The Radiative Cooling and Triangle of temperature

The triangle of the temperature in Mt. Tsukuba

In University of Tsukuba, temperature, atmospheric pressure, a wind direction, wind velocity, etc. are observed every 10 minutes.

It is characteristic to also observe a surface temperature and a temperature 1cm below ground.

Since data was also five years, it carried out the statistical work.

As a result, the surface temperature was consistent with wet-bulb temperature.

　

1. Observation Position and Data.

Paige with data

http://mtsukuba.suiri.tsukuba.ac.jp/sub6.html observation position

140.098 degrees east, 36.225 degrees north, altitude 868 m

2. Air, Surface, and Underground

Probably, you know that it is thermal insulation about soil and air.

I think as follows.

The surface is heated by sunlight.

The surface heats air and underground.

Air is warmed by a convection.

Underground is heated by heat conduction.

3. Frequency distribution of temperature of air, the surface, and underground.

3-1.　The Frequency distribution of the air temperature

The following graph is the frequency distribution of the air temperature at 1.5m extracted above ground.

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Data were in 1996 to 2000 and the number of data was 262780.

The maximum temperature of data is 30.4 ℃.

The lowest temperature of data is -10.6 ℃.

The next figure is the frequency distribution in January, March, and November.

A vertical axis is the number of times of observation, and a horizontal axis is temperature.

The triangle was made with the sharp peak in January.

A peak is somewhat lower than 0 ℃.

The following graph is in April, June, and August.

Each made the triangle.

Especially, it had the strongest peak in August.

Japan is needed under rule of a Pacific huge high pressure in August.

Average temperature will fall bordering on August.

Why is the sharp peak in January and August made? A reason is not known although it is an interesting fact.

The difference between January and August may be because of the wind.

January the wind is blowing and easy.

3-2. Frequency distribution of surface temperature.

The next is the frequency distribution of surface temperature.

The number of data is 262780.

The highest temperature of data is 42.6 ℃.

The minimum temperature of data is -15.1 ℃.

The next is the frequency distribution in January, March, and November.

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The temperature of a peak is lower than air about 2 ℃.

The triangle was made also even in March and November.

Next, it is in April, June, and August.

It has a sharp peak in August.

What is the cause of a peak?

3-3.Frequency distribution of Underground temperature

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  The number of data is 262780

The maximum of frequency is 8058 at 0.1℃

The highest temperature of data is 36.8℃.

The minimum temperature of data is -6.1℃.

An unusual peak is in about 0℃.

I can think that 5 to 25 ℃ has appeared in equal probability.

The number of times of an appearance of -0.5 to 0.5 was 36640.

It was 14% of the whole.

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Now, the surface is heated with sunlight.

The warmed surface heats underground.

Even if 0 ℃ of underground ice is warmed, it becomes a 0 ℃ liquid more often.

Moreover, even if a 0 ℃ liquid is cooled, it becomes a 0 ℃ solid more often.

I think the underground temperature is affected by water.

Next, it is in January, March, and November.

A peak is in about 0 ℃ in January and March.

However, the peak in November is not clear.

I think that ice has not been made yet in November.

I think that ice has not melted yet in March.

January of the frequency of －0.5℃ to 0.5℃ is 14600 (67%).

The frequency in February is 13780 (68%).

It was about 1500 times that 0 ℃ or less became in December.

The following graph is in April, June, and August.

4. Surface temperature and air temperature In August.

In area A, the temperature of the surface and air is the same.

In area B, the surface temperature is high.

In area C , the surface temperature is low.

Let's check a daily variation.

The surface temperature falls from 12:00 noon.

The underground temperature falls, after becoming the same as the surface.

It falls, after the temperature of air also becomes the same as the surface.

The surface and underground are exchanging energies by heat conduction.

I think that the surface is heating and cooling underground.

The temperature of air is warmed by a convection.

The surface cannot cool air except for nearby air.

I think that something is cooling air and the surface.

Please see the following graph.

The surface temperature is in agreement with the wet-bulb temperature of air.

5. Aube at Mt. Kumotori

It is Aube which carried out flash photography at Mt.Kumotori.

Aube is attached on stones.

Aube attached on stones is not visible.

The next photograph lengthen exposure time and photographed it.

I It was a bright night by the moon.

I think that Aube is rainfall phenomena.

 The roof has got wet.

If it often sees, Aube is also falling down.

If Aube is water, the temperature will turn into wet-bulb temperature.

And the temperature of a roof also turns into wet-bulb temperature.

If it is fine weather and dry, the temperature of the roof is lowered.

The Radiative Cooling phenomenon is an error.

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Please look for the next page, if you need wet-bulb temperature by Excel.

Wether Function Excel VBA

http://takanosunonobo.blogspot.jp/p/the-weather-function-by-excel_1.html