Condensation as the name suggests is water which has “condensed” from warm, moist air on contact with a cold surface. Air holds water in the form of water vapour (moisture).
There is always some moisture in the air even if you can’t see it. Ordinary air seems to be dry. It does not cause wetness on our body or clothes and cannot be detected directly by the senses. Air has a tremendous capacity for holding water vapour (otherwise known as Humidity), however it is limited by temperature. The hotter the air the more water vapour it can hold. When the air holds the maximum water possible at its temperature it is said to be ‘saturated’.
Surface condensation occurs when moisture laden air comes into contact with a suitably cold surface - any surface including walls, floors, sub-floor areas, roof spaces, etc. As moisture-laden air gets close to the cold surface it starts to get cooled and so the relative humidity increases; the greater it is cooled the higher the relative humidity. Against the cold surface the temperature of the air now drops below the dew point temperature and liquid water drops out as condensation. This process is illustrated below.
Take a glass which is absolutely dry on the outside. Put some ice cubes in it. Within a short time you will observe that tiny droplets of water form on the outside surface. This occurs because the air layer touching the outer surface of the glass becomes very cold and condenses the water vapour in it to droplets.
As we all know, our body cools itself by opening pores on the skin and releasing water and salts (Sweats).
Higher humidity reduces the effectiveness of sweating in cooling the body by reducing the rate of evaporation of moisture from the skin. This is because the rate at which water—or in this case, sweat—evaporates depends on how much water is already in the air. On dry days, sweat evaporates quickly, which means it also carries away heat faster. On humid days, when the air is already saturated with water, sweat evaporates more slowly and therefore we find it harder to cool down.
Relative humidity is the amount of moisture in the air compared to what the air can "hold" at that temperature. When the air can't "hold" all the moisture, then it is saturated and condenses as ‘dew’.
It is expressed as a percentage of how much moisture the air could possibly hold. Relative humidity is a combination function of the actual moisture content of the air and the temperature. The amount of vapour that can be contained in the air increases with temperature. The higher the percentage of relative humidity, the more humid (moist) the air. Saturation is equal to 100% relative humidity.
The usual sequence of events is as follows:
1. Cold air enters the building
2. The air is warmed for the comfort of the occupants.
3. The warm air takes up moisture.
4. The warm, moist air comes into contact with cold surfaces, walls, windows, etc. and is cooled below its Dew Point.
5. Condensation occurs as the excess moisture is released.
That’s why condensation is a bigger problem during this season.
Until the latter 1960s condensation was almost unknown within buildings but with changes in building design and in living styles condensation has become a major problem.
Condensation is the most common form of dampness in buildings. Indeed, it appears to be more of a problem in modern properties than our historic buildings due to the introduction of double glazing and draught exclusion which basically cut down the natural ventilation of the property. Older properties, say, with sash windows, open fire-places and gaps around the original doors and windows are far less likely to be severely affected by surface condensation.
Three factors contribute to the condensation of water on building surfaces: high humidity of indoor air, low temperature of the walls/surfaces, and poor ventilation.
Water comes from the 'life-style' - just normal everyday living. The amount of water produced from normal household activities can be quite considerable including just breathing by the occupants and pets. Indeed, it is reported that a large dog can give off even more water vapour than the average adult! Uncovered fish tanks another large vapour producer. Certain other activities such as using bottled gas and paraffin heaters add significant amounts of water to the air, water being a by-product of burning these fuels. Drying clothes over radiators will also significantly add water vapour. The table below illustrates the amount of water that could be generated in an average house during a 24 hour period.
Water Vapour source in an ‘average’ house per day
Approximate water generated (in litres)
4/5 people asleep
2 people active
Contrary to popular belief, damp walls due to rising/penetrating damp, and damp floors do not add significantly to the water burden in the air because water evaporation from such 'static' surfaces is very low compared to breathing and other active water producing activities.
Moisture moves around the home through a process called diffusion. Diffusion occurs if some part of your home has a higher moisture level than another part, such as the movement of moisture from the bathroom to the bedroom after a hot shower has filled the bathroom with steam. Diffusion happens even if there is no air movement at all. Just as heat travels from a hot space to a cold space, even if it has to go through a wall, water vapour will travel from a space with a high moisture concentration to a space with a lower moisture concentration, again, even if it has to go through a wall. Cold air almost always contains less water than hot air, so diffusion usually carries moisture from a warm place to a cold place.
The amount of moisture that the air can hold increases as the temperature rises and decreases as it falls.
Just by living we put moisture into the air of our homes. As the temperature of the home rises and falls the amount of moisture the air can hold rises and falls. If it falls a lot, or there is a lot of moisture in the home then at some point it will "condense" on to cold surfaces. These are most often the windows or ceramic toilet cistern, but may also be walls, furniture, clothes etc.
If moisture is condensing on walls, furniture, clothes you may get mould growing in your home.
Over recent years like many landlords we have been tackling fuel poverty and carbon reduction by increasing insulation, installing better doors and double glazed windows. There is no doubt that these help to keep the heat in, but they also keep the moisture in. Unlike years ago, homes now need your help to keep the moisture low.
Moisture is measured by "Relative Humidity". If the Relative Humidity is consistently above 60% then you may start getting problems with damp and mould.
Every 1oc drop in temperature increases the Relative Humidity by 5% and vice versa. So as your home gets cooler during the night the chance of there being a problem increase.
We know that heating fuel is expensive so first of all try to reduce moisture.
1 - Put less moisture into the air
2 - Get the moisture out of your house
And finally where possible don't let your home get too cold.
Unfortunately the means of getting moisture out of the house is to ventilate, and often you will be sending warm air out with the moisture. This means it is important that you keep kitchen and bathroom doors closed, so that when you ventilate you are minimising the amount of heat that gets away.
By keeping your home warm you will also warm the walls and surfaces of your home. A combination of warm air and warm surfaces will allow more moisture to stay in the air within your home and will reduce the extent of condensation you experience:
If possible try to keep your home at a constant temperature rather than heating your home from cold twice a day. Heating one room to a high level and leaving other rooms cold makes condensation worse in the unheated rooms. It is better to have a constant level of heat throughout your home.
If you don’t have heating in every room, open doors of unheated rooms to allow some of the heat into them.
Do not use paraffin or bottled gas heaters as these also produce water which will add to the level of moisture in your home.
Do not push beds or sofas against radiators as this prevents efficient circulation of warm air.
While a bit of water might sound harmless enough, Water vapour in the atmosphere alone causes no problems - certainly not health problems. On the contrary, constant inhalation of very dry air can cause health problems.
However, condensation and maintenance of high humidity does lead to mould growth. Most moulds need 24-48 hours of moisture to begin to grow. Therefore if a suitable material in your home is wet for more than 24 hours then you run the risk of mould starting to grow. This can usually be detected frequently by the musty odour associated with damp. If condensation isn’t dealt with it can go on to encourage black mould to start growing on your walls, ceilings, and around your windows. Where such conditions occur it is mould spores in large numbers that may cause some to experience health problems. The tell-tale signs are often found on north-facing walls, the cooler side of any home, and especially in corners of rooms or behind wardrobes and cupboards where there is little movement of air. In places where low ventilation comes together with cold surfaces (e.g. north facing outside walls), they become the priority risk areas for mould growth. Most moulds grow at a relative humidity of 70% or higher.
Some materials mould commonly grows on in the home include wood, carpet, food, paper, insulation, wallpaper, paint, wallpaper glue, plasterboard, fabrics, cotton, books, leather, chipboard, furniture, dust, ceiling tiles and almost any other organic material.
The most common mould associated with condensation is the 'black spot' mould, Aspergillus niger. However, other moulds may also develop - it depends on the material and conditions. For example, some moulds will readily colonise leather if the relative humidity is maintained around 76% whilst on brick and paint relative humidity in excess of 88% are reported to be required.
Mould is a part of the natural environment. It is found outdoors and indoors in just about every environment, including your home and office. Mould serves an essential part of our ecosystem to break down dead organic matter such as dead leaves, trees, etc. Without mould, the earth would be covered in biomass.
Yes, mould is in your home, our home and everyone else’s home. It is only when mould is found in elevated or concentrated levels that it can become a problem. Mould and mildew are virtually always present. They are not picky eaters and can find a feast in any home. Many building materials (from wood to plastic foam) provide nutrients for moulds. When nutrients are combined with adequate moisture, moulds can thrive.
It is the mould growths that tend to cause the most concern because not only do they produce a musty odour but they also cause decorative spoiling as well as spoiling of fabric in some cases. Moulds, once germinated, require the maintenance of persistently high relative humidity. Moulds therefore have a tendency to develop in those areas where air flow is limited and the air remains damp and stagnant, e.g. corners, floor/wall junctions, etc, where we can frequently see 'triangular' patterns of moulds very typical of a condensation problem. But please note that such humid conditions can arise naturally during humid warmer summer months, but they do not persist sufficiently long enough to maintain any mould growth
You cannot eliminate mould from your home. But you can control the relative humidity to minimize its presence.
The most common proven health effect associated with moulds is asthma. However, smoking, pets and dust mites are also known trigger factors for asthma, the latter also being found in greater numbers in 'damp' environments.
The presence of mould is not distinctly synonymous with large numbers of spores in the air; it is likely that large numbers of spores/very heavy growths are necessary before health effects become noticeable in normal healthy people although some may be more susceptible than others.
There is a misconception that mould may be hidden in wall cavities and that the hidden mould presents an exposure problem. However, mould hidden in wall cavities does not present a significant exposure threat. Industrial Hygienists have performed several hundreds of building assessments for moulds and Bacteria and have never encountered a single project where sampling (air sampling or bulk sampling) was successful in discovering a hidden mould problem that was overlooked by normal, thorough visual inspection.
As previously mentioned, three factors contribute to the condensation of water on building surfaces: high humidity of indoor air, low temperature of the walls/surfaces, and poor ventilation.
Mould grows and feeds on organic substances such as wood or cotton. Mould should not grow on surfaces like plastic, metal or glass unless there is some other organic substance which it can feed on.
Dust and Vaccum - You should clean regularly to reduce dirt and grime which mould can live on. Dust and vacuum often it has been found that 80% of mould grows on dust.
Watch your humidity - Many species of mould can begin to grow from humidity alone if the humidity stays high for long enough. In fact the humidity only needs to be higher than 55% before some moulds can begin to grow.
Ventilation is key - The best way to keep humidity low in your home is through ventilation. Open the windows during the day, especially when it's hot since this is when humidity is usually the lowest outside. Close your windows when it's raining outside though.
Extractor fans will help reduce high humidity - It's especially important to ventilate the rooms where steam and moisture builds up, like the kitchen and bathroom. Extractor fans help to reduce the humidity when doing things like cooking or washing dishes.
Don’t leave wet clothes hanging around - Another common cause of moisture problems in homes is wet clothes. After you've washed your clothes you should immediately dry them. Don't leave them sitting in a wet pile for a long time. Make sure not to leave any wet clothes lying around waiting to be washed too.
Dry your clothes outside - It's best to dry your clothes outside on a clothes line if you can. Hanging them inside on a clothes horse or indoor clothes line will not dry them as quickly and the moisture from your clothes will evaporate into the air, raising the humidity. If you dry them in a clothes dryer inside your home then you should exhaust the air outdoors if possible. In either case make sure the room where you're drying your clothes is well ventilated.
Let in the natural light - Mould loves dark spaces indoors to grow in. Allowing sunlight in will reduce the chances of mould growing so open the curtains in rooms during the day to let natural light in.
Take action against mould - Once mould has begun to grow in your home it's not enough to just take away the mould's moisture source. Mould that runs out of moisture can lie dormant for a long time without dying. So if you already have mould growth in your home you need to take steps to have it removed.
There are several products you can use to kill and remove mould. Some of the most effective mould removal products include:
Bleach can kill virtually every species of indoor mould that it comes into contact with, along with its spores, leaving a surface sanitized and resistant to future mould growth.
Unfortunately, however, using bleach is only effective if the mould is growing on non-porous materials such as tiles, bathtubs, glass and countertops. Bleach cannot penetrate into porous materials and so it does not come into contact with mould growing beneath the surface of materials such as wood and drywall. Using bleach on these materials will kill the mould above the surface but the roots within the material will remain and the mould will soon return.
Although the active ingredient in bleach, sodium hypochlorite, is the main ingredient in many mould removal products, there are many reasons to use alternatives to chlorine bleach when killing mould.
As already stated bleach cannot completely kill mould growing in porous materials. The chlorine in bleach cannot penetrate into porous surfaces such as drywall or wood. The chlorine is left on the surface of porous materials and only the water component of the bleach is absorbed into the material, providing more moisture for the mould to feed on.
Some of the mould on the surface might be killed but the roots of the mould are left intact meaning the mould soon returns, leaving you in a cycle of repeated bleaching. Perhaps this is why some people believe that spraying bleach on mould doesn't affect it but instead just bleaches its colour so you can no longer see it.
Another disadvantage of bleach is that it can damage the materials it's used on as it is a harsh, corrosive chemical. Chlorine bleach also gives off harsh fumes and it even produces toxic gas when mixed with ammonia. There are safer alternatives as follows which don't produce dangerous fumes or leave behind toxic residue. For these reasons try to avoid using bleach and if you must use it, only use it on non-porous surfaces.
Vinegar is a mild acid which can kill 82% of mould species. However it also has the advantages of being natural and safe. Vinegar is non-toxic and doesn't give off dangerous fumes like bleach does.
To kill mould with vinegar, use white distilled vinegar which you can buy cheaply from the supermarket.
How to kill mould with Vinegar:
If you want to use vinegar to prevent mould growing on surfaces just spray vinegar on the surface and leave it. Repeat this every few days to ensure the surface will stay mould-free. You can even mop your tiled bathroom floor or other hard non-porous floors with vinegar if you are worried about mould growing on them.
Baking soda is well known as a natural and safe household cleaner. But you can also use baking soda to kill mould in your home. Unlike other mould killers which contain harsh chemicals, baking soda is mild (pH of 8.1) and harmless to your family and any pets.
Besides killing mould, baking soda also deodorizes and so using it can get rid of the smell mould leaves in your home. Baking soda also absorbs moisture to help keep mould away.
Vinegar is often used along with baking soda when cleaning up a mould problem since vinegar kills different species of mould to baking soda.
How to kill mould with Baking Soda:
Alternatively you can use a cloth instead of a spray bottle to clean mould with baking soda:
Of all the natural mould killing solutions tea tree oil is the most effective. Although it is also expensive, a small amount of tea tree oil goes a long way in killing mould.
Tea tree oil is an essential oil which is harmless to people and pets. Tea tree oil is antifungal, capable of killing all types of moulds. Tea tree oil is antibacterial as well.
You can buy tea tree oil from most natural food stores. Make sure the tea tree oil you buy is derived from the Melaleuca Alternifolia, which is the technical name for tea tree, as not all brands always are.
How to kill mould with Tea Tree Oil:
There is no need to rinse since leaving the tea tree oil on the surface will kill the mould and prevent it from returning.
Alternatively you can use a rag or cloth with the tea tree oil solution to clean away mould:
Again, you do not need to rinse the surface afterwards.
Tea tree oil has a strong smell but it will go away after some time. You can keep and use the solution you have made for a long time afterwards as tea tree oil does not lose its potency quickly.
Grapefruit seed extract is similar to tea tree oil in that it is an expensive but very effective natural mould killer. The advantage of grapefruit seed extract over tea tree oil however is that it has almost no odour. Like tea tree oil you can buy grape fruit seed extract from most health food stores.
Grapefruit seed extract kills mould naturally as the citric acid from the grapefruit attacks mould. Grapefruit seed extract also disinfects areas and deodorizes as well. Like tea tree oil, a small amount of grapefruit seed extract goes a long way in killing mould.
How to kill mould with Grapefruit Seed extract:
The grapefruit seed extract solution in the spray bottle will remain potent for a long time and can be reused again and again as grapefruit seed extract has a long shelf life.
After cleaning up mould due to condensation, stopping the dampness from coming back means understanding and dealing with each of the causes of condensation we have explored.
The main things mould needs to grow in a home are organic materials to feed on and moisture.
In houses there are always plenty of organic materials for mould to live on such as wood, drywall and various other building materials.
Moisture, on the other hand, can be controlled practically and so keeping the moisture in your home low is the best way to prevent mould growth.
Most moulds need 24-48 hours of moisture to begin to grow. Therefore if a suitable material in your home is wet for more than 24 hours then you run the risk of mould starting to grow.
There are a few main things which usually cause moisture problems in the home. One is water leaks. These include things such as leaking roofs or walls, leaking pipes and leaking taps or a leaking shower.
Condensation is another frequent cause of moisture. Condensation forms on cold surfaces when water vapour in the air cools and becomes liquid. Often you'll see condensation on metal pipes, concrete walls, water tanks and windows.
Mould spores are everywhere in the air outside. Mould spores enter homes through windows, doors, air ducts, etc. They can also be transported inside attached to skin, clothing, hair, pets, etc. They float through buildings all the time and there is no practical way to remove all mould spores indoors.
However if the concentration of mould spores inside is significantly higher than outside then it can start to cause health issues. A higher amount of mould spores also increases the potential for mould problems to start.
Although you cannot eliminate all mould spores inside your home or prevent all mould spores from entering, minimizing the favourable conditions for mould to thrive will lessen the chance of mould beginning to grow in your home and prevent you from suffering mould related problems. Remember:
c. Heat your home a little more