¿Qué es el punto de rocío y cómo medirlo?

La relación entre el punto de rocío y la presión
Manufactura Industrial y Procesos
Mediciones industriales

¿Qué es el punto de rocío?
El punto de rocío es la temperatura a la cual se debe enfriar el aire para que el vapor de agua se condense en rocío o escarcha. A cualquier temperatura hay una cantidad máxima de vapor de agua que puede contener el aire. Esta cantidad máxima se llama presión de saturación de vapor de agua. La adición de más vapor de agua produce condensación.

¿Por qué la humedad es problemática?
La condensación en el aire presurizado es problemática porque causa bloqueos en las tuberías, averías en la maquinaria, contaminación y congelamiento.

¿Qué efecto tiene la presión sobre el punto de rocío?
La compresión del aire aumenta la presión del vapor de agua y, por lo tanto, el punto de rocío. Es importante tener esto en cuenta si purga el aire a la atmósfera antes de realizar una medición. El punto de rocío en el punto de medición será diferente del punto de rocío en el proceso.

¿Cuál es el rango típico del punto de rocío?
Las temperaturas del punto de rocío en el aire comprimido varían desde la temperatura ambiente incluso hasta -80 °C (-112 °F) en casos especiales. Los sistemas de compresores sin capacidad de secado de aire tienden a producir aire comprimido saturado a temperatura ambiente. Los sistemas con secadores refrigerantes pasan el aire comprimido a través de un intercambiador de calor enfriado, lo que hace que el agua se condense fuera de la corriente de aire. Estos sistemas normalmente producen aire con un punto de rocío no inferior a 5 °C (41 °F). Los sistemas de secado desecante absorben el vapor de agua de la corriente de aire y pueden producir aire con un punto de rocío de -40 °C (-40 °F) y más seco si es necesario.

¿Cómo se realiza una medición confiable del punto de rocío?

  1. Seleccione un instrumento con el rango de medición correcto.
  2. Comprenda las características de presión del instrumento de punto de rocío: los instrumentos de Vaisala son adecuados para un uso a presión de proceso, pero hay instrumentos en el mercado que no lo son. Se pueden instalar para medir el aire comprimido después de que se expande a la presión atmosférica, pero el valor del punto de rocío medido deberá corregirse si el punto de rocío de la presión es el parámetro de medición deseado.
  3. Instale el sensor correctamente: siga las instrucciones del fabricante. No instale sensores de punto de rocío en los extremos u otras piezas "terminales" de los conductos donde no exista flujo de aire.

Obtenga más información acerca del aire comprimido o desplácese hacia abajo para ver los instrumentos de punto de rocío de Vaisala.

¿La presencia de agua en su sistema de aire comprimido le está costando dinero?

Lo invitamos a participar en en este webinar, en el cual podrá aprender sobre los problemas que puede causar el agua en su sistema de aire comprimido, a través de diferentes temas:

• Aplicaciones de aire comprimido
• ¿Por qué y dónde medir el punto de rocío?
• La temperatura del punto de rocío: ¿qué es? y ¿qué parámetros lo afectan?
• Recomendaciones de instalación
• Problemas comúnes
 

Consulte nuestra Política de Privacidad para obtener mayores detalles.
Puede modificar la configuración de sus preferencias o darse de baja en cualquier momento aquí

Comment

nikhil

dic. 3, 2019
good info

Prasanta Pal

sept. 24, 2021
Need the dew point measurement device for drying tower outlet at Sulphuric acid manufacturing process

Juhani Lehto

nov. 9, 2021
Hello Pal
Thank you for contacting us. Sulphur acid is a harmful chemical (it corrodes the sensor easily) that must be kept away from the dew point transmitter. If the exposure of the Sulphur acid can be minimized, then you can choose the right product depending on the dewpoint measurement range you are looking for. One useful chart to choose the right product can be found here: https://www.vaisala.com/sites/default/files/documents/CEN-G-CompAir-Product-Brochure-B211208EN.pdf.

Best regards
Juhani, Product Manager

Tony

mayo. 31, 2022
What is the equation and/or conversion tables that takes the electric signal from the capacitor to the values of degrees for dew point? Trying to understand how the variables pressure (absolute and relative), along with temperature, and flow impact the dew point reading. Thank you

Juhani Lehto

jun. 7, 2022
Hello Tony
Thanks for contacting us and showing your interest in dew point measurements. The capacitance signal is measured by converting it first to frequency, where the sensor is a variable capacitance component in the oscillator circuit. This frequency is then counted and converted to relative humidity based on the sensor calibration and linearization (this part is based on the sensor model and other proprietary algorithms that are not public, unfortunately). Please note we always measure relative humidity, and therefore, we need also precise temperature reading that is measured on the humidity sensor surface. This is a normal resistive (pt100) measurement.

With a help of this document, you can derive the dew point calculation based on the measured RH and T: https://www.vaisala.com/system/files/documents/Humidity-conversion-formulas-Technical-eBook-B210973EN-L.pdf
I hope you will also find answers to other humidity-related calculations like absolute humidity, pressure-dependency, and other humidity formulas under the same document.

Best regards
Juhani

sunny

jul. 31, 2022
What is relationship between Dewpoint and RH factor.

Vaisala

agosto. 16, 2022
Dear Sunny, More information on RH and calculations you will find here:
https://www.vaisala.com/en/lp/make-your-job-easier-humidity-conversion-formulas, or then you
can register for our webinar: https://www.vaisala.com/en/events/webinars/lp/real-life-use-cases-humidity-calculations
I hope the Humidity Conversion Formulas eBook and our humidity calculator tool will be helpful! Both are free.

Yashwanth kumar

agosto. 15, 2022
At what location, should we measure atmospheric and pressure dew point.

Vaisala

agosto. 25, 2022
Dear Yashwanth Kumar, Thank you for your question. Would you watch our webinar https://www.vaisala.com/en/events/webinars/lp/humidity-measurements-under-pressure to get more information on what pressure is and how it is related to humidity?

vikul

nov. 11, 2022
I need to dew point sensor to measure the dew point of compressed air and control the process based on its feedback.
Please guide how to choose

Vaisala

nov. 25, 2022
Dear Vikul, We have an excellent eGuide that helps in choosing the right instrument for your needs:
https://www.vaisala.com/en/lp/download-vaisala-compressed-air-eguide

ASHOK PUJARI

feb. 7, 2023
What is the ideal dew point required in an industrial application where the working pressure is between 6-7bar and the equipment's connected are mostly pneumatic cylinders, solenoid valves, pneumatic brakes, etc. Ambient temp ranges from 25-50 degC. And the average relative remains between 60-80%

Juhani Lehto

abr. 11, 2023
Dear Ashok Pujari,
To find out the dew point in a certain temperature, pressure, and humidity can be solved relatively easy by using e.g. the Vaisala Humidity Calculator: https://www.vaisala.com/en/measurement/humidity-dew-point-and-moisture. With this free tool we can calculate how much the dew point maximum and minimum are. The maximum dew point happens under higher pressure, higher relative humidity and higher temperature. If we put 7 bar, 80 % RH, and 50 degrees Celsius to the Humidity calculator, we can see the calculated dew point temperature is about 45 degrees C. So, if the gas is cooled down to 45 degrees C, the condensation happens. On the other hand, if our conditions are 6 bar pressure, 60 % RH and 25 degrees C, the dew point temperature would be then about 17 degrees C. Based on this information, the dew point temperature is between 17… 45 degrees Celsius depending on the conditions.

Velan

mar. 7, 2023
We tried to measure the dewpoint for Argon and Nitrogen compressed gases which theoretically are at -186degC and -70 degC using the DMP74B dewpoint analyzer, but we are unable to get the accurate reading of the dewpoint.

Wanted a few clarification:
a) If the medium tested for dewpoint have a higher range than the analyzer used, will the analyzer give a lower reading instead as it is beyond the accuracy region?
b) Can dry gases like argon & nitrogen be used to test dewpoint with the Vaisala DMP74B type analyzers?

Juhani Lehto

abr. 11, 2023
Dear Velan, Thank you for your questions.
A) If the real frost point (dew point below zero degrees Celsius) is lower (drier) than e.g. the DMP74B, the instrument typically shows the lowest possible reading (with this product the frost point reading goes somewhere to -74 degrees Celsius because the sensor cannot anymore detect the drier condition.

B) Argon and nitrogen are both inert gases and can be measured with Vaisala capacitive thin-film sensor technology. Please note that the pressure of the measured gas has an influence on the dew/frost point and should be inputted to the MI70 handheld to compensate for the pressure effect (the DMP74B cannot measure the gas pressure itself but you need to tell it to the instrument if the pressure is not ambient, i.e. 1 bar(absolute)).

Lin

abr. 26, 2023
I'm trying to use DMT143, but having trouble reading the result.
As far as I know, our ouput is in analog (the value is between 0 to 4095). Is there a conversion chart or formula that will calculate the output into dew point correctly?

Antti Viitanen

jun. 19, 2023
Dear Lin,

Analog output scaling depends on the product you have purchased. Based on the given number you are referring to output figures of analog to digital converter. To get your signal correctly converted you need to first understand what kind of output is selected in DMT143 you are using. If no changes are done to the product it can be done by comparing the configuration code of DMT143 to the order form of DMT143 found at docs.vaisala.com. To be 100% sure the product used can tell it’s scaling through the digital bus. DMT143 scaling could be for example be set such that output is 0 to 5 Volts and range is -70 to +60’C. This means that when the transmitter shows 0 Volts output corresponds to -70’C. If output is 5 volts then it corresponds +60’C dew point. If the transmitter outputs 2.5 Volts then it would correspond -5’C dew point.

After you have determined the scaling of DMT143 you need to make sure that how your analog-to-digital converter is scaled and how analog connections are made. For example, if 12 bit AD converter is able to read the whole 0 to 5 Volts output it means that when reading is decimal 0 output of the transmitter is 0 Volts which is the lower range value. If the reading is 4095 it means a maximum of 12 bit converter it means the transmitter outputting 5 Volts which is the maximum range value. If the output is 2047 it means that the transmitter outputs 2.5Volts which is then the middle of the range.

Issues could be that for example if an analog connection is scaled for 0 to 5 volts but the transmitter scaling is 0 to 1 volts it means that only one-fifth of AD converter capability is used and when the signal shows 819 it means that the transmitter outputs 5 volts which is maximum range value.

Best Regards,
Antti Viitanen
Product Manager
Vaisala

Munawer

mayo. 24, 2023
Can moisture analyzer measure dew point?

Juhani Lehto

mayo. 25, 2023
Hello Munawer. Thank you for sending your question. It depends on the moisture analyzer if it can output the dew point temperature or not. Most of the Vaisala humidity instruments can also output dew point. We are happy to advise you with all Vaisala related product questions.

Paul

jul. 6, 2023
In a compressed air system's pipes are we measuring dew point so that:

1) We keep the compressed air's temperature above the dew point to keep the water vapour in the air
or
2) We keep the compressed air's temperature at or below the dew point to allow the water vapour in the air to condense out, and if so where does that water go to?

Vaisala

oct. 13, 2023
Dear Paul,
I apologize for the late reply, there have been a few comments gone in our Comments, and come up now. 😯

Compressed air should be dried at all times to e.g. prevent corrosion and bacterial growth in the compressed air system, and to cancel free water in the air itself (any water spray or droplets are a sign of bad quality compressed air). There are different drying methods.

The most common (low-cost) drying method is a refrigerant dryer that cools the air close to the freezing point. The cool air dew point then directly equals the air temperature because the cold air cannot hold water anymore and all excess water can be removed by draining it out of the system.

The cool air is saturated by water meaning the RH is 100 %. After the drying, the air is warmed again, when the relative humidity decreases (hot air can hold more water again). The Vaisala DMT132 is a suitable product for refrigerant driers. With a desiccant drier, it is possible to achieve drier compressed air.

Selvakumar Srinivsaperumal

jul. 22, 2023
I am using DMT 143 in my line at a pressure range from 2 to 34 bar, as it is line mounted am getting PDP, but my customer wants ADP irrespective of the line pressure. I know the line pressure reading from PRT, could you help me with the conversion formula? to convert directly to ADP from PRT and PDP readings?

Juhani Lehto

oct. 13, 2023
Dear Selvakumar Srinivsaperumal,
You can tell the actual process pressure for the DMT143 by using the serial line and XPRES command. The DMT143 can calculate the actual dew point/frost point temperature, converted to atmospheric pressure.
Best regard, Juhani Lehto

tarek

oct. 1, 2023
hello ,Thanks for the Information I want to know how I can control the dew point in a compressor reviews with dryer integrate

Juhani Lehto

oct. 13, 2023
Dear Tarek,
Typical solution is that the dryer is controlled by the online dew point measurement. For example, the desiccant dryer regeneration cycle has been traditionally controlled based on time (assumption when the drying agent needs regeneration). A much better way is to switch dryer towers based on the real moisture inside the tower and that can be detected by measuring the outlet of the dryer. As soon as the output gets moisture it is time to switch. This saves energy and money because the tower drying is based on real-time measurement. I recommend reading this article about compressed air drying: https://www.vaisala.com/en/lp/compressed-air-eguide-benefit-industrial-measurements This document also contains a list of suitable dew point transmitter that fits in your dew point range.
Best regards, Juhani Lehto

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