an aircraft to measure

tropical storm conditions.

• The dropsonde contains a GPS receiver, along with pressure, temperature and humidity

sensors.

• The device's descent is usually slowed by a

parachute, allowing for more readings to be

taken before it reaches the water beneath.

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(21)

NASA High-Altitude Balloon Program

--High altitude scientific balloon platforms for scientific and technological investigations.

--Fundamental scientific discoveries that contribute to our understanding of the Earth, the solar system, and the universe.

Example over Antarctica: Balloon flights carry the balloons and their instruments at the edge of space and are used to investigate the nature of ultra-high-energy cosmic rays and search for anti-matter, as air currents that circle

Antaratica.

(22)

• The Balloon Program is developing a Super Pressure Pumpkin Balloon.

• Super Pressure Balloon Demonstration Requirements

– 1-ton instrument to 100 kft – 100-day flight goal

– Little or no day/night altitude variation.

(23)

Weather Balloon Launches for Severe Thunderstorm and Electrification

Study (TELEX)

• There are two types of weather balloons used: latex

(beige colored) and plastic (clear). The plastic is used to minimize the effects of hail hitting the balloon, i.e, the plastic does not burst instantly when punctured. The latex balloon is used if hail is not expected.

• The basic instrument train consists of a parachute; a radiosonde for measuring temperature, relative

humidity, pressure, and GPS-derived winds and

location; and an electric field meter for measuring the vector electric field in the storm along the flight path.

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(27)

Plotting Radiosonde Data

• Skew T and Stuve Diagrams

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Skew-T Diagram

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Stuve Diagram

FOG!

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(31)

MONDAY NAM FORECAST SOUNDING 2 PM

(32)

TUESDAY NAM FORECAST SOUNDING 2 PM

(33)

Overview of Monday and Tuesday Launches

• Right now:

• Brief overview of GRAW rawinsonde system.

• Immediately after powerpoint (@ 20 minutes)

• Practice using GRAW software

• Monday/Tuesday lab schedule

• 2 PM-2:20 PM Weigh and fill balloon. We want to exactly measure weight of balloon and ascent speed for both launches future reference.

• 2:20-3 PM Rotation initializing launch procedure, gathering in situ data, setting up Theodolite

• 2:30 PM Call TRACON

• 3 PM Launch

• 3-4 pm observe launch characteristics, track with theodolite, compare with model and SLC morning sounding

(34)

Overview of GRAW Radiosonde System

GRAW is a German company developing and manufacturing Upper Air Sounding Systems since 1938. GRAW’s customers are military, academic research and meteorological institutions worldwide.

(35)

Radiosonde System Components

• Radiosonde

• Groundstation (PC laptop connected receiver)

• GRAW software

• Accessories (unwinders, balloons, helium)

(36)

The DFM-06 is standard radiosonde for most applications. Due to its excellent characteristics and the reasonable costs, it is perfectly suited for synoptic observations or

military applications.

Very Low Weight (90g) Sensors

All sensors are Ready To Fly - completely factory calibrated, no additional ground calibration is necessary.

High-Power Lithium Battery GPS for Wind Finding Fast and Easy Initialization

Frequency Agile

Microprocessor Controlled

DFM-06 Radiosonde

(37)

Groundstation Equipment GS-H High Mobility Station

Main components

Lightweight Handheld 400 MHz receiver with integrated antenna

Standard notebook with soundcard port Meteorological software GRAWMET

(38)

The End

(39)

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