Recuperator for an apartment. Ventilation with recovery Supply and exhaust recuperator for an apartment

Many people believe that an air recuperator for an apartment is an optional item that can be completely dispensed with. How can supply and exhaust ventilation reduce heating costs if the entire house is connected to a central network? In fact, it will not be possible to reduce costs, but it will be possible to maintain heat. In addition, the recuperator performs a number of other, equally important tasks. Read about which ones in our article.

Prana 150

Apartment ventilator Russian production power 32 W/h and the highest efficiency of 91%. Air exchange rates for supply air are 115 cubic meters per hour, exhaust air exchange rates are 105 cubic meters per hour, in night mode 25 cubic meters per hour. Users complain that the recovery is ineffective, the air does not have time to warm up even to room temperature, but when it comes to ventilation, everyone gives maximum marks here.

Electrolux EPVS-200

A supply and exhaust unit with plate heat exchangers, distilling more than 200 cubic meters of air per hour. Designed for residential buildings, offices, small production premises. Effectively cleans the air of dust and all contaminants, dries it and ionizes it.

Power 70 W. Fine filters of class F5 (EU5) are installed on the supply and exhaust. Self-diagnosis system.

VIDEO: The simplest and cheap way ventilate rooms with closed windows

Supply and exhaust ventilation with heat recovery is a system that allows you to establish a reliable change of exhaust air in the room. Installation of equipment allows you to heat the air entering the room using the temperature of the outlet flow. The cost of purchasing and installing the system quickly pays off.

It is important to know the main points when selecting and installing equipment.

What is heat recovery?

The air recuperator releases heat from exhaust gases. The two flows are separated by a wall through which heat exchange occurs between moving air flows in a constant direction. An important characteristic of the equipment is the level of efficiency of the recuperator. This is the value for different types equipment is in the range of 30-95%. This value is directly dependent on:

designs and types of recuperator;
the temperature difference between the heated exhaust air and the temperature of the carrier behind the heat exchanger device;
accelerating the flow through the heat exchanger.

Advantages and disadvantages of a ventilation system with a heat exchanger

Such equipment allows:

carry out constant change of air masses in rooms of different sizes;
if the residents need it, a heated flow can be supplied;
the incoming oxygen is constantly purified;
if desired, it is possible to install equipment with the ability to humidify the air in the rooms; such systems have a channel for removing condensate;
By recovering heat and selecting equipment with sufficient power, it is possible to significantly reduce the cost of paying for electricity.

Among the disadvantages of the system, several points can be highlighted:

increased noise level during fan operation;
when installing cheap equipment, there is no way to cool the incoming air during hot periods;
it is necessary to constantly monitor and remove condensate.

The principle of operation of the ventilation system

Such ventilation with heat recovery allows reducing the load on the air conditioning system of buildings during the hot season. Conditioned air from the room, when passing through the heat exchanger, lowers the temperature of the atmospheric flow from the street. IN winter period, the outboard flow is heated according to this scheme.

Installation in buildings with large area And common system conditioning. In such places, the level of air exchange can exceed 700-800 m 3 / h. Such installations have impressive dimensions, so you will need to prepare separate room in the basement, on ground floor or attic. If installation in the attic is necessary, it will need to be additionally soundproofed to prevent heat loss and condensation in the air ducts.

The ventilation system with recovery is manufactured in several types; we will analyze the advantages and disadvantages of each of them.

Types of air recovery devices

For better comparison Let's present the types of recuperators in a separate table.

type of instalation	Short description	Advantages	Flaws
Lamellar with plastic and metal plates	The outgoing and incoming flow passes on both sides of the plates. The average efficiency level is 50-75%.	The streams do not touch directly. There are no moving parts in the circuit, so this design is reliable and durable.	Not identified
Lamellar, with ribs made of water-conducting materials.	The efficiency of the devices is 50-75%, air flows on both sides.	There are no moving parts. Air mass flows do not contact each other. There is no condensation in the system.	There is no possibility of dehumidifying the air in the serviced room.
Rotary	High level of efficiency 75-85%. The flows pass through separate foil-coated channels.	Significantly saves energy and can reduce air humidity in serviced areas.	Possible mixing of air masses and penetration unpleasant odor. Requires maintenance and repair of a complex structure with rotating parts.
Air recuperator with exposure to intermediate coolant	A solution of water and glycol is used as a coolant or filled with purified water. In such a scheme, the exiting gas gives off heat to the water, which heats the incoming flow. Designed for servicing industrial premises.	There is no contact between the flows, so their mixing and the flow of exhaust gases are excluded.	Low level of efficiency
Chamber recuperators	A damper is installed in the chamber of the device, capable of increasing the magnitude of the passing flow and changing the vector of its direction.	Thanks to design features, this type of equipment has high level Efficiency, 70-80%.	The flows are in contact, so the incoming air may become contaminated.
Heat pipe	The device is equipped with a system of freon-filled tubes.	There are no moving mechanisms, the service life is increased. The air comes in clean, there is no contact between the flows.	Low level of efficiency, it is 50-70%.

A recovery unit with heat pipes is available for individual small rooms in a buiding. They do not require an air duct system. But in this case, if the distance between the flows is insufficient, incoming flows may be removed and there will be no circulation of air masses.

List of possible problems after installing the system

Critical problems do not arise if recuperative ventilation is installed in the building. The main malfunctions are eliminated by the system manufacturers under warranty, but a few “troubles” can overshadow the joy of the owners of buildings and premises, after installing the supply equipment - exhaust system air ventilation. These include:

Possibility of condensation formation. When passing air mass flows from high temperature heating and contacting them with cold atmospheric air, in a closed chamber, drops of water fall out on the walls of the chamber. At sub-zero temperature outside, the fins of the heat exchanger freeze, and the movement of flows is disrupted, reducing the efficiency of the system. If the channels are completely frozen, the operation of the device may stop.
System energy efficiency level. Supply and exhaust systems equipped with an additional heat exchanger various types, require electricity to operate. Therefore, it is necessary to carry out accurate calculations of various types of equipment specifically for the premises that will be served by the system.

You should not save money when purchasing, and purchase a device in which the level of energy savings will exceed the cost of operating the equipment.

Full payback period for an air ventilation system. The period for a full refund of the funds spent on the purchase and installation of equipment directly depends on the previous point. It is important for the consumer that these costs are recouped within 10 summer period. Otherwise, equipping a room or building with an expensive ventilation system is not cost-effective.

During this period, it will be necessary to carry out repairs and possible replacement of system parts and additional costs for their purchase and payment for their replacement.

Ways to prevent recuperator freezing

Some types of devices are made to prevent severe freezing of the heat exchanger surfaces. At low temperatures outside, ice build-up can completely block access fresh air into the room. Some systems begin to become overgrown with a crust of ice when the outside temperature drops below 0 0 .

In this case, the flow leaving the room is cooled to a temperature below the dew point and the surfaces begin to freeze. To resume operation of the device, you will need to raise the temperature of the incoming flow to positive values. The ice crust will collapse, the equipment will be able to continue working.
To avoid such situations, supply and exhaust units with a built-in heat recuperator can be protected from such damage using several methods:

To protect the device, it may be necessary to additionally equip the installation with an electric air heater. It does not allow the outgoing air masses to cool below the dew point and prevents the appearance of water droplets and the formation of ice;
most reliable method, eliminating the possibility of freezing of the recuperator fins - this is the equipment of the device electronic system control of the defrosting circuit, which is activated taking into account several parameters. To do this, it may be necessary to set the date for switching on the electric heaters of the incoming air, at the first sub-zero temperatures.
You can install a sensor that reacts to cold air and turns on air heating elements in the ventilation system. In any case, the operation of air heating devices in ventilation is cyclical, only in the cold season. When turned on supply ventilation, the incoming flow and exhaust gases removed from the room are heated.

After a certain period of time, the supply fan turns off. At this time, in the recuperator, the incoming flow is heated by the temperature of the outlet air, which is displaced using an exhaust fan. This principle of operation of the heating circuit operates in automatic mode throughout cold period of the year.

To prevent ice from forming on the device, we recommend purchasing a plate-type heat exchanger with plastic ribs.

A method for independently calculating the power of supply and exhaust ventilation

First of all, it is necessary to determine the volume of all air flows necessary to create comfortable conditions. This can be done in several ways:

You can make a calculation based on the total area of the building, without taking into account the occupants. The following calculation scheme is used here - within an hour, for each m2 of total area, 3 m3 of air should be supplied.
Based on sanitary standards, for a comfortable stay, at least 60 m3 must be supplied per hour for each person living in the room; for arriving guests, another 20 m3 must be added.
Based on the building standards of 08/2/01-89, standards for the frequency of air replacement in a room of a certain area per hour have been developed. Here the calculation is made taking into account the purpose of the buildings. To do this, it is necessary to determine the frequency product full replacements air masses and volume of the entire room or building.

In conclusion, we note.

Regardless of the pronunciation of the word ventilation, in English or other languages, the main task of the supply and exhaust system with a heat recuperator is to create comfortable conditions for people in the room. Therefore, having decided on the calculation of the required power and the type of heat exchanger, you can safely begin equipping the house reliable system ventilation.

To increase service life, air purification filters can be added to the circuit. But you should remember that it is easier to prevent breakdowns by carrying out timely maintenance and care than to spend money on repairs or purchasing new equipment.

Air handling units with heat recovery- ventilation equipment designed to pump fresh air into rooms from the street and simultaneously remove old, exhaust air with low oxygen content. The supply air is forced into the outer chamber using a fan, and then distributed throughout the rooms through diffusers. The exhaust fan removes exhaust air through special valves.

The main problem with intensive air exchange using supply and exhaust ventilation- high heat loss. To minimize them, we have developed air handling units with heat recovery, which made it possible to reduce heat loss several times and reduce space heating costs by 70-80%. The operating principle of such installations is to recover the heat of the outgoing air flow by transferring it to the supply air flow.

When equipping the facility air handling unit with recovery heat, warm exhaust air is taken through air intakes located in the most humid and polluted rooms (kitchens, bathrooms, toilets, utility rooms, etc.) Before leaving the building, the air passes through the heat exchanger of the recuperator, transferring heat to the incoming (supply) air. Heated and cleaned supply air enters the premises through air ducts through bedrooms, living rooms, offices, etc. Due to this, constant air circulation is carried out, while the incoming air is heated by the heat given off by the exhaust air.

Types of recuperators

Air handling units can be equipped with several types of recuperators:

plate recuperators are one of the most common recuperator designs. Heat exchange is carried out by passing supply and exhaust air through a series of plates. During operation, condensate may form in the recuperator, so plate recuperators are additionally equipped with a condensate drain. Heat transfer efficiency reaches 50-75%;
rotary recuperators - heat exchange is carried out through a rotating rotor, and its intensity is regulated by the speed of rotation of the rotor. At a rotary recuperator high efficiency heat transfer - from 75 to 85%;
less common types are recuperators with an intermediate coolant (water or a water-glycol solution plays its role) with an efficiency of up to 40-60%, chamber recuperators divided into two parts by a damper (efficiency up to 90%) and heat pipes filled with freon (efficiency 50-70%).

Order air handling units with recovery heat in the MirCli online store on a turnkey basis - with delivery and professional installation.

Many buildings that are currently being built, both industrial and residential, have very complex infrastructure and are designed with maximum emphasis on energy conservation. Therefore, it is impossible to do without installing such systems as general air ventilation systems, smoke protection systems and air conditioning systems. To ensure effective and long-term service of ventilation systems, it is necessary to properly design and install a general air ventilation system, a smoke protection system and an air conditioning system. Installation of such equipment of any type must be carried out in compliance with certain rules. And in terms of technical characteristics, it must correspond to the volume and type of premises in which it will be used (residential building, public, industrial).

The correct operation of ventilation systems is of great importance: compliance with the deadlines and rules for carrying out preventive inspections, scheduled maintenance, as well as the correct and high-quality adjustment of ventilation equipment.

For each ventilation system put into operation, a passport and operational log are drawn up. The passport is drawn up in two copies, one of which is stored at the enterprise, and the other in the technical supervision service. Everything is included in the passport specifications systems, information about the repair work carried out, copies of as-built drawings of the ventilation equipment are attached to it. In addition, the passport reflects a list of operating conditions for all components and parts of ventilation systems.

All data from a routine inspection of ventilation systems must be indicated in the operation log.

Operation of ventilation systems

Many buildings that are currently being built, both industrial and residential, have very complex infrastructure and are designed with maximum emphasis on energy conservation. Therefore, it is impossible to manage without installing ventilation systems, and in most cases, air conditioning. To ensure long-term and high-quality service of ventilation systems, it is necessary to choose the right ventilation. Installation of such equipment of any type must be carried out in compliance with certain rules. And in terms of technical characteristics, it must correspond to the volume and type of premises in which it will be used (residential building, public, industrial).

For each ventilation system put into operation, a passport and operational log are drawn up. The passport is drawn up in two copies, one of which is stored at the enterprise, and the other in the technical supervision service. The passport contains all the technical characteristics of the system, information about the repair work carried out, and copies of the as-built drawings of the ventilation equipment are attached to it. In addition, the passport reflects a list of operating conditions for all components and parts of ventilation systems.

Routine inspections of ventilation systems are carried out according to the established schedule. During routine inspections:

Defects are identified and corrected current repairs;

The technical condition of ventilation systems is determined;

Partial cleaning and lubrication of individual components and parts are carried out.

All data from a routine inspection of ventilation systems must be indicated in the operation log.

Also, during the work shift, the operating team on duty provides for scheduled overhaul maintenance of the ventilation systems. This service includes:

Start-up, regulation and shutdown of ventilation equipment;
Supervision of the operation of ventilation systems;
Monitoring the compliance of air parameters and supply air temperature;
Elimination of minor defects.

Commissioning of general air ventilation systems, smoke protection systems and air conditioning systems

Stage commissioning works is a very important stage, because the quality of ventilation and air conditioning depends on commissioning work.

During commissioning, the work of the installation team is visible, and the parameters specified in the project, the equipment indicators are checked and compared with the indicators specified in the project documentation. During the inspection, a complete check of the technical condition of the installed equipment, the distribution and uninterrupted operation of adjustment devices, the installation of monitoring and diagnostic devices, and identification of errors in the operation of the equipment are carried out. If deviations are detected that are within normal limits, then readjustment does not occur, and the object is prepared for delivery to the customer, with all documents completed.

All of our company’s foremen have specialized education, health and safety certificates, extensive work experience and have all Required documents and evidence.

At the commissioning stage, we measure the air flow speed in the air ducts, noise level, test the quality of equipment installation, and adjust engineering systems in accordance with the project parameters, certification.

Start-up testing and adjustment of ventilation and air conditioning systems must be carried out by a construction and installation or specialized commissioning organization.

Certification of ventilation systems

Technical document, compiled on the basis of checking the operating condition of ventilation systems and equipment, carried out using aerodynamic tests, is called certification of the ventilation system.

SP 73.13330.2012 “Internal sanitary systems of buildings”, updated version of SNIP 3.05.01-85 “Internal sanitary systems” regulate the form and content of the ventilation system passport.

Obtaining a ventilation system passport, in accordance with the requirements of the above document, is mandatory.

Upon completion of the installation of ventilation systems, the customer receives a ventilation system passport.

A passport must be obtained for each ventilation system.

The passport is indispensable for registering purchased equipment, for correct operation, such equipment, in order to achieve the necessary sanitary and hygienic air parameters.

For the period established by law, this document is provided by the control and supervisory authority. Receipt of this document– this is indisputable evidence in resolving controversial issues with the relevant authorities.

Obtaining a ventilation system passport can be carried out as a separate type of work, consisting of a set of aerodynamic tests. The conduct of such events is regulated by the following regulations:

SP 73.13330.2012;
STO NOSTROY 2.24.2-2011;
R NOSTROY 2.15.3-2011;
GOST 12.3.018-79. “Ventilation systems. Methods of aerodynamic tests";
GOST R 53300-2009;
SP 4425-87."Sanitary and hygienic control of ventilation systems of industrial premises";
SanPiN 2.1.3.2630-10.

Supply and exhaust ventilation units with heat recovery appeared relatively recently, but quickly gained popularity and became a fairly popular system. The devices are capable of fully ventilating the room during the cold period, while maintaining optimal temperature regime incoming air.

What it is?

When using supply and exhaust ventilation in the autumn-winter period, the question of preserving heat in the room often arises. The flow of cold air coming from the ventilation rushes to the floor and contributes to the creation of an unfavorable microclimate. The most common way to solve this problem is to install a heater that heats the flow of cold street air before supplying it to the room. However this method is quite energy-consuming and does not prevent heat loss in the room.

The best option The solution to the problem is to equip the ventilation system with a recuperator. The recuperator is a device in which the air outflow and supply channels are located in close proximity to each other. The recuperation unit allows partial transfer of heat from the air leaving the room to the incoming air. Thanks to the technology of heat exchange between multidirectional air flows, it is possible to save up to 90% of electricity; in addition, in the summer, the device can be used to cool incoming air masses.

Specifications

The heat recuperator consists of a housing, which is covered with heat and sound insulating materials and is made of sheet steel. The device body is quite durable and can withstand weight and vibration loads. The housing has inflow and outflow openings, and air movement through the device is provided by two fans, usually axial or centrifugal type. The need to install them is due to a significant slowdown in natural air circulation, which is caused by high aerodynamic drag recuperator. To prevent the suction of fallen leaves, small birds or mechanical debris, an air intake grille is installed on the inlet located on the street side. The same opening, but on the room side, is also equipped with a grille or diffuser that evenly distributes air flows. When installing branched systems, air ducts are mounted to the openings.

In addition, the inlets of both flows are equipped with fine filters that protect the system from dust and grease droplets. This protects the heat exchanger channels from clogging and significantly extends the service life of the equipment. However, the installation of filters is complicated by the need to constantly monitor their condition, clean them, and, if necessary, replace them. Otherwise, a clogged filter will act as a natural barrier to air flow, causing resistance to increase and the fan to break.

According to the type of design, recuperator filters can be dry, wet or electrostatic. The choice of the desired model depends on the power of the device, physical properties and the chemical composition of the exhaust air, as well as the personal preferences of the buyer.

In addition to fans and filters, recuperators include heating elements, which can be water and electric. Each heater is equipped with a temperature relay and is capable of automatically turning on if the heat leaving the house cannot cope with heating the incoming air. The power of the heaters is selected in strict accordance with the volume of the room and the operating performance of the ventilation system. However, in some devices, heating elements only protect the heat exchanger from freezing and do not affect the temperature of the incoming air.

Water heater elements are more economical. This is explained by the fact that the coolant that moves along the copper coil enters it from the heating system of the house. The coil heats the plates, which, in turn, give off heat to the air flow. The water heater regulation system is represented by a three-way valve that opens and closes the water supply, a throttle valve that reduces or increases its speed, and mixing unit regulating temperature. Water heaters are installed in an air duct system with a rectangular or square cross-section.

Electric heaters are often installed on air ducts with round, and their heating element is a spiral. For correct and efficient work spiral heater, the air flow speed should be greater than or equal to 2 m/s, the air temperature should be 0-30 degrees, and the humidity of the passing masses should not exceed 80%. All electric heaters are equipped with an operation timer and a thermal relay that turns off the device if it overheats.

In addition to the standard set of elements, at the consumer’s request, air ionizers and humidifiers are installed in recuperators, and the most modern models are equipped with an electronic control unit and a function for programming the operating mode, depending on external and internal conditions. The instrument panels are aesthetically pleasing appearance, allowing recuperators to fit organically into the ventilation system and not disturb the harmony of the room.

Principle of operation

In order to better understand how the recuperative system works, you should refer to the translation of the word “recuperator”. Literally it means “return of used”, in this context – heat exchange. In ventilation systems, the recuperator takes heat from the air leaving the room and transfers it to incoming air flows. Temperature difference in different directions air jets can reach 50 degrees. IN summer time The device works in reverse and cools the air coming from the street to the temperature of the outlet. On average, the efficiency of devices is 65%, which allows rational use of energy resources and significant savings on electricity.

In practice, heat exchange in a recuperator looks like this: forced ventilation drives an excess volume of air into the room, as a result of which contaminated masses are forced to leave the room through the exhaust duct. Coming out warm air passes through the heat exchanger, heating the walls of the structure. At the same time, a flow of cold air moves towards it, which takes away the heat received by the heat exchanger without mixing with the exhaust flows.

However, cooling the air leaving the room leads to the formation of condensation. If the fans work well, imparting high speed to the air masses, the condensate does not have time to fall onto the walls of the device and goes out into the street along with the air stream. But if the air speed was not high enough, then water begins to accumulate inside the device. For these purposes, the design of the recuperator includes a tray, which is located at a slight inclination towards the drain hole.

Through the drain hole, water enters a closed tank, which is installed on the side of the room. This is dictated by the fact that accumulated water can freeze the outflow channels and the condensate will have nowhere to drain. It is not recommended to use collected water for humidifiers: the liquid may contain a large number of pathogenic microorganisms, and therefore must be poured into the sewer system.

However, if ice still forms from condensation, it is recommended to install additional equipment– bypass. This device is made in the form of a bypass channel through which supply air will enter the room. As a result, the heat exchanger does not heat the incoming flows, but spends its heat exclusively on melting the ice. The incoming air, in turn, is heated by a heater, which turns on synchronously with the bypass. After all the ice has been melted and the water has been discharged into the storage tank, the bypass is turned off and the recuperator begins to operate normally.

In addition to installing a bypass, hygroscopic cellulose is used to combat icing. The material is located in special cassettes and absorbs moisture before it has time to fall into condensation. Moisture vapor passes through the cellulose layer and returns to the room with the incoming flow. The advantages of such devices are simple installation, the optional installation of a condensate collector and storage tank. In addition, the operating efficiency of cellulose recuperator cassettes does not depend on external conditions, and the efficiency is more than 80%. The disadvantages include the inability to use in rooms with excess humidity and the high cost of some models.

Types of recuperators

The modern ventilation equipment market represents wide choose recuperators different types, differing from each other both in design and in the method of heat exchange between flows.

Plate models are the simplest and most common type of recuperator, characterized by low cost and long service life. The heat exchanger of the models consists of thin aluminum plates, which have high thermal conductivity and significantly increase the efficiency of the devices, which in plate models can reach 90%. High efficiency indicators are due to the peculiarity of the structure of the heat exchanger, the plates in which are located in such a way that both flows, alternating, pass between them at an angle of 90 degrees to each other. The sequence of passing warm and cold jets became possible thanks to bending the edges on the plates and sealing the connections using polyester resins. In addition to aluminum, alloys of copper and brass, as well as polymer hydrophobic plastics, are used to produce plates. However, in addition to advantages, plate recuperators also have their own weak sides. The downside of the models is the high risk of condensation and ice formation, which is due to the plates being too close to each other.

Rotary models consist of a housing inside which a cylindrical rotor consisting of profiled plates rotates. During rotation of the rotor, heat is transferred from the outgoing flows to the incoming ones, as a result of which a slight mixing of the masses is observed. And although the mixing rate is not critical and usually does not exceed 7%, such models are not used in children's and medical institutions. The level of air mass recovery depends entirely on the rotor rotation speed, which is set in manual mode. The efficiency of rotary models is 75-90%, the risk of ice formation is minimal. The latter is due to the fact that most of the moisture is retained in the drum and then evaporates. The disadvantages include difficulty in maintenance, high noise load, which is due to the presence of moving mechanisms, as well as the size of the device, the impossibility of installing on a wall and the likelihood of the spread of odors and dust during operation.

Chamber models consist of two chambers, between which there is a common damper. After warming up, it begins to turn and let cold air into warm chamber. Then the heated air goes into the room, the damper closes and the process repeats again. However, the chamber recuperator has not gained wide popularity. This is due to the fact that the damper is not able to ensure complete sealing of the chambers, so the air flows are mixed.

Tubular models consist of a large number of tubes containing freon. During the heating process from the outgoing flows, the gas rises to the upper sections of the tubes and heats the incoming flows. After heat transfer occurs, freon takes on a liquid form and flows into the lower sections of the tubes. The advantages of tubular heat exchangers include a fairly high efficiency, reaching 70%, the absence of moving elements, the absence of hum during operation, small sizes And long term services. The disadvantages are the large weight of the models, which is due to the presence of metal pipes in the design.

Models with intermediate coolant consist of two separate air ducts passing through a heat exchanger filled with a water-glycol solution. As a result of passing through the heating unit, the exhaust air transfers heat to the coolant, which, in turn, heats the incoming flow. The advantages of the model include its wear resistance, due to the absence of moving parts, and among the disadvantages are low efficiency, reaching only 60%, and a predisposition to condensation formation.

How to choose?

Thanks to the wide variety of recuperators presented to consumers, choosing the right model will not be difficult. Moreover, each type of device has its own narrow specialization and recommended installation location. So, when purchasing a device for an apartment or private house, it is better to choose a classic plate model with aluminum plates. Such devices do not require maintenance, do not require regular maintenance and have a long service life.

This model is perfect for use in an apartment building. This is due to the low noise level during its operation and compact dimensions. Tubular standard models have also proven themselves well for private use: they are small in size and do not buzz. However, the cost of such recuperators is slightly higher than the cost of plate products, so the choice of device depends on the financial capabilities and personal preferences of the owners.

When choosing a model for a production workshop, non-food warehouse or underground parking lot, you should choose rotary devices. Such devices have great power and high performance, which is one of the main criteria for working at large areas. Recuperators with intermediate coolant have also proven themselves well, but due to their low efficiency they are not as in demand as drum units.

An important factor when choosing a device is its price. Yes, the most budget options plate heat exchangers can be purchased for 27,000 rubles, while a powerful rotary heat recovery unit with additional fans and a built-in filtration system will cost about 250,000 rubles.

Design and calculation examples

In order not to make a mistake when choosing a recuperator, you should calculate the efficiency and operating efficiency of the device. To calculate the efficiency, use the following formula: K = (Tp - Tn) / (Tv - Tn), where Tp denotes the temperature of the incoming flow, Tn - outside temperature, and TV – room temperature. Next, you need to compare your value with the maximum possible efficiency indicator of the purchased device. Typically this value is specified in technical passport model or other accompanying documentation. However, when comparing the desired efficiency and that indicated in the passport, you should remember that in fact this coefficient will be slightly lower than stated in the document.

Knowing the efficiency of a particular model, you can calculate its effectiveness. This can be done using the following formula: E (W) = 0.36xPxKx (Tv - Tn), where P will denote air flow and is measured in m3/h. After all the calculations have been made, you should compare the costs of purchasing a recuperator with its efficiency, converted into monetary equivalent. If the purchase justifies itself, you can safely purchase the device. Otherwise, you should think about alternative methods heating the incoming air or installing a number of simpler devices.

At independent design device, it should be taken into account that maximum efficiency Counterflow devices have heat exchange capabilities. They are followed by cross-precision, and on last place unidirectional air ducts are located. In addition, how intense the heat exchange will be directly depends on the quality of the material, the thickness of the dividing partitions, and also on how long the air masses will remain inside the device.

Installation details

Assembly and installation of the recovery unit can be carried out independently. In the simplest way homemade device is a coaxial recuperator. To make it, take a two-meter plastic pipe for a sewer with a cross-section of 16 cm and an aluminum air corrugation 4 m long, the diameter of which should be 100 mm. Adapters-splitters are put on the ends of the large pipe, with the help of which the device will be connected to the air duct, and the corrugation is placed inside, twisting it in a spiral. The recuperator is connected to ventilation system in such a way that warm air is driven through the corrugation, and cold air goes through the plastic pipe.

As a result of this design, mixing of flows does not occur, and the street air has time to warm up while moving inside the pipe. To improve the performance of the device, you can combine it with a ground heat exchanger. During testing, such a recuperator gives good results. So, with an external temperature of -7 degrees and an internal temperature of 24 degrees, the productivity of the device was about 270 cubic meters per hour, and the temperature of the incoming air corresponded to 19 degrees. average cost homemade model– 5 thousand rubles.

At self-production When installing a recuperator, it should be remembered that the longer the heat exchanger is, the higher the efficiency of the installation. Therefore, experienced craftsmen recommend assembling a recuperator from four sections of 2 m each, having carried out preliminary thermal insulation of all pipes. The problem of condensate drainage can be solved by installing a fitting for draining water, and placing the device itself at a slightly inclined angle.