The durability of a private house from any building material largely depends on the regular ventilation of the space located under the lower floor. The ideal option is when the ventilation of the underfloor in a private house is designed and implemented during the initial stage of construction. Then it is designed and arranged correctly.
You will learn all about the competent organization of a system designed to remove excess moisture from structures partially or completely buried in the ground from the next article.
We will cover important functions performed by ventilation. We will show you how to properly position and install components designed to remove exhaust and supply fresh air.
The need for underground ventilation
The organization of underground ventilation in a private building is mandatory for the following reasons:
- Due to the temperature difference in the street and under the floor, condensate settles on the logs with floor beams and on the base. Without the organization of ventilation, drops of water with an acid content destroy concrete, brick, wood, causing corrosion of building materials.
- Humidity contributes to the appearance, resettlement and development of mold and fungus, affecting wood, metal and concrete. Mildew that has already appeared during the natural normalization of the moisture level does not disappear anywhere, and with its subsequent increase it will begin to develop more actively in the affected areas;
- The enclosed subfloor space accumulates carbon dioxide, especially if autumn harvested stocks are stored in it.
The humidity of the underground is enhanced due to contact with soils, in which there is always water in different proportions.
Especially moisture is felt at the soil level, i.e. soil-vegetable layer up to 40 cm thick, actively absorbing rainfall and regularly irrigated during irrigation.
In the absence or insufficiently effective action of the ventilation system in the underground will be damp. Due to the lack of oxygen, a favorable environment will be formed for the development of anaerobic bacteria. In addition to everything, carbon dioxide will accumulate
Underfloor ventilation is necessary for almost any design solution. An exception is the construction of a floor on the ground, according to which beams or slabs are laid directly on a sand or gravel bed, and do not overlap the spans between the walls of the foundation.
Features of the ventilation device
If space remains under the floor of the house, its ventilation is most often organized by means of a device of vents inside the basement. Ventilation holes are designed at a precisely calculated distance from each other, from ground level, from building angles and taking into account other factors.
Ventilation openings are closed by ventilation grilles to protect against rodents. This is a traditional natural ventilation system solution.
For greater efficiency of the airing process, the products are selected from the leeward side and in the base / foundation wall located opposite. Vent holes must be opposite each other. With this solution, traction is enhanced naturally.
The wind, flying into the hole on one side, will fly out into the vent hole on the other side, taking away moisture, volatile carbon dioxide molecules and a musty smell. During further operation, you only need to make sure that ventilation openings are not obstructed by any objects from the inside and do not overgrow on the outside.
In the strip foundation, vents are positioned opposite each other to provide a stable natural air flow.
If there are partitions inside the foundation, vent holes are also made in each of them. In order for the movement of air masses to be stable and free, the internal vents are located directly opposite the products selected in the external walls.
If it is not possible to select the required number of holes in the walls of the base or foundation, increase the area of each mini-opening. It is important that the total ventilation area meets regulatory requirements.
Adequate air flow must be ensured for normal ventilation of the subfloor - the dimensions of the ventilation openings must comply with regulatory requirements
You can make a series of holes of the same size, or you can make one wide window with a grille or opening sash. When arranging a window, there must be a passage or hatch inside the structure that can be opened for periodic salvo ventilation.
To cut ventilation openings in the foundation / basement of an already erected structure can be a mobile drilling rig designed for horizontal drilling and drilling of walls. To form the hole, you will need a shell equipped with a diamond crown.
Ideally, lay the vents in the external and internal walls of the foundation, the passages and large openings for ventilation pipes before pouring the mortar into the formwork
If inside there is an additional foundation, for example, for a brick stove or a massive floor gas boiler, then inside the outer base the number of holes must be increased by 1.5-2 times.
Products can be not only round, but also square, rectangular and even triangular. The main thing is not to reduce the total cross section specified in the building codes. The size of the hole should not impede the flow of the required amount of air.
It is never too late to make vents in the foundation or base. They can be punched with a punch or drilled with a mobile drill with a diamond bit
The second way to organize a ventilated space is more time-consuming and more resource-intensive. An extract is arranged from the underground through the ventilation pipe to the roof. Air in this case enters the system through the grilles in the rooms.
In this case, they do not make air vents in the foundation, however, external insulation of the foundation, basement and blind area will be required. This is the best option if you plan to build a well-insulated eco house, the construction of which used the principles of energy conservation.
Underground ventilation in a wooden house
Felling a wooden house is most often erected on a columnar base. A lower crown is mounted on it, which served as a kind of grillage for laying floor beams. The gaps between the foundation pillars most often do not lay at all with anything, which provides natural ventilation.
Houses made of logs or beams are now also being placed on strip foundations of brick, concrete sides. During the construction of the base of piece materials, openings are formed during the laying
If the floor in the house is decided not to be finished with a wooden flooring, then it is arranged using floating technology, i.e. the sub floor has no connection with the walls. In this case, a small gap remains between the cover and the crown, through which the underground and floor will be aired.
The gaps are covered with skirting boards, however, the presence of small slots allows for full ventilation. On the opposite sides in the rooms you can place special skirting boards with ventilation holes.
The flooring in a wooden house is laid according to a floating scheme, i.e. with a gap around the perimeter. Through this gap, moist air comes out of the underfloor. In addition, ventilation vents with grilles are arranged in the floor.
In addition, in the corners near the walls, you can leave slots in the floor for ventilation, covering them with ventilation grilles. Such a solution will also contribute to improving air circulation under the floor of the building.
Air exchange rates
How to organize underground ventilation? It is necessary to lay holes for ventilation at the basement construction stage.
To ensure stable air exchange in the space under the lower floor, the following rules should be observed:
- When arranging perfumes 15-20 cm below the upper edge of the tape (if the base is low), a pit is made in front of the hole.
- The step between adjacent openings should not exceed 3m.
- The holes in the base / foundation are located at a distance from the corner to 1m.
If the house is built on a hill, for sure, it is well blown from either side. In this case, the number of vents can be slightly reduced.
If the house is built in a region with low wind activity, located in a lowland or surrounded by forest, the number or size of ventilation holes should be increased
In the basement or foundation of a house built in a lowland, the total cross-section of the ventilation openings should be increased: either by number or by area.
The dimensions of the holes for ventilation of the foundation and the underground are regulated by SNiP under number 41-01-2003 or an updated version of the rules of SP 60.13330.2012.
The area of all vents should be at least 1/400 of the entire area of the subfloor. That is, if the house is 9 m by 9 m in size, then the underground area is 81 m2. In this case, in the foundation, the total area of the vents should be 81/400 = 0.20 m2 or 20 cm2.
The minimum air area must not be less than 0.05 m2. That is, rectangular holes should have a size of 25 × 20cm or 50 × 10cm, and round holes should have a diameter of 25cm.
If in a private house such vents look too large, they can be made 2 times smaller by increasing the number of vent holes so that their total area is not less than calculated.
Sleeves for the formation of ventilation holes, as well as for the passage of all types of pipes, are laid in the reinforcing cage before pouring the mortar into the formwork
When arranging vents in the strip foundation, the mortgages are fixed after the installation of the reinforcing frame. It can be plastic or metal pipes or pipes made of asbestos cement. Their edges are brought out on the same level with the formwork and are well fixed.
So that concrete does not flatten plastic during pouring, sand is poured into the pipes and closed with plugs. After dismantling, such mortgages remain in place. Rectangular vents are made using boxes of downed boards. A wooden box is also installed in a reinforcing frame, after the concrete has hardened, it is removed.
It’s easier to make vent holes in a brick base. In this case, you can cut the bricks or put a half in place of the whole brick. In the socles erected from concrete blocks, you can take several blocks with a pair of large holes, make them through and put in place of normal ones. If the building material is reinforced concrete blocks, the vents are made at the joints.
If the house is installed on a bored, pile or column foundation, there is no need for a ventilation device. Even if the perimeter is sewn up with siding, ventilation is carried out through seams and gaps in the structure or perforated elements
If in the columnar foundation the gap between the supports is closed with brick or concrete blocks, the required number of holes is left in the building material. It is necessary that their area be equal to one four hundred square footage.
How to improve air exchange in an already built house?
If the house is already standing, and the available products are not enough, the underground is constantly feeling high humidity and a fungus has begun to form, measures can be taken.
To enhance air flow and improve ventilation, you must:
- Drill new products or increase the size of the old.The easiest way is to drill a lot of holes around the perimeter of the perforator with a thick drill. Then drill the remaining gaps and align the walls. However, a more productive method is drilling with a diamond crown without impact loads, after which smooth and neat holes remain;
- Improve ventilation draft by removing several pipes from the exhaust openings to the roof. The thrust will increase due to the greater pressure drop;
- Put automatic forced ventilation with a timer;
- To build in the base of the stove a channel combined with a blower. Then the air will be drawn from below, providing the stove with the oxygen it needs to burn. However, this option is applicable only for buildings with brick stoves, and then only at the stage of construction or alteration of the unit.
- Reduce the penetration of groundwater through a powerful waterproofing device. The method does not allow to abandon ventilation, but reduces the level of humidity characteristic of structures buried in the ground.
Waterproofing materials, thick building polyethylene or a polymer membrane, must be laid with an overlap of 10-15 cm, brought to the walls by 20-30 cm and fixed with a bar. To prevent the film from being damaged, a skinny screed of 3 cm is poured onto it.
With a warmed foundation, base, blind area, the effect in combination with a ventilation pipe will be repeated. Without insulation, condensation will collect on the film, which, having made a slope, can be diverted to the side of the underfloor.
To reduce the temperature difference within the underground, it is better to fill the soil base with expanded clay. It is undesirable to lay polyethylene on the ground, anaerobic bacteria will dilute under it, a persistent smell of swamps will appear
But expanded clay, due to its voidness, will itself draw water from the surrounding soil. Therefore, this material can be filled up only if the level of hot water does not rise above the level of 2.0 m from the day surface. If not, you will have to arrange ventilation of the subfloor in the house according to the scheme described above, adhering to standard principles.
Forced ventilation device
Natural circulation of air currents may not always provide the necessary drying of the underground space. Then they install a mechanical ventilation unit or forced-air ventilation valves.
Mechanical compulsion of air to movement is required:
- If the house is built in the glen between the hills.
- If the natural movement of air masses is impossible due to the climatic features of the area (high humidity, for example).
- If the base of the building is buried in soils with low filtration properties, due to which atmospheric water weakly seeps into the underlying rocks. You can determine by stagnant puddles after rains, poorly discharged flood waters. In this case, in addition to ventilation, an effective wall drainage is needed, which can be built after the construction of the house.
Compulsory ventilation systems are characterized by the presence of installed supply / exhaust fans in the air openings, contributing to a more intensive circulation of air masses. The most common and economical option is to install one exhaust fan.
If the owners of the house are not limited in means, waiting for a full air exchange within the subfloor it is better to arrange a forced system with fans
Such fans are enough to turn on for half an hour once a day. You can install a system of automatic on / off ventilation devices. With periodically increased humidity - for example, during spring snowmelt, heating equipment can be used to quickly drain the underfloor.
Features of the combined system
A combined ventilation system in the basement is installed if the natural-type ventilation system does not cope with its tasks, and using only a mechanical one is too expensive. A huge plus of the combined system - it is not affected by natural factors and temperature differences and it can function year-round.
Combined ventilation, as well as natural, is equipped with supply / exhaust openings. A fan is installed in the exhaust opening, which quickly removes stagnant air from the underground. If the subfloor area is large, the fan is also installed in the supply air duct.
The natural type of ventilation can easily be converted to a combined version, if you install a ventilation wall valve on the supply or exhaust port
In small subfloors this is not economically feasible, since there will be an overspending of electricity. A fan will help to quickly drain the space if natural ventilation can not cope with this problem.
Most often, for the arrangement of a combined system, fans with a capacity of up to 100W are taken. You can choose both centrifugal and axial devices. Axial are more economical, in addition, they provide a sufficiently powerful air flow, while spending a moderate amount of electricity. When installing axial devices, a check valve must be installed in the pipe.
Seasonal Ventilation System Care
The main debate when caring for the ventilation system raises the question - to close the air for the winter or not.
There are 2 points of view here:
- With open vents. Through them, moisture falling out in the form of condensate in heated overly insulated rooms will be removed. Directly communicating with the ground, the floor in them will always be cold, which means that during the heating season the formation of “dew” will intensify. However, if you invest in floor insulation, this can be avoided.
- Closed for the winter air. The warm, humid air of the living room will fall on the cold surfaces of the subfloor (basement walls). Condensation will drain into the ground. In the spring / summer, it will evaporate, increasing humidity, so drying the underfloor with heating appliances will be required.
You will have to close the ventilation if the house is wooden, and the flooring is made using floating technology, i.e. there are gaps near the walls, and even ventilation holes with grilles are selected in the floor. Otherwise, the floor will be very cold.
It is not recommended to close air vents for the winter; ventilation of the underground should be carried out under any weather conditions. It makes sense to reduce the air flow as shown in the photo.
In other cases, you can consider both options. In addition, in winter it is necessary to regularly clear the base of snow so that the ventilation openings do not completely fill up. After all, even when closed, they will contribute to ventilation, even if in a reduced state.
In other seasons, the maintenance of the ventilation system is simple:
- in spring - open vents and dry the underfloor;
- in the summer - make sure that the ventilation openings are not littered with debris and that the grown plants do not obscure them;
For all types of vents, it is necessary to install ventilation grilles (preferably metal ones) so that rodents and raccoons do not get inside, and regularly clean them of debris so that the air flow does not decrease.
Additional moisture reduction
So that the ventilation system does not have to be strengthened by increasing the total cross-section or installing fans, the following work must be done:
- The device is an effective drainage system - water drainage from the foundation.
- Waterproofing the base of the house and basement. There are many types of waterproofing: it can be rolled, surfaced, coated, etc.
- Performing insulation. The best material for cost-effectiveness and efficiency - EPSP. It is a good heat insulator that does not allow water to pass through.He is not interested in rodents and does not rot. EPSP can be insulated and blind area.
These events do not cancel, but only complement the ventilation. Only in the complex can the ideal drainage of the space in the basement compartments be achieved.
If the house is built on a soil foundation that does not properly drain water, in addition to the ventilation system, drainage and stormwater are definitely necessary. The drainage system will collect water from the soil and the upper layers of the soil, stormwater will collect and divert precipitation
When the system is installed according to the forced scheme of installation, maintenance and maintenance costs, it will be more than with a natural type organization. It should be borne in mind that in winter condensation can form on the walls of the ventilation pipes themselves, and in frosts the cross-section can completely clog the muzzle.
To avoid this, pipes can be insulated with penofol. At the lower corner of the pipe, you can come up with a condensate collector - for example, drill a hole or put a tee instead of a corner.
Which ventilation scheme to choose?
So, we figured out whether a ventilation system under the floor is needed, and now it remains to decide which scheme to choose for specific conditions. There are several important points to consider when choosing a system. The operation of ventilation largely depends on the type of climate in a particular area, average street temperature, etc.
In the natural ventilation device, the main rule must be observed: the supply openings are located below the exhaust. The greater the altitude between them, the more effective the system
Natural ventilation is more effective in winter, since it is at this time that a large difference between the temperature inside the underground and outside is recorded, which ensures good circulation of air masses.
However, with an even greater decrease in temperature, there is the possibility of an excessive increase in air exchange, which is also not particularly good, since it can lead to freezing of structures. Therefore, with a significant decrease in the temperature of the product, you need to close it.
In summer, the temperature difference inside the underfloor and outside is minimized, so air circulation may cease. Therefore, natural ventilation even with a supply and exhaust system is not the best option for hot regions. A combined ventilation system with pipes should be installed here.
If the house has forced-air and exhaust ventilation, it makes sense to connect the hood from the basement to the general scheme. So the outflow of air will be stimulated in any weather
To equip a combined ventilation system for a small underground floor, it will be enough to install one pipe. So that it can provide both a conclusion and reception of air masses, it is necessary to divide it vertically into 2 channels.
Such ventilation pipes are sold in hardware stores. Each channel has its own valve to adjust the flow rate. The functioning of such ventilation is checked quite simply: you need to attach a sheet of paper to the outlet in turn.
System device materials
For the arrangement of air ducts of supply and exhaust ventilation, 3 types of pipes are used:
- Asbestos cement - durable, resistant to corrosion and well withstand frost. They have a sufficient length, so during installation you can do without connections;
- Galvanized steel - corrosion resistant, easy to install, light weight. However, the price of metal components for ventilation systems is usually higher than for plastic and asbestos-cement;
- Plastic They have a smooth inner surface that provides easy and quick air flow. Plastic pipes do not rust, they do not need to be cleaned, and their service life exceeds a couple of tens of years. One of their drawbacks is flammability.
The determining factor in the efficiency of the ventilation system is the proportionality of the cross section of the installed air duct of the area of the room in which it is mounted. Heat engineers recommend that when calculating, adhere to the following norm: 1 m2 subfloor required 26 cm2 sections.
The most practical option for laying the exhaust part of the ventilation system in the cellar is an assembly of polymer pipes. In addition to an affordable price, the opportunity to build a pipeline with your own hands also attracts
There is the following formula for calculating the required pipe diameter:
(S cellar × 26) ÷ 13.
That is, if the subfloor area is 9 m2, you will need a pipe with a diameter of 18 cm: (9 × 26) = 208 ÷ 13 = 18 cm. For single-pipe ventilation, the diameter should be even larger, for example, 20 cm.
How to install a duct?
Most often, 2 air ducts are used to organize the supply and exhaust ventilation system. To circulation of air masses was more uniform, take pipes of the same diameter. To accelerate the air outlet, you can put a chimney slightly larger cross-section.
Mount the air ducts at the greatest possible distance from each other on opposite walls. Along the route of the pipes, it is necessary to minimize the number of bends.
The exhaust pipe is mounted in one of the corners and its lower end should be near the ceiling itself, so that all the warm air going up through it is discharged. The duct can be combined with a kitchen exhaust ventilation system and brought to the roof one and a half meters above the ridge.
The street duct should be insulated, we wrote about this above. The most aesthetic option is to put another pipe on the pipe, but of a larger size and lay any insulation in the formed space. It is better to install a special ventilation deflector on the pipe head, which helps to increase traction.
Mechanical ventilation ducts passing through the basement should be insulated so that, due to the temperature difference between the air passing through them and the air mass, condensation does not precipitate inside the pipes
The supply air duct is mounted in the opposite corner of the subfloor, and its open end should be as close to the ground as possible. The inlet must be lower than the exhaust. Similarly, the pipe can be run through the house.
If a supply air duct is discharged through the roof, its intake opening should be below the exhaust pipe. The outer edge of the draw pipe is raised on the roof to 20-25cm.
Also, the supply pipe can be brought out near the wall of the house outside. In this case, the hole should be raised above the ground by 80cm ideally. Inside, air vents are installed in each duct to regulate the intensity of air movement.
The following article will familiarize you with the rules for installing a ventilation system in the attic of a private house, detailing the principles of the device and the nuances of the structure.
Guide for the arrangement of vents in the foundation:
How to deal with dampness in a village house:
The subfloor is a closed unventilated space in which all favorable conditions are created for the development of mold, dampness, fungus, and the formation of condensate. The creation of an effective ventilation system will help get rid of destructive processes. This problem can be solved both at the stage of building a house, and later - at the stage of operation of the building.
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