Fan coils


Detecting FCU failure


The undetected failure of fan coil units (FCUs) is a long standing problem in heating and ventilation. Fan coil units like the types found in heating and ventilation applications tend to be unmonitored and system fan failure can often go unnoticed to the point where a refit or refurbishment is required or where air simply ceases to flow from the ductwork


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he oldest format for monitoring the FCU is to use differential pressure switches. Within the fan coil unit, the installer would place a differential pressure switch on either side of the fan inlet and outlet to monitor the pressure difference between the two. Tubing from each sensor is then connected to a mechanical switch and when a change in pressure is detected, the switch will open or close to raise an alarm. The use of pressure differential switches has its limitations. They are easily clogged by airborne debris, requiring regular maintenance to ensure reliable operation. The switch itself is mechanical and prone to corrosion, which will lead to seizing and non- operation, and the switches can be time-consuming to calibrate. A more elegant solution is to monitor the current draw of the fans within a fan coil unit. A fan failure, depending on its nature, will often result in a drawn current spike or, of course, zero current. This requires the installation of additional components in the control circuit.


Fan failure monitoring methods


A partial solution has been offered for a number of years utilising the tacho pulse output generated by the Hall Effect sensors found within many AC or EC motors. This is a limited solution, however. At failure, the fan will start to free wheel backwards when used in a multi-fan system. This is due to the pressure differential on the downstream side of the plenum forcing air upstream past the fan. A tacho pulse will, therefore, still be generated and fan failure is not picked up (this limitation is applicable to multi-fan systems). One fan manufacturer offers a solution to this problem that will help to keep fan systems running at maximum efficiency, for longer. With the onboard alarm now available in Ecofit EC motors, it is possible for a building management system (BMS) to constantly monitor the air handling systems that are on the network. Allowing for the identification of the faulty air handling unit very quickly, no inspection of multiple assets is required to locate the fault. If required, individual fans can be monitored depending on the requirements of the BMS specification. This has significant advantages when looking to resolve faulty FCUs. Downtime of the FCU is minimised through rapid identification of faulty assets, the labour required to resolve the issues is significantly reduced because faults are quickly identified, productivity of the work space is kept high because disruption to the work environment is reduced, and because air quality is so vital to productivity, the FCU is operational again very quickly. The European fan manufacturer Ecofit, in partnership with Axair, has developed a double inlet, forward curved centrifugal fan that features an efficient EC motor, surpassing ERP 2013 and 2015, but also has a built-in failure monitoring system on their EC motor, to detect the failure of individual fans or fans within a system.


28 July 2018 Constant


pressure and airflow of an Ecofit fan


www.heatingandventilating.net


How is fan failure recognised?


The failures are monitored via a normally closed contact within the motor which will open when the fan speed drops below 200RPM but only when the fan is receiving a run command, so as the motor’s RPM falls below 200, the monitoring circuit is opened. This switch is controlled internally on the motors PCB by an optocoupler. This is used as it isolates the alarm circuitry from electromagnetic radiation that could cause false readings. The onboard alarm system is such that multiple fans can be wired in series and powered either using the fans’ own 0-10v output or an external input from the BMS system, 48V 5mA max. The flexibility of EC allows for the customisation of the RMP ‘trigger’ point and whether the system operates normally closed or normally open. This circuitry within the fans printed circuit board will generate an alarm signal which the BMS will detect and respond to accordingly. For both the end user and the fan coil manufacturer, on board alarms hold many advantages. For the end user, down-times for maintenance are reduced, expensive building assets are running at optimum efficiency for longer and productivity of the work space is maintained. For the fan coil manufacturer no additional components are required to monitor tacho outputs before integration with the BMS, meaning reduced costs, and quicker construction times and less complex assembly procedures.


Fan coil units like the types found in


heating and ventilation applications tend to be unmonitored and system


fan failure can often go unnoticed


www.heatingandventilating.net


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