Thursday, 12 December 2024

Why should dew point sensors have a fast response?

Humidity is the enemy of battery manufacturers, so its measurement and control is extremely important – not just for the plant’s energy efficiency, but also for the quality and yield of batteries, affecting issues such as range in EVs. One of Vaisala’s experts Antti Viitanen explains why a fast response time is so important for dew point sensors.

Humidity control is obviously critical to ensuring battery quality and preventing defects. Battery manufacturers use dehumidifier units (DHU) to ensure that the air circulating in the process meets strict specifications. In battery production, humidity levels need to be kept extremely low, which means that a lot of dry air is needed, and drying requires heat and, therefore, energy. One of the most important ways to optimize energy usage is to measure dew point and temperature and use these parameters to control the DHU.

Antti Viitanen is a Product Manager at Vaisala for Industrial Instruments and is mainly focusing on OEM products/Dew Point and Carbon Dioxide products. He has over 15 years of experience in electronic sensor technology. Antti holds a Master of Science degree in Electrical Engineering from Aalto University, Finland.

The amount of heating required changes as the outside humidity changes. On wet days more heat is needed and on dry days less, but the air fed into the manufacturing spaces must be consistently dry. So how can the dryness of the air blown in by the DHUs be kept at exactly the right level without wasting energy?

Accuracy and speed are essential.
In battery manufacturing the sensors used to measure humidity must be extremely accurate: At a dew point of around -70 °C, there will only be 2.6 molecules of water in a million particles of air.

Speed is also of the essence. The rotating drums inside DHUs consist of two main parts:

  • the drying section made of desiccant material that draws the moisture out of the air
  • the regeneration section that drives heated air in the opposite direction to take moisture away from the desiccant material

The segments typically rotate once every ten minutes or so. If the moisture level of the incoming air is above the set limit, more heat is needed to remove the water molecules; if the moisture level is below the set limit, less heat is needed. The sensor technology must be able measure the changes in humidity within the ten-minute window or the opportunity to adjust the heating for that rotation will have been missed. To get around this challenge, sensors that are too slow to detect such changes in time typically average out results across multiple readings. The problem with this approach is that drying cannot be controlled in real time. Lack of control over drying leads to unstable humidity conditions, increased safety risks, and potential negative impacts on product quality.

Fast response time enables real-time control.
The ability to measure humidity variations within one drum rotation, and not just between rotations, is a vitally important feature of dew point sensors in battery manufacture. With this capability it is possible to control the process in real-time to maintain optimal dryness levels in each stage of production and to prevent product defects.

Sensor response times are slower when air is dryer, and faster at higher humidity levels. The extreme dryness required in the DHUs of battery plants makes it challenging to measure fast enough, which means that operators risk relying on falsely high humidity readings. In turn, this could lead to over-drying of the air and wasting a lot of energy. Vaisala claims that its dew point sensors have a response speed up to many times faster than competing products. Accurate, fast-response sensors therefore help to optimize the efficiency of DHUs so that they only dry air as much as is necessary. This lowers both energy consumption and operational costs.

The ability to measure in real-time over a single rotation enables better control of humidity and costs. However, a further benefit can be achieved by comparing accurate data from each cycle, to identify small anomalies before they escalate into bigger problems. This supports predictive maintenance and condition-based maintenance, both of which further reduce operating costs – as well as the headaches caused by potential product quality issues.

In addition to the accuracy and fast response of a dew point sensor, low drift and long-term reliability are also essential features of sensors in environments like battery manufacturing where sensor failure could compromise production quality and safety, affecting issues such as charging speed and range in EVs for example.

In summary, an investment in accurate, reliable, fast-response sensors would be negligible in comparison with the cost savings and other benefits that it would deliver. In addition, at Vaisala we firmly believe that a compromise on sensor quality would not be worth the risks associated with the potential effects on battery yield and quality.


@VaisalaGroup @_Enviro_News #PAuto

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