Filtration+Separation July/August 2009
Air filtration and efficiency:
Air filters – energy rating and labelling T
he request for reducing CO2 emissions comes from several directions and is becoming part of the marketing strategy of various industries. Energy consumption awareness is increasing, and the need to reduce energy consumption drives manufacturers to introduce energy efficiency indicators in almost every product and engineering field. The air cleaning industry is no exception.
Energy efficiency labels and indicators In the European Union the practice of energy labelling of home appliances started several years ago and has enjoyed good success and overall acceptance by interested parties (Figure 1). The idea to extend energy labelling to most, if not all, heating, ventilation and air-conditioning equipment should be equally obvious. However, in the case of air filters it is not easy or straightforward to choose the indicator to be used for rating their energy performance. Why is it difficult in this case to choose an “energy efficiency” indicator? To understand the choices to be made in setting an energy rating system for air filters it is necessary to make clear what is behind each option.
output may be electric power, mechanical work, or heat. Energy conversion efficiency is not defined uniquely, but it depends on the thermodynamic value of the input. All or part of the heat produced from burning a fuel may become rejected waste heat if, for example, work is the desired output from a thermodynamic cycle. Therefore the energy
spent can be weighted with the Carnot factor to take into account that it is not possible to convert all thermal energy into mechanical work. Another common example is given by incandescent light bulbs: to produce visible light they emit as heat approximately 90% of the power consumed. Artificial light sources
The energy efficiency of an entity (a device, component, or system) is commonly defined as the “useful” output divided by the total input. Several examples adopting this approach are present in our everyday life. For instance the energy conversion efficiency can be defined as the ratio between the useful output of an energy conversion machine or process and the input necessary to obtain such useful output. Since they are both expressed in energy units the resulting efficiency is dimensionless and its value is always lower than 1 (or 100%). The useful
Any new energy labelling or efficiency standard relating to air filters would have to take soot nanoparticles into consideration, which are present in the atmosphere and strongly affect the behaviour of air filters.