Latest News
SPAB
37 Spital Square
LONDON
E1 6DY
T: 020 7377 1644
F: 020 7247 5296
E: info@spab.org.uk
Charity No. 111 3753
37 Spital Square
LONDON
E1 6DY
T: 020 7377 1644
F: 020 7247 5296
E: info@spab.org.uk
Charity No. 111 3753
Scottish Charity No. SC 039244
Company No. 5743962
VAT No. 577 4276 02
Technical Q&A 25 : Condensation
A few simple measures can often successfully restore a delicate moisture balance in old buildings. Douglas Kent, the SPAB’s Technical Secretary, explains how unwelcome wet can be kept at bay
Q. What is condensation?
A. Condensation is the release of water that occurs when air is cooled to its ‘dewpoint’ temperature and can carry less moisture as vapour. Water may condense indoors as warm, damp air comes into contact with colder building components, particularly where ventilation is poor – for example, in room corners, roof or floor voids and cupboards. Condensation forms on surfaces, but can also be ‘interstitial’ - occurring within the thickness of building materials and elements. It is often associated with mould and timber decay.
Condensation is distinct from other forms of dampness, such as rain penetration and rising damp, which require different solutions.
A. Condensation is the release of water that occurs when air is cooled to its ‘dewpoint’ temperature and can carry less moisture as vapour. Water may condense indoors as warm, damp air comes into contact with colder building components, particularly where ventilation is poor – for example, in room corners, roof or floor voids and cupboards. Condensation forms on surfaces, but can also be ‘interstitial’ - occurring within the thickness of building materials and elements. It is often associated with mould and timber decay.
Condensation is distinct from other forms of dampness, such as rain penetration and rising damp, which require different solutions.
Q. Why does condensation occur?
A. Moisture is present in old buildings not just from the activities of occupants, but also the fabric as it ‘breathes’. Historically, generous ventilation helped this escape via open fires, and loose-fitting doors and windows. The balance of the internal environment can easily be upset, though, increasing the condensation risk. This may occur when more moisture is produced – often from cooking, washing or the use of flueless bottled gas stoves and heaters. It also can happen where ventilation is reduced by double-glazing, over-zealous draught-proofing or blocking flues and air bricks. Similarly, condensation forms where walls are cement-rendered externally, or insulated with a vapour barrier internally, compromising their ‘breathability’. Additionally, cold spots from gaps in insulation are conducive to condensation, as are walls or floors of high thermal mass when heated up suddenly.
Q. How is condensation diagnosed?
A. Condensation occurs mostly in winter and is often first noticed when water droplets form on hard surfaces, or mould appears on absorbent finishes. Moisture meters frequently reveal diffuse areas of damp on plaster, especially with north-facing walls, but this is commonly misdiagnosed as rising damp and used to justify unnecessary damp-course treatment. Elevated readings can also occur in virtually dry walls, due to salts deposition from evaporation. Salt tests are otherwise usually negative. The use of meters in ‘condensator’ mode or tests showing an absence of dampness within a wall thickness can assist in pinpointing condensation as the source of moisture.
Q. How do you control condensation problems?
A. Simple lifestyle changes can produce dramatic improvements at little or no expense: ideally, generate less moisture. Place lids on pans while cooking, dry clothes outdoors, close kitchen and bathroom doors when in use and vent tumble driers to the outside if not of the condenser type.
Improving ventilation to the exterior can also help. Even when it feels damp outside in winter, the lower vapour pressure will tend to draw out moisture. Open windows and avoid draught-proofing those in kitchens and bathrooms. Ensure that lofts, floor voids and redundant chimneys are well ventilated and avoid foam treatments on the underside of roofs that can cause serious timber decay.
Increased heating can maintain surfaces above dewpoint, especially if run constantly at a low level rather than intermittently. Lagging cold pipes may prevent surface condensation, as can improving insulation levels (taking care not to cause interstitial condensation instead). The use of ‘hygroscopic’ materials that temporarily store excess moisture, such as sheep’s wool, can help avert condensation.
Q. Will dehumidifiers help stop condensation?
A. De-humidifiers can reduce condensation effectively when rooms are warm and damp, but are of limited benefit when they are cold and humid. In domestic buildings, simple lifestyle changes that lower humidity and/or keep surface temperatures above dewpoint will tend to provide a more practical and less expensive long-term solution. Similarly, whole-house ventilation systems, which can have a role in controlling condensation, should not automatically be seen as the answer.
Further Reading
The Control of Damp in Old Buildings, SPAB Technical Pamphlet 8The Need for Old Buildings to ‘Breathe’, SPAB Information Sheet 4.
Diagnosing Damp, by R Burkinshaw and M Parrett, RICS, 2003.
Understanding Dampness: Effects, Causes, Diagnosis and Remedies, by P Trotman, C Sanders and H Harrison, BRE, 2004.