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Product category: Building Industry QA and Benchmarks
News Release from: Cylon Controls | Subject: Natural ventilation systems
Edited by the Buildingtalk Editorial Team on 05 February 2008

Best results from natural ventilation
system

Low energy projects are increasingly making use of KNX or EiB networks for the control of blinds and natural ventilation systems.

Helping nature with effective control Achieving the best results from a natural ventilation system requires optimal control of a number of parameters

With the move to 'lower carbon' buildings, there are now very few new build projects or major refurbishments where natural ventilation isn't at least considered as an alternative to mechanical ventilation and cooling.

In many of these projects, the viability of opting for a natural ventilation solution will depend on how closely a variety of parameters can be controlled.

This is the key challenge facing building services engineers when designing natural ventilation systems, because to achieve optimum performance they will need to 'juggle' a range of elements.

These elements include motorised blinds and windows as well as the mechanical plant and lighting - necessitating a truly integrated Building Energy Management System (BEMS).

For example, if a space is exposed to high solar heat gains it may not be possible for natural ventilation to maintain required temperature levels without any additional mechanical cooling.

However, if solar shading is used to minimise solar heat gains, even if this necessitates some use of electric lighting, the overall energy consumption may be less than installing mechanical ventilation or cooling.

Similarly, the effectiveness of any natural ventilation may be related to wind speed and direction, so that motorised louvres or windows are adjusted in relation to these parameters.

A case in point is the control strategy used for ventilation in the new learning resource centre at the Galway/Mayo Institute of Technology (GMIT), which clearly illustrates the right control strategy can greatly enhance the viability of a natural ventilation system.

Divided into a lecture block and a library/IT block the building features an innovative free form frontage consisting of three sculptured copper sails that form part of the library's natural ventilation system.

Dynamic thermal modelling by consulting engineers Varming confirmed that natural ventilation would be viable for the library, despite it having a cross-section of 36m - and that control would play a critical role in this.

The library at GMIT is a two storey building with three atria located centrally and creating a stack effect.

Outside fresh air is introduced through low level dampers located in the external sails on the coastal side of the building, passing over temperature-controlled finned tube heaters which can pre-heat the air when necessary.

Exhaust air leaves the library through dampers located at roof level on the northern side, which contribute to the stack effect.

Space heating in the library is provided by radiator circuits and during winter, the ventilation is controlled by a combination of temperature and CO2 concentrations to ensure that only minimum fresh air is introduced.

Temperature has the highest control priority and once the 21C set-point has been reached control switches to CO2 levels, which are not allowed to exceed 500ppm.

In summer, the dampers are controlled in relation to internal temperatures, supplemented by automatic opening of Duggan windows in the northern wall if temperatures reach 24C.

In addition, inlet damper settings are controlled in relation to wind speed, as measured by a weather station on the roof.

This is because the prevailing westerly winds have the potential to create strong draughts and wind noises, so the dampers are closed in proportion to increasing wind speeds.

The configuration of the Cylon building energy management system (BEMS) by system integrators Control Technology allows for these parameters to be modified in the light of ongoing experience.

GMIT illustrates the need for a comprehensive control strategy when using natural ventilation, with a requirement for the BEMS to respond to inputs from a wide range of sensors and issue instructions to an even wider range of motors and other devices.

Inevitably, this will necessitate interfacing between different protocols.

At the same time, low energy projects such as GMIT are increasingly making use of KNX or EiB networks for the control of blinds and natural ventilation systems; while the central BEMS is more likely to be using BACnet or a BEMS protocol such as Unitron.

Here, the BEMS protocol will need to interface with the KNX/EiB networks to achieve effective control and this has the potential to increase the amount of programming and interfacing required.

To address this growing issue and to make such projects easier in the future, Cylon and other vendors have been working to develop standard interfaces, such as the new KNX gateway, that enables data from KNX networks to interface easily with Cylon's BEMS protocol and provide the level of control integration necessary for this type of project.

It can be combined with the Standard Motor Interface (SMI), designed for control of intelligent drives for shutters, windows and sun protection systems; providing precise movement to intermediate positions and feedback of actual positions.

As natural ventilation is increasingly seen as a core element in creating low carbon buildings, we will undoubtedly see wider use of the cost-effective, open standard KNX protocol.

Systems that facilitate communication with other networks will, therefore, prove invaluable.

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