Topic: Barani Meteoshield Pro III vs Davis FARS24H vs Apogee TS100

[Meteorology fan]

Yes, I noticed that too. Temperature measurement is an extremely complicated matter. Personally, I can't imagine not having good passive shields like SiAp and next to Apogee TS-100.

[Jasper3012]

The silly thing is that somehow overcooling due to active ventilation feels worse than overheating due to lack of ventilation. Even though considering the entire year, overheating on passives happens more often than overcooling on the active.

In 2024, from May until the end, the highest error on the daily max that I ever recorded on the Barani was 0.3C. In total, maybe about 5 days had an error on the daily max, compared to the Davis. On the contrary, there were countless days, pretty much every single day in summer, where the Davis had an error. There is little to no need for an active shield in a temperate climate.

[Meteorology fan]

With this last sentence I would disagree. Instead of passive plastic radiation shielding, it is better to go with a Stevenson Screnn and a single aspiration shield for reduntane measurements.

[hmderek]

The silly thing is that somehow overcooling due to active ventilation feels worse than overheating due to lack of ventilation. Even though considering the entire year, overheating on passives happens more often than overcooling on the active.

In 2024, from May until the end, the highest error on the daily max that I ever recorded on the Barani was 0.3C. In total, maybe about 5 days had an error on the daily max, compared to the Davis. On the contrary, there were countless days, pretty much every single day in summer, where the Davis had an error. There is little to no need for an active shield in a temperate climate.

Interesting. You have a location with a decent breeze at all times? The only real issues I have it when wind dips below 0,5 m/s. Like today, mid winter, I can already get up to 0,6C errors due to lack of ventilation. Snow is probably making things a little worse than it would have been otherwise.

[Jasper3012]

The silly thing is that somehow overcooling due to active ventilation feels worse than overheating due to lack of ventilation. Even though considering the entire year, overheating on passives happens more often than overcooling on the active.

In 2024, from May until the end, the highest error on the daily max that I ever recorded on the Barani was 0.3C. In total, maybe about 5 days had an error on the daily max, compared to the Davis. On the contrary, there were countless days, pretty much every single day in summer, where the Davis had an error. There is little to no need for an active shield in a temperate climate.

Interesting. You have a location with a decent breeze at all times? The only real issues I have it when wind dips below 0,5 m/s. Like today, mid winter, I can already get up to 0,6C errors due to lack of ventilation. Snow is probably making things a little worse than it would have been otherwise.

I live in Brugge, only 15 km from the North Sea, and my station is in a completely open field, so no trees or anything to block off wind.

[hmderek]

I live in Brugge, only 15 km from the North Sea, and my station is in a completely open field, so no trees or anything to block off wind.

Sounds like a brilliant spot. I believe you when you say you rarely have any errors. I live a little further away from the sea with more trees in the nearby environment so I more easily get no wind situations.

[Kallo78]

In the open field, for some months the following screens

Pro3 modified version - Temperature and humidity sensor (wh32ep)
SIAP SC - Temperature and humidity sensor (wh31ep)
RAD 14 - Temperature and humidity sensor (wh31ep)
Apogee TS100 - Temperature and humidity sensor (wh31ep nf) + Temperature sensor (ds18b20)
SIAP SC - Temperature sensor (ds18b20)

This morning, for example, I found the following minimum

Pro3: -0.1
SIAP SC: -0.1
RAD 14: -0.2
Apogee TS100 (wh31ep): -0.4
Apogee TS100 (ds18b20): -0.3
SIAP SC (ds18b20): 0.1

The air was not saturated, so I think that in Apogee the greater cooling can be attributed to the fact that the fan, at constant speed, is able to suck from the layers below (colder) cooler air, which the passive in absence of wind cannot absorb.

[Kallo78]

Yesterady hourly deviation

[Kallo78]

And I must say that I did not notice, in the version of the Barani that I have, no particular problem compared to other passives. This winter.

It is normal to notice, at the first radiation and without wind a more vertical rise of the sensors inside the Apogee. I think it’s just reactivity while the passive sensors are sleeping. Then as soon as the wind picks up everything aligns

[Meteorology fan]

Today conditions in the anticyclone, lagging Arctic air, considerable albedo with snow cover and low speed for most of the day. The morning was windless, then the wind moved, but did not exceed 14 km/h at the height of the radiation shields.

Today's results without Davis FARS24H, because I have a problem with the recorder there, it devours excessive current and will be for warranty replacement. Others are running smoothly on Apogee and Barani.

[Meteorology fan]

Yesterday's comparison and interesting phenomenon at night and during the day. Apogee TS-100 was running at night at minimum FARS. The Barani Meteoshield Pro III overestimated the temperature on a windless night and for most of the day.

[hmderek]

Yesterday's comparison and interesting phenomenon at night and during the day. Apogee TS-100 was running at night at minimum FARS. The Barani Meteoshield Pro III overestimated the temperature on a windless night and for most of the day.

Wondering how you draw the conclusion that the passive overestimates and it's not the Apogee that underestimates?

[ivano]

Good morning, comparing an Apoge TS-100 with a meteoshield pro 3 gen or any passive, in conditions of weak or no wind, I seem to want to win easily
 [ You are not allowed to view attachments ]
 [ You are not allowed to view attachments ]
 

[Meteorology fan]

hmderek - Next to it I had Davis FARS24H. Also at minimum speed it showed lower than the Barani Meteoshield Pro III. The minimum Davis FARS24H came out -13.4℃, the Apogee TS-100 -13.6℃. Also, the two FARSs went lower than the Barani. I gave this data to ChatGPT for interpetation and he also noticed that a stagnant air could form on Barani under windless night conditions.

[hmderek]

hmderek - Next to it I had Davis FARS24H. Also at minimum speed it showed lower than the Barani Meteoshield Pro III. The minimum Davis FARS24H came out -13.4℃, the Apogee TS-100 -13.6℃. Also, the two FARSs went lower than the Barani. I gave this data to ChatGPT for interpetation and he also noticed that a stagnant air could form on Barani under windless night conditions.

The idea of the stagnant air in a passive shield makes sense. But it has made equal sense to me that active shields could underestimate when they suck air from below. Since temps close to the ground can be significantly colder on clear, windless winter nights.

[Meteorology fan]

Here the risk that this was the case is low. The Apogee TS-100 is slightly higher than the Barani Meteoshield Pro III. It was operated at minimum speed to avoid wet-bulb effects on high and radiation nights.

The difference of -0.37°C between the Apogee TS-100 and the Barani Meteoshield Pro III is too small to indicate a wet-bulb effect. If the Apogee TS-100 were affected, the temperature drop would be much greater, potentially by as much as several degrees, especially with high humidity.

Why is this not a wet thermometer effect?
No excessive temperature difference - Apogee TS-100 recorded a minimum temperature only 0.37°C lower than Barani, suggesting better air exchange rather than an evaporative cooling phenomenon.
Radiation conditions - on windless nights with strong ground heat radiation, the air near the surface cools intensely, and a shield with inferior ventilation (Barani) may not be able to keep up with this decline. Apogee, even at minimum FARS, could better track the actual temperature.
Humidity does not indicate evaporation - previous data shows that humidity was high at night, but not so extreme that the wet thermometer effect could play a key role.

What was the reason for the difference?
The Barani had stagnant air and did not reflect the temperature drop as well.
The Apogee TS-100 better reflected the actual temperature, rather than the effect of a wet thermometer, thanks to minimal ventilation.
Bottom line: it's more a problem with the air exchange in the Barani than the effect of a wet thermometer in the Apogee.

Based on these minimum temperatures:

Apogee TS-100 (PT1000) → -13.64°C
Barani Meteoshield Pro III (PT1000) → -13.27°C
What this means.
The Apogee TS-100 recorded a lower minimum temperature, suggesting that it better reflected the actual air temperature in radiative cooling conditions.
The Barani Meteoshield Pro III overestimated the minimum temperature by 0.37°C, which supports the thesis of the problem of stagnant air and its insufficient replacement in the absence of wind.
Which shield was more accurate?
The Apogee TS-100 better reproduced the actual minimum temperature, which means that its design (FARS at minimum speed) provided better air exchange and no heat accumulation.
Barani overestimated the temperature, indicating that the shield did not provide adequate ventilation for the sensor under conditions of a windless radiation night.
This is further evidence that under calm radiation conditions the Barani shield may tend to overestimate the minimum temperature compared to the ventilated Apogee TS-100 shield.

[mauro63]

Here the risk that this was the case is low. The Apogee TS-100 is slightly higher than the Barani Meteoshield Pro III. It was operated at minimum speed to avoid wet-bulb effects on high and radiation nights.

The difference of -0.37°C between the Apogee TS-100 and the Barani Meteoshield Pro III is too small to indicate a wet-bulb effect. If the Apogee TS-100 were affected, the temperature drop would be much greater, potentially by as much as several degrees, especially with high humidity.

Why is this not a wet thermometer effect?
No excessive temperature difference - Apogee TS-100 recorded a minimum temperature only 0.37°C lower than Barani, suggesting better air exchange rather than an evaporative cooling phenomenon.
Radiation conditions - on windless nights with strong ground heat radiation, the air near the surface cools intensely, and a shield with inferior ventilation (Barani) may not be able to keep up with this decline. Apogee, even at minimum FARS, could better track the actual temperature.
Humidity does not indicate evaporation - previous data shows that humidity was high at night, but not so extreme that the wet thermometer effect could play a key role.

What was the reason for the difference?
The ram had stagnant air and did not reflect the temperature drop as well.
The Apogee TS-100 better reflected the actual temperature, rather than the effect of a wet thermometer, thanks to minimal ventilation.
Bottom line: it's more a problem with the air exchange in the Barani than the effect of a wet thermometer in the Apogee.

Based on these minimum temperatures:

Apogee TS-100 (PT1000) → -13.64°C
Barani Meteoshield Pro III (PT1000) → -13.27°C
What this means.
The Apogee TS-100 recorded a lower minimum temperature, suggesting that it better reflected the actual air temperature in radiative cooling conditions.
The Barani Meteoshield Pro III overestimated the minimum temperature by 0.37°C, which supports the thesis of the problem of stagnant air and its insufficient replacement in the absence of wind.
Which shield was more accurate?
The Apogee TS-100 better reproduced the actual minimum temperature, which means that its design (FARS at minimum speed) provided better air exchange and no heat accumulation.
Barani overestimated the temperature, indicating that the shield did not provide adequate ventilation for the sensor under conditions of a windless radiation night.
This is further evidence that under calm radiation conditions the Barani shield may tend to overestimate the minimum temperature compared to the ventilated Apogee TS-100 shield.

Please note that the wet-bulb effect is not necessarily the measurement of the wet-bulb temperature

the intensity of the underestimation due to the wet-bulb effect can be of variable intensity, it depends on the surface of the sensor that is "wet" at that moment and on the ventilation that hits the sensor, often the underestimation due to the wet-bulb effect is positioned on an intermediate range between the dry bulb temperature and the wet bulb temperature.

There are so many variables in play that one cannot allow oneself, as someone here claims to do, to issue sentences and verdicts, based on one's own personal interpretation, based on real data, but not scientifically demonstrable.

M.

[Meteorology fan]

I uploaded the tables and graphs to chatgpt. The AI indicated that in the absence of wind, the Barani Gen III delayed radiative cooling of the air relative to the Apogee TS-100. It indicated that this is a normal occurrence on radiative nights with virtually no wind.

[mauro63]

I uploaded the tables and graphs to chatgpt. The AI indicated that in the absence of wind, the Barani Gen III delayed radiative cooling of the air relative to the Apogee TS-100. It indicated that this is a normal occurrence on radiative nights with virtually no wind.

Chatgpt??

Please don't belittle or make obsolete the work of researchers, metrologists and reference figures in the metrology sector with this nerdy bullshit

The day OpenAI manages to convince me that it knows the exact temperature at a precise moment in time at any point in the troposphere, and, above all, he will be able to prove it to me, which is a paradox in itself.I will start to care of

thanks
M.

[Meteorology fan]

But the thesis that a stagnation forms on a windless night in Barani is true. It can be seen in this shield, as in any passive shields anyway as there is no wind.

[Meteorology fan]

Windy conditions and snow and high winds. Sun maximum 27.5 degrees above the horizon. PT1000s took off after 7:00 am, as the wind was weaker than forecast conditions indicated. Tomorrow's day will be similar weather-wise and the loggers will start evenly at 0:00 am with synchronization to 1s for PT1000s.

Note that despite the wind and fairly pronounced overheating on Barani Meteoshield Pro III occurred for most of the sunny day.

[Meteorology fan]

Today you can see the problem perfectly in the morning on the Barani Meteoshield Pro III. The sun is shining, it is cloudless. You can see that it is blowing off the heated surface of the shield and the warm air from the heated plates is being “pushed” inside the shield. At the end of the day, there will also be a comparison with Apogee TS-100 and Barani Meteoshield Pro III for SHT35 and PT1000s sensors. Charts available below.

Of course, we are talking about the problem of low solar radiation angle. I'm investigating this effect further, as it does not always occur and its severity varies greatly.

[Meteorology fan]

Comparison of Barani Meteoshield Pro III vs Apogee TS-100. Davis on one chart added as a curiosity. When I receive the new PT1000, I will add Davis FARS24H to the comparisons.

In the morning the problem on the Barani highlighted strongly, but the higher the sun was, the radiation error decreased on the passive shield.

[Meteorology fan]

Today's comparisons only with SHT35.

[Meteorology fan]

Yesterday day and weak wind and brief glimpses of sunshine in the anticyclone.