Ventilation & comfort control in the post-COVID workplace
Author : Fabrizio Petris | Senior Business Development Manager | Omron
01 October 2021
Ventilation & comfort control in the post-COVID workplace_Omron's USB multi-function environmental sensor for the IoT
Employers across Europe are starting to think about bringing their teams back into the office environment. Yet, after more than a year of lockdowns & health warnings, it’s natural that many employees will feel anxious or apprehensive about returning to shared workspaces. As they do, their safety of course is paramount, but at the same time, issues like carbon footprint & costs have not disappeared.
This article was originally featured in the October 2021 issue of EPDT magazine [read the digital issue]. And sign up to receive your own copy each month.
Fabrizio Petris, Senior Business Development Manager at electronic components & automation specialist, Omron explores some of the issues employers must grapple with – and how technology can help address them…
A great example of an issue that straddles both the ‘old’ and the ‘new’ normal is ventilation. A well ventilated space is lower risk from the perspective of transmitting COVID and other viruses – but also improves worker comfort leading to greater willingness to return to office working and productivity. At the same time, the costs are too great to be ignored. Deploying the latest sensor technologies can ensure that ventilation systems operate at the optimum efficiency, generating the greatest effect for the minimum energy input – and hence the lowest carbon and economic footprint.
Figure 1. Omron D6F MEMS differential pressure sensor
Ventilation, clearly, is based on maintaining the right air flow through a space. Too little, and the room quickly feels airless and can develop odours. Too much, and it becomes too draughty and expensive to heat.
Fans can be a low cost and efficient way of providing adequate ventilation, but some form of air velocity control is needed, not least to ensure that the regulations for ventilation are being complied with. For example, in the UK, building regulations stipulate the provision of adequate mechanical ventilation rates. Sensors such as the Omron Electronics D6F-V MEMS Air Velocity Sensor can improve efficiency by monitoring the exact air rate which is extracted by the fans. This sensor uses a unique flow path structure for high-performance flow rate measurement. The compact sensor element measures mass flow directly, and most models for air measurement are protected by a unique dust segregation system to avoid long-term performance degradation in contaminated environments. To help improve air quality further, these devices can also be used to detect clogged filters in ventilation and air-conditioning systems, thereby improving reliability and efficiency.
Air conditioning systems too need careful monitoring to ensure that peak performance is maintained. The difficulty is that many conventional airflow sensors aren’t accurate at the very low flows normally encountered in an air conditioning system. Omron’s D6F-PH digital differential pressure sensors overcome this issue by using MEMS technology to create a micro miniature heating element in between two thermopiles (Figure 1). The sensor measures flow by the shift in the resulting hot spot. Temperature difference between the two thermopiles is directly proportional to the mass flow across the sensor chip.
Such accurate maintenance of pressure enables OEMs to maximise the performance of HVAC systems, especially variable air volume (VAV) systems, where the dumper can regulate the airflow in ducts, and thus achieve noiseless and efficient control. Embodied in devices like the new Omron D6F-PH, this offers better accuracy than conventional differential pressure sensors – especially in low flow conditions. The standard range features units capable of measuring 0 to 250Pa, +/-50Pa and +/-500Pa.
Figure 2. Omron D6T thermal sensors are based on an infrared sensor which measures the surface temperature of people & objects
Heating and ventilation systems use a lot of energy. With most employers phasing the return to the office, clearly many spaces like meeting rooms will see lower levels of use. Accurate people detection systems allow heating and ventilation systems to be throttled back when a space is empty, and their output scaled appropriately to the occupancy when it is in use. Temperature measurement sensors are much more effective than movement sensors for this purpose. Not only are they more reliable at detecting the presence of people, but they can also be used to monitor the background temperature and confirm the effectiveness of the system. In the context of a room, thermal sensors need a wide field of view, so that they can detect the presence and location of people in a space accurately and reliably.
For example, Omron D6T thermal sensors (Figure 2) are based on an infrared sensor, which measures the surface temperature of people and objects without touching them. It achieves this by using a thermopile element, which absorbs radiated energy from the target object. The state-of-the-art MEMS thermopile is integrated with a custom-designed sensor ASIC that bundles a signal processing microprocessor and algorithm into a tiny package. As a result, the sensor is reputed to offer the highest signal-to-noise ratio (SNR) in the industry. For HVAC applications, the D6T 32x32, a wide-angle version of the device based on 32 x 32 elements, provides a view across 90.0° by 90.0°. This equates to a field of view measuring 3.6m x 3.6m at 2m distance, so allows people to be detected in a wide space. When applied efficiently, such thermal sensors can not only control energy consuming services, but also monitor movements around the building and occupancy ratio for a better usage of office space.
Air quality measurement
Figure 3. Omron’s 2JCIE offers multiple sensors in one unit that has built-in memory & connectivity through beacon communication
Maintaining a comfortable office environment is a matter of juggling many factors. In addition to temperature and air flow, parameters like humidity, light level, UV, barometric pressure and air quality (including the presence of volatile organic compounds or VOC) are all significant. The best solution is to employ a multi-purpose environmental sensor, which makes it very easy to deliver a wide range of measurement functions from just one small component. This will save development time by providing numerous options that can be tailored to the user’s needs. It communicates via a USB interface, or a standard wireless protocol like Bluetooth Low Energy (BLE). These sensors offer easy to interpret data that can then be analysed, stored on the cloud and used to set parameters and make real-time adjustments.
For example, the Omron 2JCIE offers multiple sensors in one unit that has built-in memory and connectivity through beacon communication (Figure 3). The sensor can accumulate data for approximately 3 months (based on a communication frequency of once every 5 minutes) and connect to multiple devices, such as smartphones, via Bluetooth 5.0. The 2JCIE Environmental Sensors are cloud compatible with no need for additional hardware. Bespoke threshold values can be set to provide alerts that notify the user of any abnormal sensor readings.
The technologies described in this article are not new – but are receiving much greater focus in the post-COVID world. The benefits of returning to the office are too great to ignore. Many appreciate the social aspects of office life, and not all have a home environment that is conducive to productive work. At the same time, the perceived risks of returning to the workplace need to be counterbalanced by recognition of the new safety concerns, as well as by making office spaces as welcoming and comfortable as possible. All this needs to be achieved at an affordable cost to the employer and to the environment. Sensor technologies such as MEMS air flow sensors, thermal sensors and all-in-one environment sensors can work together to provide a workplace that is safe, comfortable and affordable for all.
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