Durability - Offices - natural ventilation
Natural
ventilation not only makes financial sense but also offers a sustainable
solution to environment management. Peter Mayer of Building
LifePlans examines the whole-life costs.
Introduction
Naturally ventilated offices have 25% – 50% lower annual energy
costs than air-conditioned offices. A recent British Council for Offices
report on office sustainability undertaken by multidisciplinary consultant
Arups, suggests natural ventilation has a payback period of two-and-a-half
years.
Getting the right system and strategy for an office requires careful design
and management to take into account a multitude of factors. These include:
• External environment Temperature and rainfall
regimes, cloud cover, wind direction and speed.
• Office building issues Thermal mass, shape, height,
layout of partitions etc, internal wall reflectance, usage patterns, internal
energy input, ventilation rate required. and required ventilation rates.
• Window issues Area, orientation, glazing system,
window and shading.
Design guidance may be based on BS 5925, Code of Practice for Natural
Ventilation. There is also a wealth of information on natural ventilation
strategies, detailing and energy efficiency from organisations such as
CIBSE and BRE.
Large deep plan offices or where external traffic noise levels are unacceptably
high or where security is a risk may preclude the use of opening windows.
Stack ventilation may be an alternative in these cases..
Natural ventilation options
The simpler the window system, the lower the capital costs and whole-life costs- although at the expense of climatic control. More expensive options offer better control and management of internal conditions in response to the external weather and climate. There is no perfect solution; if there were all offices would employ the same ventilation solution.
Manual operated windows
The opening arrangement is a balance between ventilation control, air
flow and weather protection.
Windows with an upper fanlight and an outward opening casement offer the
best all round performance but at a higher relative cost. The upper fan
light ensures controllable ventilation on breezy days without disruptive
draughts at workspace level as well as allowing secure night time cooling.
A top hung outward opening casement offers a medium cost window option
with reduced ventilation control.
Hinges are a small cost of the whole window assembly but critical in ensuring
satisfactory long-term functionality as this is the bit that wears out.
Careful specification of the hinge system pays dividends in long run.
Specify stainless steel variable geometry friction hinges, preferably
in austenitic stainless steel. Corrosion resistance is judged by EN 1670.
Class 4 indicates suitability for polluted environments and offers greater
corrosion resistance than Class 3 which is acceptable for wet or slightly
polluted envionrments. Proof of performance by cyclical testing is a measure
of resistance to wear and fatigue. Hinges may be tested to 30,000 or up
to 50,000 operating cycles representing 25 to 50 years typical use. Low
friction washers and sliders ensure smooth operation and minimise risk
of metal-to-metal wear.
Trickle vents allow ventilation during winter without excessive heat loss.
A range of options are available, from the basic with no control to types
which allow manual control of air flow, through to automatically controlled
systems by pressure or pollution sensors.
Powered window actuators
Natural ventilation works best when office users understand the system.
Powered window actuators are a means of making manual control easier.
The more complex the ventilation and control system the higher the initial
cost as well as servicing costs.
Window actuators are based around electrical motors that operate chain,
pistons or spindle mechanisms contained in metal, plastics or concealed
housings. Specification issues to consider include appearance, protrusion
into the room, noise, range of movement, operating pressure, battery or
mains power supply and energy use.
There are no specific standards by which to assess actuators. Initial
installation is an important factor in future performance. A guide to
long term functionality may be assessed from cyclic bench tests: manufacturers
test from 10,000 to 100,000 operations.
Users may control windows using fixed switches or remote control devices.
Linking two or more opening lights to an actuator is a cost-effective
strategy.
Automatic window controls are a more costly option combining a sensor
with the actuator, this may be part of a building management system .
The most effective sensor control systems operate the windows in response
to internal and external temperature and rain sensors. More sophisticated
systems may include sensors that adjust windows in response to carbon
dioxide levels, wind speed and direction, solar gain, air quality and
time.
Specification options
| Capital cost £/m² |
Net present value for 60 years£/m² | Design life Years |
|
| Manual operated windows | |||
| Top hung casement: Aluminium windows frame to BS 4873. Finish: anodised to BS 3987 minimum thickness 25 microns. Insulating glass units to EN 1279. Austenitic stainless steel hinges to BS EN 10088–2 grade 1.4301; UK type 304. | 300 | 440 | 40 |
| Aluminium window as above with upper fanlight and outward opening casement | 450 | 610 | 40 |
| Top hung casement, aluminium window frame as above with basic coated mild steel trickle vent providing 400mm² opening per m² of floor area. | 375 | 530 | 40 |
| Powered window actuators | |||
| Top hung casement, aluminium window frame as above operator remote control window control. | 475 | 2,380 | 15 |
| Top hung casement, aluminium window frame as above automatic window control based on temperature and rain sensors. | 625 | 3,250 | 15 |
Table notes
• The natural ventilation options are listed in order of increasing
control and sophistication. The aluminium side hung casement window is
the reference window to which the other options are added. Life expectancy
for powered window actuators and controls is 15 years.
• Only aluminium windows are considered, as this analysis is about
the whole life cost implication of alternative natural ventilation approached
rather than a comparison of window frame options.
• Cost data relates to capital costs, replacement and maintenance
costs only. Energy costs are not included as these will vary by building,
location and use. The difference between the options in net present value
gives an indication of the energy savings required to justify a solution
on costs grounds alone.
• A whole life cost analysis including energy usage, fabric components
and related functional requirements such as smoke control, should be carried
out for specific buildings to assess the viability of natural ventilation
options.
First published in Building 2005
Further information
Building LifePlans provides latent defects warranty
for all buildings.
BLP Construction Durability Database at www.componentlife.com
provides durability information for building components.
Further information contact peter.mayer@buildinglifeplans.com
or telephone: 020 7204 2441.
