Electronically commutated motors bring a rethink of fan-coil units
With the application of EC motors, fan-coil units are given the potential to become a much more efficient, and controllable, method of air conditioning. Peter Lowther explains.The introduction, by Ability Projects, of fan-coil units with electronically commutated (EC) DC motors in 2002 represented a massive step forward in the technology of fan-coil units, bringing with it a number of significant customer advantages in terms of energy efficiency and controllability. Latterly, with production improvements and a new controller designed specifically for the EC product, Ability can offer its fan coil/controls package at the same price as any alternative using AC motors. Inroads The application of EC motor technology in domestic and commercial products such as heat-recovery units and boilers is already commonplace, and the use of EC fan motors in fan-coil units, with their attendant substantial reductions in energy consumption and running costs, is now making inroads into the UK commercial air-conditioning sector. The fact is, an EC fan-coil configuration can reduce electrical input by about 55%. On a large development this saving can add up to many kilowatts. A 2-fan unit selected at a typical duty point (2.4 kW cooling, 200 l/s at 30 Pa ESP and NR30) will consume 68 VA (apparent power) when fitted with EC motors, where previously it would have consumed 154 VA in AC form. The benefits of EC technology are maximised in the Ability Matrix EC fan coil system, launched in 2007, by not only providing infinite speed control of the whole unit but also of each separate fan in the fan-coil unit. Controlling each fan in this way enables each duct run to be balanced for air volume through fan speed alone, a feature unique to Matrix. There is then no need for costly volume-control dampers within fan-coil ductwork — avoiding the noise they generate, the energy they waste, the time they take to install and commission and the health hazard they can represent. Matrix precisely balances the air volume down each of the duct runs by controlling the fans at the correct speed, rather than throttling back over-performing ones. Historically, fan-coil installations are designed for single-speed operation and are invariably run with a fixed air volume, thermal output being controlled by water volume alone. Matrix, however, is also designed to adjust the overall air volume based on either occupancy, thermal demand or a combination of both. The design speed must obviously be sufficient to deal with peaks in summer, although for most of the year they are not actually experienced. Matrix follows demand and occupancy, adjusting the air volume (and, conventionally, the water volume) to meet that requirement and no more. Thus, if a meeting room or similar area is empty, the fan coil can operate in set-back mode. When a person enters, the unit increases its fan speed just sufficiently to compensate for the marginal increase in demand. If even more people enter, the fan speed rises further, but, once again, only enough to meet the load. Conversely, of course, when people leave the room, the unit returns to its set-back mode. Reduced energy consumption With fan speeds controlled according to demand, a Matrix fan-coil unit in set-back mode could consume 20%, or even less, of the electrical input of the equivalent AC unit. Lower speeds reduce energy consumption considerably and also reduce project noise levels. The Matrix controller also monitors the air temperature off the coil. If this temperature deviates from user-definable settings any programmed strategy for controlling fan speed is automatically overridden to pull the air off temperature back into line.
Using an electronically commutated motor in each duct off a fan-coil unit enables the precise airflow required to be delivered, without energy-wasting and noisy volume-control dampers.
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