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Displacement and mixed flow air distribution within buildings are quite different and it is helpful for the building owner / designer to be aware of the fundamental effects they have on comfort, capital costs, and running costs of their building. The choice between the two systems in certain circumstances is reasonably clear but other circumstances need careful consideration.
Mixed flow distribution is the traditional method of supplying air to ventilated spaces. Cool air is blown in through the ceiling or wall and dilutes the room air in an attempt to provide an even temperature and contaminant level through the space.
With mixed flow ventilation the flow is driven by the inertia of the supply air. The volume of the air supplied for mixed flow ventilation is calculated proportionally to the supply air and room air temperature.
With displacement systems, air is introduced at low velocity through floor terminals or other diffusers. Cool air floods the floor in much the same way as water would. The room heat sources lift the air up and the air passes through the occupied zone and is exhausted at high level.
As the displacement units are provided at low level, a considerable vertical temperature gradient naturally occurs between the floor and ceiling. The volume of air supplied to a room is height dependant because of this gradient and the air volume supplied for displacement ventilation is proportional to the supply air and exhaust air temperatures.
With displacement ventilation, the flow of air is maintained by convective forces, which also have the effect of the concentration of pollutants rising from floor to ceiling. Research has indicated that there is less likelihood of complaints due to draughts using displacement ventilation and the air is likely to be cleaner as contaminants are removed from the occupied zone. In the comparison of the applications of mixed flow and displacement ventilation summarized below these apparent advantages are not considered.
When heating, displacement ventilation follows mixed air flow distribution patterns.
The choice of displacement or mixed flow ventilation determines the type of ventilation / air conditioning plant to be used. The vast majority of the mass produced plant in the ventilation / air conditioning industry is manufactured for the mixed flow market and therefore there is a natural bias towards mixed flow distribution.
As a general rule, displacement ventilation requires centralized plant using air handling units and chilled water pipework distribution, whereas mixed flow ventilation may be achieved by this means or a variety of other methods, such as unitary, 'split' systems, V.R.V. systems, variable volume systems etc.
With respect to plant generally, but not always (as discussed later), displacement ventilation requires a chilled water plant whereas mixed flow may function using chilled water plant, direct expansion plant and centralized packaged plant.
The type of plant chosen is reflected in capital costs and running costs. For small installations, direct expansion equipment is always less costly than chilled water plant, but for medium and particularly for large installations the costs tend to even up. The running costs are generally a function of the method of air distribution used, although - of course - the application and operation of the plant is also relevant.
Some examples may help to clarify possible applications.
With the above it is quite common for the occupied zone, i.e. up to a height of 2 metres, to be the important comfort consideration. The air distribution options are generally quite simply:
In this case the considerations are:
The advantages of displacement ventilation in this application are considerable. As much of the lighting load may be removed at source, the studio may well function on 'free cooling' most of the year in temperate countries. Only when the outside air dry bulb and wet bulb temperatures increase in summer, is it likely that the refrigeration plant will be required to operate - and even then the outside air cooling requirement will be mitigated by the use of a recuperator or other heat recovery device.
As a result of this, the size of the refrigeration plant required is likely to be less that that required for mixed flow ventilation.
The disadvantages of mixed flow ventilation in this application are:
With the above example there is no advantage to using displacement ventilation. In fact, if displacement ventilation is used because a high entering air temperature is required, a greater volume of air will be required to be circulated than for mixed flow ventilation, and this is quite likely to require bespoke equipment. In addition, at such a limited ceiling height, although low level outlets may be used the air distribution is likely to follow mixed flow air patterns.
With this example the use of displacement ventilation is marginal. It is quite likely that the cooling capacity required and the air volume circulated will be similar for both mixed flow and displacement ventilation. However, as chilled water will be required for the displacement system, capital costs are likely to be higher.
If, however, a mixed flow system using chilled water is being considered, the plant costs would be similar. A direct expansion mixed flow system would certainly have lower capital costs.
As with the large television studios, displacement ventilation has many advantages. It would make sense to provide displacement ventilation to the tiered seating in order to provide local occupant comfort. However, during high occupancies the cooling capacity provided by displacement alone may not be sufficient. Consideration has therefore to be given to adding mixed flow ventilation where appropriate. The air and temperature patterns will be complex and Computational Fluid Dynamic Analysis will certainly have to be carried out.
The above examples are of course over simplifications but have attempted to provide the building owner or designer with a guide for the obvious applications for displacement and mixed flow ventilation. With the capital costs and running costs of ventilation / air conditioning systems forming such a high proportion of owning costs these days, it is essential each project is analyzed in detail. Further, there is no doubt that particularly in temperate climates that 'free cooling' should be used more extensively.
'Free cooling' is generally inherent with displacement systems and may easily be added to mixed flow systems when ducted distribution is used. (This is generally the case when low noise control is important).
As previously stated chilled water plant and distribution is generally a requirement when using displacement ventilation. The reason for this is that the 'off coil' temperatures are higher for displacement systems during the cooling cycle. Chilled water systems by the use of 3-way control valves are able to provide an infinitely variable off coil temperature and this, therefore, makes this equipment suitable. Conversely, direct expansion equipment generally has a 'fixed' off coil temperature during the cooling mode except in the case of multiple compressors when there is a degree of stepping. Rather than incur the higher cost penalty of chilled water plant systems for smaller systems, consideration should be given to:
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Copyright 1997 by Ambthair Services Ltd.
Last updated 23rd Feb, 1997