Tag: navigation

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Lisa Kercher, June 12, 2006

NOAA Teacher at Sea
Lisa Kercher
Onboard NOAA Ship Fairweather
June 11 – 24, 2006

Pulling away from the dock
Pulling away from the dock

Mission: Hydrographic and Fish Habitat Survey
Geographic Area: Alaska
Date: June 12, 2006

Science and Technology Log 

At approximately 16:00 today, we pushed off from the Deep Water Dock in Homer, AK The FAIRWEATHER plans to do some fisheries work in the waters surrounding the Homer area.  We will be testing equipment, and sampling the ocean floor in an attempt to learn more about the fish habitat.

I had plenty of time today to explore the ship, establish my email connection, and attend a safety meeting. Junior Officer ENS Allison Martin explained the history of the FAIRWEATHER to me. I was excited to learn that the FAIRWEATHER, while not being used for research work, was used during the clean up efforts of the Exxon Valdez Oil Spill in the late 1980’s.

Tug boat St. Augustine helps the Fairweather pull out
Tug boat St. Augustine helps the Fairweather pull out

The FAIRWEATHER was stationed in Valdez, AK for crewmembers to retreat to while working to control the results of the most devastating oil spill to the Alaskan coastal habitat. ENS Martin also showed me a project she had just finished working on that mapped a specific part of the Alaskan coastal waters. The work the FAIRWEATHER does is important to both the fisheries industry and the tourist industry, with the increase in cruise lines in Alaska. The FAIRWEATHER maps the uncharted territory so that both fishing vessels and cruise ships can safely maneuver through the water.  Some of the equipment used for these survey missions includes launch boats and cone penetrometer devices. These are all capable of surveying the ocean floor using sonar.

Two other launches like this one are stationed on the Fairweather
Two other launches like this one are stationed on the Fairweather
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Mary Cook, December 18, 2004

NOAA Teacher at Sea
Mary Cook
Onboard NOAA Ship Ronald H. Brown
December 5, 2004 – January 7, 2005

Mission: Climate Prediction for the Americas
Geographical Area: Chilean Coast
Date: December 18, 2004

Location: Latitude 22°16.32’S, Longitude 86°10.94’W
Time: 8:30 am

Weather Data from the Bridge
Air Temperature (Celsius) 19.46
Water Temperature (Celsius) 19.81
Relative Humidity (percent) 69.46
Air Pressure (millibars) 1016.99
Wind Direction (degrees) 123.54
Wind Speed (knots) 15.73
Wind Speed (meters/sec) 7.20
Sunrise 07:57
Sunset 21:27 (9:27 pm)

Question of the Day

What does a psychrometer measure?

Positive Quote of the Day

For where your treasure is, there will your heart be also. Jesus Christ

Science and Technology Log

Today Diane and I journeyed up to the bridge struggling against the strong winds and the lurching of the ship. We interviewed Ensign Silas Ayers and “Pirate” Jim Melton. Silas gave us instruction on ship safety and navigation. He said the two most important things in navigation are: don’t hit anything and don’t run aground. Silas showed us how they plot the ship’s course on a map/chart and all the navigational instrumentation. The RONALD H. BROWN has radar that ranges up to 96 miles but it is set for 24 miles at this time. The radar is used to detect other ships that might be in our path. He also showed us the autopilot computer and controls. They can set the coordinates and the ship will drive itself!!! Of course someone has to stay on the bridge at all times, because as everyone knows computers have glitches that could cause a malfunction. That could be a disaster. Something that I find fascinating is that this ship can hover in one place! It’s officially called dynamic auto positioning. They set all the thrusters at a specific setting and the ship stays in one place. He then explained the ship’s lights. The ship has a red light on the port side and a green light on the starboard side. These lights reveal our ship’s location to other ships and enable them to ascertain our heading by watching the movement of our lights.

There’s another series of light signals that communicate the ship’s condition. For example, when we hover to do a CTD cast, the ship displays a set of red/white/red lights that tell other ships we are unable to make quick maneuvers. There’s also a set of lights that means man overboard. Another cool thing on the bridge was the spinning window. Yep. I said spinning window. It wasn’t spinning today but it can spin. (I hope they weren’t pulling my leg.) The purpose of the spinning window is to reduce ice buildup on the glass.

“ Pirate” Jim Melton shared with us the lookout duties. He keeps a watch that scans the horizon constantly. Jim uses an alidade. An alidade is a telescopic instrument that has a special swiveling balance that can compensate when the ship rolls, pitches, or yaws.

I looked through the alidade and saw a line across my field of vision. Jim said that they use that line as a reference point and they can determine the size of the ocean swells. Everyone working on the bridge must also report the complete weather data to NOAA every hour.

Before we finished, I sat in the captain’s chair and scanned the horizon for whales and other ships at sea!

Late this afternoon, Diane and I continued working on the children’s book. Bruce Cowden, the illustrator, is producing artwork faster than we’re writing the story! So we’re feverishly trying to catch up. It’s fun writing with Diane. She has a bright mind and she has a genuine excitement for atmospheric and oceanic science.

Tonight at “6:00 Science on the Fantail”, we interviewed meteorologist Dan Wolfe of the Environmental Technologies Laboratory in Boulder, Colorado and Frank Bradley physicist/ meteorologist of Australia’s Commonwealth Scientific and Industrial Research Organization. They have been studying clouds, precipitation and humidity, as well as launching radiosondes (weather balloons) 4-6 times a day. Dan explained how the radiosondes work. The instrument package records temperature, pressure, and humidity as the helium-filled balloon ascends into the sky. The radiosondes have a GPS antenna that transmits its location and another transmitter that communicates the data being collected back to the computer in the lab. All of this information is compiled to help develop a “picture” of the atmosphere in this region which has never been thoroughly studied. This information can then be used in making models for more accurate weather prediction.

Frank Bradley shared with us his work which has been in collaboration with Dr. Bob Weller and Dr. Chris Fairall for the past 20 years. Frank showed us the somewhat “old fashioned” Assman psychrometer that he uses to take the wet bulb and dry bulb temperature readings several times a day. A psychrometer’s temperature readings can be used to determine relative humidity. Frank says that he uses this low-tech instrument because nothing can go wrong. This psychrometer’s readings are then used as a validation of the high tech instruments on board. Frank said that he has studied air-sea interaction, the interface of the ocean and the atmosphere, for many years and considers it a very important area for developing better models to predict the weather.

Personal Log

Wow! I really liked the bridge! It is cool. I don’t know why they wouldn’t let me drive the ship. I mean, come on, we’re out in the middle of the biggest ocean on Earth. What could I run into? And there’s no ground in sight. Actually, there’s nothing in sight. So I’d be satisfying the two most important rules of ship navigation and safety: don’t hit anything and don’t run aground. It seems though, that I remember something about needing a license to drive. I’m not sure.

While on the bridge, I saw that our planned course will take us right by the San Felix islands. It’ll be the first land I’ve seen since December 5! I wonder what that will feel like?

As we near the end of the cruise and it seems almost all the work is done, everyone is reading guidebooks about Valparaiso and planning some excursions. Even though I’m not ready to get off the ship, I am feeling a little excited about seeing a new place. I just love to go to new places and I’ve heard that Valparaiso is one of Chile’s most beautiful cities. Diane and I are deciding what to do during our two days there. One day we want to see the city and another day we want to drive toward the Andes Mountains and get glimpse of Aconcagua, the highest mountain in all of the Americas!

Yeah! Another adventure awaits!

Until tomorrow,

Mary

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Kevin McMahon, July 31, 2004

NOAA Teacher at Sea
Kevin McMahon
Onboard NOAA Ship Ronald H. Brown
July 26 – August 7, 2004

Mission: New England Air Quality Study (NEAQS)
Geographical Area: Northwest Atlantic Ocean
Date: July 31, 2004

Weather Data from the Bridge
Lat. 43 deg 38.20 N
Lon. 69 deg 57.97 W
Speed 8.9 kts
Barometer 1016.68 mb
Rel Humidity 97.27%
Temp. 18.16 C

Daily Log

0835 hours. The wind speed has increased and is now at about 16 kts which lend a slight roll the ship.

We came within a couple of miles of Fletcher Point, ME. Before turning around, at present we are heading in an easterly direction.

Helped to launch an ozonesonde at 1000. The winds had kicked up to about 20 kts out of the southwest which made it somewhat tricky. In all though it was a successful launch.

I learned later that the ozonesonde made it to an altitude of 39.9 kilometers, not the record but pretty close.

I’ve been up on the bridge. The views of the Maine coastline are spectacular.

Talking to some of the men and women who operate the ship I am amazed at the complexity of the vessel. Aside form the scientific aspect, the bridge alone seems to have more in common with a Boeing 747 than it does with a ship on the sea. Gone are the ships wheel and binnacle and the entire nautical flavor as described by Melville.

The RONALD H. BROWN is as modern a ship as you will find on the ocean.

She is 274 feet in length with a beam of 52.5 feet and a draft of 19 feet.

Its diesel engines do not drive the propellers directly, rather they produce electricity which intern powers electric motors that drive the ships twin aft thrusters and single bow thruster. The ship does not have rudders but is instead maneuvered by the thrusters which have the ability to rotate 360 degrees.

The ships wheel has been replaced by a joystick type apparatus which allows for minute movement in all direction. The GPS navigational system allows the ship to maintain a fixed course over an extended period of time or, hold a steady fixed position within one meter of a desired location.

Questions

How does a GPS system work?

Does the GPS system on the ship differ from the one we use for class fieldwork?

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Diane Stanitski: Day 9, August 19, 2002

NOAA Teacher at Sea

Diane Stanitski

Aboard NOAA Ship Ka’imimoana

August 16-30, 2002

Day 9: August 19, 2002

We enjoyed mostly cloudy skies today as we headed southeast toward the 125°W longitudinal line.

Our location and the weather observations at 1300 today were:
Latitude: 16°22.1’N
Longitude: 149°09.5’W
Visibility: 12 nautical miles (nm)
Wind direction: 050 (on a 0-360° scale) which means NE
Wind speed: 22 kts
Sea wave height: 6-8′
Swell wave height: 6-8′
Sea Water Temperature: 26.8°C
Sea level pressure: 1011.5 mb
Dry bulb temperature: 25°C
Wet bulb temperature: 23°C

Today’s quote: 
“How far high failure overleaps the bounds of low success.” – Lewis Morris

John Kermond and I sat down this morning after breakfast to sketch out the webcast that we hope to produce during the next two weeks. We discovered that we can probably create 10 live videos that will be sent to the general public, Shippensburg University, and possibly the BBC and a local television station near Shippensburg, PA. Be sure to look for these videos on the web site as I will interview our chief scientists and crewmembers, and will also teach my undergraduate and graduate classes from the ship.

Don Shea and Kirby Worthington, our NASA scientists on board, offered to provide an overview of their iron limitation study. It is felt that an iron deficiency in the mid-Pacific Ocean might be the limiting factor with regard to phytoplankton (e.g., algae) development. Iron in the water tends to absorb carbon, which in turn provides what is necessary for plant growth. The Atlantic Ocean doesn’t seem to experience this same situation as iron found in conjunction with sand blowing west off the African continent, seems to provide the ocean with an ample amount of iron. This study tests the effect of iron, nitrates, phosphates, and ammonium against a controlled sample collected from the Pacific Ocean water. They use a Fast Repetition Rate flourometer to measure the flourescence of each water sample. Surface seawater is drawn from the ship’s continuous flow through system of clean seawater. As I learn more about the study I’ll provide an update.

I discovered that the KA’s call signal is WTEU (Whiskey, Tango, Echo, Uniform) and it is displayed when going into each port. Every ship has its own signal that it reveals via flags exposed on the ship. There are other single letter signals exhibited when there is an emergency or used as a warning sign. Some of these include the (A)lpha flag meaning diver down, the (B)ravo flag representing dangerous cargo, and the (H)otel signal showing that there is a pilot on board.

I also learned to use The Nautical Almanac for 2002 to calculate sunrise tomorrow morning based on how far we will travel overnight and the latitude and longitude of our final destination. Since the boat is moving, it becomes more challenging to calculate solar angle and sunrise. I am planning to meet Rachel Martin on the bridge at 6:00 AM tomorrow morning to learn more about celestial navigation, provided the clouds have cleared and stars are visible. We need to remember to move our clocks forward by one hour since we’re moving into a new time zone as we travel toward 125°W longitude.

Steve Kroening, the FOO (Field Operations Officer), showed us a PowerPoint slide show presentation featuring the Ka’imimoana and crew along with many of the scientific experiments conducted on board. It was very uplifting because everyone obviously works efficiently together. I was amazed at the sheer number of people who have been involved in the research.

I discussed lesson plans related to El Niño with Paul Freitag, Chief Scientist. He will access some current data that my students at Shippensburg University can use for a lab. Another great day on board! More travel news tomorrow!

All the best to you all!
Diane