Tag: Boston

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Kirk Beckendorf, July 17, 2004

NOAA Teacher at Sea
Kirk Beckendorf
Onboard NOAA Ship Ronald H. Brown
July 4 – 23, 2004

Mission: New England Air Quality Study (NEAQS)
Geographical Area: Northwest Atlantic Ocean
Date: July 17, 2004

Weather Data from the Bridge
Time 6:20 PM ET
Latitude- 43 20.33 N
Longitude- 68 18.92 W
Air Temperature 17 degrees C
Water Temperature 14 degrees C
Air Pressure 1009 Millibars
Wind Direction at surface Southwest
Wind Speed at surface 7 MPH
Cloud cover and type Clear

Daily Log

How is it possible to tell if we are in pollution when we can’t even see it?

This morning I went through the normal routine of helping launch the ozonesonde at 10:00. Because it was a sunny day Drew Hamilton could make Sunop measurements throughout the afternoon so I helped with that. We specifically timed the Sunops so that we were taking measurements at the same times that three satellites were crossing overhead. The satellites were taking similar measurements looking down, while we were taking them looking up. Later, our measurements will be compared with those of the satellites.

In general, air pollution is a combination of particles and gases. I have discussed the particles in previous logs, but not much about the gases. A large number of the scientists involved in NEAQS-ITCT are studying these gases. I have spent a large amount of time talking with Eric Williams, Brian Lerner, Sallie Whitlow, Paul Goldan, Bill Kuster, Hans Osthoff and Paul Murphy. They have instruments on board which measure many of the different gases related to air pollution. But not all air pollution is the same.

The cause of the pollution determines what gases and particles are in the pollution. Gasoline powered automobiles release one combination of gas and particles. Diesel engines produce another combination. Coal burning power plants release yet a different combination. Natural gas power plants release (Yep, you guessed it) yet a different combination. In a city these get mixed together, so individual cities have there own unique pollution depending on the number of automobiles, power plants and factories. To make things more complicated, once these chemicals are released into the atmosphere and start mixing together, in the presence of sunlight they react with one another making additional gases and destroying others. What eventually happens to these pollutants and where they go, are two of the questions these scientists are seeking to answer. But answering these questions is very difficult, in part because things get extremely complicated very quickly. As Paul Goldan told me, part of the reason we need to make so many different kinds of measurements is because we are not even sure exactly what we are looking for.

Today as we criss-crossed back and forth through two plumes of pollution Eric showed me some of today’s data. As always, his instruments were measuring and recording some of the gases in the air. The quantities and kinds of gases changed as we went back and forth, helping to map where the pollution was located and how it has changed. Nothing looked different outside, but from the measurements he was taking he could tell that one of the plumes was younger than the other.

During the nightly meeting, Paul Goldan and Tim Bates presented completely different kinds of measurements that agreed with what Eric’s data showed. This comparing of daily observations will help confirm the accuracy of the observations and what they actually mean.

Questions of the Day

Where is the electricity in your house produced?

What kind of fuel is used to make your electricity?

What kind of fuel is burnt to make your automobiles run?

Who should be responsible for the pollution produced to make the electricity you use?

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Kirk Beckendorf, July 15, 2004

NOAA Teacher at Sea
Kirk Beckendorf
Onboard NOAA Ship Ronald H. Brown
July 4 – 23, 2004

Mission: New England Air Quality Study (NEAQS)
Geographical Area: Northwest Atlantic Ocean
Date: July 15, 2004

Weather Data from the Bridge
Time 8:00 AM ET
Latitude- 45 53.18 N
Longitude- 70 36.48 W
Air Temperature 14 degrees C
Air Pressure 1000 Millibars
Wind Direction at surface Northeast
Wind Speed at surface 3 MPH

Daily Log

Yeah!!! The sun is trying to come out, the rains have stopped and the sea has calmed down. No I didn’t get sea sick, but it is hard to sleep when your bed is swaying back and forth and up and down. The winds have shifted and the scientists are hoping that the winds may be blowing some pollution our way. Seems like a strange thing to hope for, but of course they are here to study pollution and the wind has been blowing it away from us.

Why should anybody care if we add microscopic particles to the air?

Yesterday, I discussed one of the techniques used to study the microscopic particles that are in the atmosphere. But so what, why does anyone care about these tiny specks? Air pollution made by automobiles, power plants, factories and ships all contain both gases and particles. To be able to predict the changes resulting from air pollution, we have to learn all we can about the gases and the particles being released.

When the pollution is released into the atmosphere, the gases and particles start traveling with the air. (Just like pouring a quart of motor oil into a river.) Gradually the gases and particles spread out into the surrounding atmosphere. The gases can recombine and may start changing into other chemicals, but that’s another story I will get to soon.

The particles are not all the same. They come in different sizes and are made of a variety of chemicals. There are two main concerns about these little chunks floating along in the sea of gas; health hazards and climate change. If you take a breath, not only do you inhale the gas, but also all of the particles floating in the gas. Some of these particles may have a negative effect on a person’s health.

The main interest in the particles here on the BROWN is the effect they have on climate change. The Earth is of course warmed by the energy (light) coming from the sun. The more energy (light) the Earth gets and keeps, the warmer our temperatures. The less energy (light) the Earth gets and keeps, the cooler the temperatures. Pretty simple stuff? Not at all.

When sunlight shines down through the atmosphere and hits a particle the sunlight can either bounce off of the particle or be absorbed into the particle. If the light bounces back out of the atmosphere the Earth does not keep the light’s energy and there is a cooling effect. When light is absorbed into the particle, the energy (heat) will now be in the atmosphere and so there is a heating effect. Some particles absorb more light than others, so some have a cooling effect on the Earth’s atmosphere and others have a heating effect. One of the questions being asked is, overall do the particles cool the atmosphere or heat the atmosphere? This is not as simple of a question as it sounds, because there are also a lot of indirect effects that are not yet understood.

These microscopic chunks also affect clouds and cloud formation, but how much of an effect is not completely understood. The particles may cause clouds to be less likely to rain or at least, not rain as often. These microscopic particles in air pollution could have an effect on where and when it rains. So the scientists, here on the BROWN, are gathering data to help them try and understand the impact that particles will play in changing the Earth’s climate. Part of their task, is to determine where the particles are from, the numbers, sizes, and chemistry of the particles.

If I lost you in all of that, maybe it will help to put it all in a nutshell. These scientists are studying the type and number of particles in air pollution, to try and understand what effect these little chunks may be having on the Earth’s temperature and water cycle.

As Tim Bates said, we are trying to put together a large jigsaw puzzle and we don’t know what picture is on the puzzle. First we have to find all of the pieces. Then we have to put together the puzzle. We are now at the point that we think we have found most of the pieces and now we are trying to put them together. As you can see from the picture I sent in today there is some relaxation time, in the middle of all the data analysis.

Questions of the Day

The smaller particles are measured in nanometers how much of a meter is 1 nanometer?

If the wind is blowing 5 meters/second and we are 50 miles from Boston how long will it take Boston’s pollution to reach us?

Typical unpolluted air will have about 1000 particles in every cubic centimeter of air. What is something that has a volume of about 1 cubic centimeter?

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Kirk Beckendorf, July 13, 2004

NOAA Teacher at Sea
Kirk Beckendorf
Onboard NOAA Ship Ronald H. Brown
July 4 – 23, 2004

Mission: New England Air Quality Study (NEAQS)
Geographical Area: Northwest Atlantic Ocean
Date: July 13, 2004

Weather Data from the Bridge
Time 11:30 AM ET
Latitude- 42 56.92 N
Longitude- 70 36.22 W
Air Temperature 17 degrees C
Wind Direction at surface East
Wind Speed at surface 20 MPH
Cloud cover and type Cloudy- Stratus
Air Pressure
11:30 AM 1014 Millibars
7:15 PM 1009 MB
10:15 PM 1008 MB

Daily Log

Look at what the air pressure has done today. What do you think our weather is like now at 11:00 PM (past my bedtime)?

Keep in mind that we are sitting out in the ocean in a ship, sometimes you can see land, other times you can’t. Rarely can we see any buildings much less a city. How are we supposed to know where to go to find some pollution? Especially if we are looking for particles that are too small to see and gasses that are colorless. Not to mention there may be less than 1 part per billion of that gas mixed in with the air. That is where Wayne Angevine and Jim Koermer come in. They are two meteorologists who are on shore. Twice a day they send us weather forecasts. Wayne works for NOAA and Jim is a professor at Plymouth State University in New Hampshire. (Check out Jim’s website at vortex.plymouth.edu)

Based on their forecast, Wayne also sends recommendations for where we should go to find pollution. Today they are predicting that winds will be from the southeast and east through at least tomorrow. We know that pollution comes from automobiles, power plants, ships and factories. Although some of the chemicals involved in air pollution do also come from trees and other plants. Pollution of course blows with the wind so we want to be down wind of the pollution sources. If you look at a map to see where we are located the only thing east of us for a very long way is water, so easterly winds bring us clean air. There aren’t any cities or automobiles floating out here on the ocean, but there are ships. Wayne’s recommendation today was for us to move to Mass. Bay to get down wind of the shipping lanes and sample ship exhaust as they come by. That is what we have been doing most of the day.

Wayne says that possibly tomorrow afternoon the winds will shift and come from the southwest. If that happens Boston’s pollution will be flowing out over the water again and if that happens he suggest we sample it as we did yesterday, which was to zigzag back and forth across the plume coming from Boston. We couldn’t actually see it but we know where Boston is, we knew which way the wind was blowing and many of the instruments are measuring and recording what is in the air in real time. The captain also has charts that show how deep the water is so we didn’t run aground as we got close to shore.

It has been very interesting switching rolls from my normal job of being the teacher to the roll I am in on the ship which is, being the student. This past year after a particularly hard lesson one of my students said my brain hurts; now I know how he felt. This afternoon I went down to the ship’s gym to try and digest all that I have been learning the past two weeks, by working out physically rather than mentally. Plus I had to work off some of the great food the stewards feed us here on the Brown.

With the drop in air pressure the winds have picked up, it has started raining lightly and the ship is rocking and rolling. Nothing extreme, but it should rock everyone to sleep tonight.

We had another abandon ship drill today.

This afternoon we saw a pirate ship. Well ok it really wasn’t a pirate ship but it kind of looks like one, with its sails down and floating in the mist. It is actually a Mexican Navy training ship.

Questions of the Day

Today we had a low pressure system, what kind of weather can we expect if we have a high pressure system?

What activities do you that would create air pollution?

From which way is the wind blowing today, where you live?

What is up wind of you? What is downwind of you?

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Kirk Beckendorf, July 11, 2004

NOAA Teacher at Sea
Kirk Beckendorf
Onboard NOAA Ship Ronald H. Brown
July 4 – 23, 2004

Mission: New England Air Quality Study (NEAQS)
Geographical Area: Northwest Atlantic Ocean
Date: July 11, 2004

Weather Data from the Bridge
Time 8:00 PM ET
Latitude- 42 37.71 N
Longitude- 70 22.9 W
Air Temperature 17 C
Air Pressure 1018 Millibars
Wind Direction at surface Southeast
Cloud cover Partly cloudy

Daily Log

What famous event happen at Boston harbor?

It was a very eventful day today. The computer program that manages the wind profiler showed that there was a problem because one entire section was being shown in red instead of green. Dan Law asked if I would help him find out what was wrong. I jumped at the opportunity knowing that he really needed my expertise. I was very good at holding the wrench for him. As I was taking pictures of him and the inside of the profiler we were sailing into Boston Harbor. As we came into town our decks looked like those of a cruise ship. Most of the scientists were out on deck taking pictures and enjoying the view. Now everyone is back inside of their lab facilities which are mostly big shipping crates.

We spent most of the day in Boston Harbor near the end of Boston Logan Airport sampling the air in Boston. It was a beautiful weekend day and there were hundreds of sail and motorboats all around us. I didn’t see any tea floating in the water though. While soaking up the sun and enjoying the view of the harbor I helped Drew Hamilton, from NOAA’s Pacific Marine Environmental Lab in Seattle, Washington take some measurements with an instrument call a sunphotometer which measures the total amount of particles in the column of air above the instrument.

In the afternoon we left Boston and specifically to follow a cruise ship. Its exhaust was visible in the air and we criss-crossed back and forth across the plume to see what chemicals were being released by the ship. After we left the cruise ship’s exhaust plume our ship stopped so that we could do the daily launch of the ozonesonde. A little while before sunset one of NOAA’s WP-3 airplanes circled us several times. It is also sampling and measuring the chemicals in the air as part of NEAQS. Comparisons can then be made of the plane’s measurements with those made here on the ship.

The weather report is for winds to be blowing from the southwest through tomorrow so the plan is for us to travel tonight to the northwest so that we will be in the pollution blowing from Boston.

Questions of the Day

What does NEAQS-ITCT stand for?

What will our bearing be tonight if we are going northwest?

How many kinds of planes are being used in NEAQS-ITCT?

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Kirk Beckendorf, July 5, 2004

NOAA Teacher at Sea
Kirk Beckendorf
Onboard NOAA Ship Ronald H. Brown
July 4 – 23, 2004

Mission: New England Air Quality Study (NEAQS)
Geographical Area: Northwest Atlantic Ocean
Date: July 5, 2004

Personal Log

I woke this morning in my bunk, which is a good thing since it is a long way to the floor from my top bunk. It may be a long way to the floor but it is not very far to the ceiling. I cannot sit up in bed without hitting the ceiling.

I talked to Wayne, one of the engineers on the BROWN, who helps keep the ship’s engines running. He and some of the crew needed to work on one of the small boats kept on the ship for excursions off the BROWN. It had to be lowered down to the water from about two stories high where it is kept secured in place. Wayne has had his job with NOAA on the BROWN for about 2 years. Before that he was a guide on fishing and scuba boats in Florida and the Cayman Islands. He loves working on the BROWN since he gets to travel all over the world. One of his favorite places to visit is Brazil because the people are so friendly.

Tim, the chief scientist, called a science meeting at 10:00 this morning. The meeting was to answer any final questions before we leave port this afternoon. He also wanted to make sure everyone has settled into their staterooms and have what they needed. Someone asked him where they could get soap. He explained where we could find soap, toilet paper and other similar items. One of the scientist mentioned that if we used toilet paper we wouldn’t need so much soap.

During the day I visited with Graham Feingold. He will be one of the many scientists working on shore throughout the project, he hopes to be analyzing data on aerosols and clouds. Aerosols are very fine particles that are suspended in the atmosphere. They have major effects on climate change. Graham hopes to learn more about the effect the aerosols have on clouds and water droplets. Water droplets can form around these particles. If there are more of the particles for moisture to attach to, fewer but smaller drops may form. Since the drops may not get very large they may not be heavy enough to fall out of the cloud. What effect that will have on precipitation patterns and climate is unknown?

The warm sunny days left today. This morning began with cloudy skies which have persisted throughout the day. We were scheduled to depart Portsmouth at 4:00 PM but were delayed because of a large ship which came into port. There was not room in the channel or under the bridge for both of us. Even though there was a cold drizzle when we left the dock, everyone was still out on the decks watching as we pulled away. The bridge was raised so that we could get underneath and the BROWN headed out the river channel into a misty gray sea. Once away from land we turned south down the coast towards Boston.

The plan is to stop just north of the shipping lane, the “two lane highway” large ships must use to enter Boston Harbor. The forecast is for the winds to be blowing relatively clean air towards us from the shipping lane. As the wind blows the passing ship’s exhaust across the BROWN, our instruments will measure the specific chemicals in the pollution. By comparing the polluted air to the clean air, the instruments on board can be used to determine the chemical makeup of each ship’s pollution. It is critical that the bow of our ship is pointed into the wind, otherwise the BROWN’s exhaust would blow into the scientists’ instruments.