Which gas boiler to choose for a private house and apartment

The cross-section of the core is one of the main values ​​that allow you to correctly perform electrical wiring, taking into account the total load on the network.

Knowing what wire cross-section is needed for 6 kW, you can easily choose the optimal cable product in terms of values.

Conductor material

A competent choice of material for electrical wiring is not only a matter of an affordable price, but also a guarantee of uninterrupted "delivery" of electricity, as well as safety, fire resistance and reliability during operation.

Currently, about three hundred brands and several thousand varieties of the conductor are manufactured, differing in the type of material and other technical characteristics.

Aluminum

Aluminum is a soft and light, silvery-white metal widely used in the manufacture of cable products. The most significant advantages of aluminum wiring include:

• light weight of the material, which is especially important if it is necessary to install electrical transmission lines over several kilometers;
• the cost of a high-quality cable product available to a wide range of consumers;
• resistance to oxidation under the negative influence of open air and atmospheric phenomena;
• the presence of a protective layer that occurs on aluminum during operation.

Aluminum is not devoid of some drawbacks that limit the scope of use of wires of this type. The disadvantages of the material include a high level of resistivity and a predisposition to heating with weakening of contact. The film formed on the surface of aluminum reduces the current conductivity, and the metal itself, as a result of frequent overheating, becomes excessively brittle.

As the practice of using aluminum electrical wiring shows, the standard service life is about a quarter of a century, after which it is imperative to replace such a network.

Copper

Wiring in residential or industrial buildings most often involves the installation of stranded copper wires.
VVG cable products with double PVC insulation have proven themselves very well.

Also, experts recommend paying attention to copper conductors in rubber KG insulation.

This option is characterized by good flexibility and ease of use.

Copper wires are much more expensive than aluminum cables, but such wiring is more reliable and much more durable. In addition, the advantages of copper wires include a high level of strength and softness, which minimizes the risk of breakage at bends and contact joints, resistance to harmful corrosive changes, and excellent current conductivity.

VBbShv copper armored cable products are characterized by double PVC insulation and fire resistance, due to which such wiring is in great demand in outdoor work.

What wire cross-section is needed for a 6 kW load?

In order to correctly determine the cross-section of the conductor, it is necessary to calculate the total power of all electrical devices in use.

The full performance of a significant part of household appliances will require the use of a wire that can withstand a load of 6 kW or more.

In this case, the best option would be to use a copper round wire with a cross section of at least 2.5 mm and double insulation.

Also, in conditions of such power indicators, it is allowed to perform work on the basis of a copper round wire in the form of twisted cores and double insulation.

The presence of aluminum wiring in the household, in order to ensure power indicators at the level of 6 kW, will require the installation of an aluminum flat wire with a cross section of 4.0 mm with single insulation.

A lot of outlets are required in the kitchen, as there can be a lot of equipment. Consider the options for placing outlets in the kitchen for ease of use.

You can see the wired switch connection diagram here.

You will find information on the purpose and importance of protective grounding in this article.

Selection of the machine for the rated current

The considered formulas are widely used in the calculations of the input circuit breaker. Applying one of them - I = P / 209 with a load P of 1 kW, the current for a single-phase network is 1000 W / 209 = 4.78 A. The result can be rounded up to 5 A, since the real voltage in the network is not always corresponds to 220 V.

Thus, the resulting current strength is 5 A per 1 kW of load. That is, a device with a power of more than 1 kW cannot be connected, for example, to an extension cord marked 5 A, since it is not designed for higher currents.

Circuit breakers have their own current rating. Based on this, it is easy to determine the load that they are able to withstand. To simplify calculations, there is a table. An automatic machine with a nominal value of 6 A corresponds to a power of 1.2 kW, 8 A - 1.6 kW, 10 A - 2 kW, 16 A - 3.2 kW, 20 A - 4 kW, 25 A - 5 kW, 32 A - 6, 4 kW, 40 A - 8 kW, 50 A - 10 kW, 63 A - 12.6 kW, 80 A - 16 kW, 100 A - 20 kW. Based on the same ratings, the machine is calculated for power at 380v.

Criterias of choice

The main characteristics that you should pay attention to when choosing a conductor are represented by the material of the cores and their cross-section, design, thickness of the core insulation and sheath.

A quality cable product must be marked and certified.

The most important technical characteristics of the electric wire for a load of 6 kw:

• Durability. Single-insulated cable products have been in operation for about 15 years, and if double-insulated, they have been in operation for a quarter of a century.
• Oxidation stability. Aluminum belongs to metals that interact very actively with oxygen, which is accompanied by the formation of a thin film on the surface, which worsens the current conductivity. To isolate the contacts, special terminal blocks with a conductive paste are used.
• Strength indicators. The copper cable product is capable of reusable bend / unbend mode. Copper wires can withstand a little less than a hundred of such modes, and aluminum ones - about ten.
• Resistivity level. This indicator for copper cable products is 0.018 Ohm * sq.mm / m, and aluminum wires have a resistance of 0.028 Ohm * sq.mm / m.

Equally important is the ease of self-assembly. In this regard, copper wires are more convenient, since they do not require the use of special elements in the form of an end piece, terminal block or bolted connection.

It should be remembered that copper cable products with a cross section of 2.5 mm2 are rated for 27 A, while the thickness of the aluminum wiring should not be less than 4.0 mm2.

Principles of calculating the machine for the cable section

The calculations of a 3-phase difavtomat are carried out based on the cable cross-section. For the 25 A model, you will need to refer to the table.

Wire section, mm2	Permissible load current for cable material
	Copper	Aluminum
0,75	11	8
1	15	11
1,5	17	13
2,5	25	19
4	35	28

The 25 Ampere version can be used to protect the wiring or installed on the input.

For example, a copper wire with a cross-section of 1.5 mm2 with an allowable load current of 19 A is used for wiring. To prevent the cable from heating up, you will need to select a lower value - 16 A.

Determination of the dependence of power on the section by the formula

Selection table for cable cross-section depending on power

If the cable cross-section is unknown, you can use the formula:

Icalc = P / Unom, where:

• Icalc - rated current,
• P is the power of the devices,
• Unom - voltage rating.

As an example, you can calculate an automatic machine that will need to be installed on a boiler with a load of 3 kW and a network voltage of 220 V:

1. Convert 3 kW to Watts - 3x1000 = 3000.
2. Divide by voltage: 3000/220 = 13.636.
3. Round off the rated current to 14 A.

Depending on the environmental conditions and the method of laying the cable, it is necessary to take into account the correction factor for the 220 V network. The average value is 5 A. It will need to be added to the calculated current indicator Icalc = 14 + 5 = 19 A. Further, according to the PUE table, the cross-section of the copper wire is selected.

Section, mm2	Load current, A
	Single core cable				Two-core cable	Three-core cable
	Single wire	2 wires together	3 wires together	4 wires together	Single styling	Single styling
1	17	16	15	14	15	14
1,5	23	19	17	16	18	15
2,5	30	27	25	25	25	21
4	41	38	35	30	32	27
6	50	46	42	40	40	34

Sectional area calculation

A competent choice of wire section allows you to ensure the reliability and safety of electrical wiring. The main indicator on which the standard calculation of the area of ​​a conductor or its cross-section is based is the level of the long-term permissible current value.

The calculation of the wire cross-section in accordance with the load involves the summation of the power of all connected electrical appliances with the expression of power in the same units of measurement - W or kW.

According to the calculations obtained, the optimal cross-section indicators are determined according to tabular data for 6 kW:

• 27 A and 220 V - the diameter of the copper conductor is 2.26 mm with a cross section of 4.0 mm2;
• 15 A and 380 V - the diameter of the copper conductor is 1.38 mm with a cross section of 1.5 mm2;
• 26 A and 220 V - the diameter of the aluminum conductor is 2.76 mm with a cross section of 6.0 mm2;
• 16 A and 380 V - the diameter of the aluminum conductor is 1.78 mm with a cross section of 2.5 mm2.

When choosing a cross-section, it must be remembered that the inconsistency of the core area with current loads can provoke overheating, melting of the insulation, short circuit and a fire situation.

The principle of operation and purpose of the circuit breaker

Circuit breaker characteristics

The three-phase circuit breaker is activated by an electromagnetic splitter in the event of a line fault. The principle of operation of the element consists in heating the bimetallic plate at the time of increasing the current rating and turning off the voltage.

The fuse does not allow short-circuit and overcurrent with indicators higher than the calculated ones to affect the wiring. Without it, the cable cores are heated to the melting temperature, which leads to the ignition of the insulating layer. For this reason, it is important to know if the network can withstand the voltage.

Matching the wires to the load

The problem is typical for old buildings, in which new machines, a meter, and an RCD are installed on the existing line. The machines are matched to the total power of the equipment, but sometimes they do not work - the cable smokes or burns.

For example, the veins of an old cable with a cross-section of 1.5 mm2 have a current limit of 19 A. When the equipment is turned on at a time with a total current of 22.7 A, only a modification of 25 Amperes will provide protection.

The wires will heat up, but the switch will remain on until the insulation melts. A complete replacement of the wiring with a copper cable with a cross section of 2.5 mm2 can prevent a fire.

Protection of the weakest section of the cabling

Based on clause 3.1.4 of the PUE, the task of the automatic device is to prevent overloading at the weakest link in the electrical circuit. Its rated current is matched to the current of the connected household appliances.

If the machine is not selected correctly, the unprotected area will cause a fire.

CHOICE OF ELECTRIC BOILER FOR HOME

To choose the right electric boiler for heating a house, you need to take into account many factors, including the material and thickness of the walls, the glazing area, the air temperature outside in winter in your area, the height of the ceilings and many others.

Often, such calculations are entrusted to specialists who make a house heating project, taking into account all the necessary characteristics of the system, including the type and power of the electric boiler, often even a certain specific model or several to choose from is offered.

When independently choosing the required power of an electric boiler for heating, it is usually customary to use the following formula:

1 kW of power is required for heating 10 sq.m. at home.

The rule is relevant for single-circuit boilers used only for heating rooms, but if there are two circuits, one of which is used to heat water in the hot water supply system, the calculation must be changed, the same should be done with a ceiling height above the standard 2.5-2.7 m and in some other cases.

So, in our example, house area 120 sq.m. therefore, an electric boiler with a capacity of 12 kW was chosen, model ZOTA - 12 series "Econom".

After all the theoretical calculations, let's see if this boiler is suitable for the permitted (allocated) power for the house. We have this 15kW, with a three-phase input, respectively, in terms of power, a 12kW boiler suits us.

Of course, if the electric boiler operates at the maximum of its capabilities, only 3 kW of the allowed ones will remain for the rest of the consumers at home, which is not enough. But since the boiler will be a backup, and will only turn on when the main gas boiler is faulty, such a decision was made acceptable.

Automation design

All the internal equipment of automation for gas boilers, which is used when installing a heating system, can be divided into categories, there are only two of them:

• the first category is those devices that ensure the safe and correct operation of all boiler equipment;
• the second category is those devices that can significantly increase the comfort when using the boiler.

Safety automation for gas boilers consists of the following elements:

1. the module that provides control over the flame. It consists of a thermocouple and a gas valve acting as an electromagnetic valve and shutting off the fuel supply;
2. also there is a device that protects the system from overheating and maintains the required temperature regime, the thermostat takes on this task. He independently, if necessary, turns on or off the boiler, at those moments when the temperature approaches the specified peak levels;
3. the sensor that controls traction. This device works on the basis of vibrations, depending on how the position of the bimetallic plate changes. It, in turn, is connected to a gas valve, which cuts off the gas supply to the burner;
4. there is also a safety valve that can be responsible for dumping excess coolant (for example, air or water) in the circuit. Some manufacturers immediately provide an element to help shed excess.

The devices that are included in the security system are divided into the following types:

• mechanical;
• and powered by a power source.

They work either under the influence of a drive and the controller that controls them, or they are coordinated electronically.

Automation provides the user with more comfortable functionality, which is additional:

1. automatic ignition of the burner;
2. modulation of flame intensity;
3. self-diagnostic functions.

But this functionality is not limited to the internal design of the models.

Some design features of the models have such additions as sending data and processing them by an electronic system on equipment equipped with controllers and microprocessors. Then the following situation occurs: based on the data received, the controller itself begins to adjust the commands that activate the drives of the machine's system.

The mechanical automation of a gas boiler also requires detailed consideration.

1. The gas valve is completely closed and the heating unit is inoperative.
2. In order to start a mechanical gas boiler, a washer is squeezed out, which starts the fuel and opens the valve.
3. The valve opened under the influence of the washer, and gas flowed to the igniter.
4. Ignition is in progress.
5. After that, the thermocouple gradually warms up.
6. The electric shut-off magnet is energized to ensure its open position so that fuel access is not obstructed.
7. The mechanical rotation of the washer regulates the required power of the gas heating device, and the fuel in the required volume and with the required pressure fits onto the burner itself. The fuel ignites, and the boiler plant begins to exist in operating mode.
8. And then this process is controlled by a thermostat.

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ELECTRIC WIRING FOR ELECTRIC BOILER

Now that the required boiler power for heating the house has been determined and a specific model has been selected, we make electrical wiring for it.

To do this, we will use the data from the article "Diagram of connecting an electric boiler to the mains", which shows in detail all the main schemes for connecting any electric boilers to electricity, and in addition, recommendations are given on the choice of the cable section and the circuit breaker.

Our "ZOTA - 12" boiler is three-phase, designed to operate in a 380 V network, this information is reflected in the documentation for the boiler, in addition, the power consumption indirectly indicates this, 220 V boilers are rarely more than 8 kW.

In addition, you can look at the number of installed heating elements (Tubular electric heaters) and their connection diagram. For boilers for 380 V, at least three are usually installed.

Possible schemes for connecting the boiler to a three-phase network, at least two, one is used when the heating elements are designed for 220 V and are connected "star", And the other is used in cases when the heating elements of the electric boiler are designed for a voltage of 380 V and are connected"triangle».

There are several ways to determine which connection diagram is suitable for your boiler, the simplest is to refer to the diagram in the documentation, for the ZOTA-12 boiler it is located on the back of the control panel and looks like this:

As you can see, this boiler has a "Star" connection scheme, which means that the heating elements are designed for a voltage of 220 V. This is also confirmed by a direct examination of the contacts for connecting wires to the heating elements, they are also prepared for star connection. Their contacts for connecting the neutral conductor are connected with a jumper, phases will be connected to the free contacts in turn, each with its own.

Hence it follows that the scheme for connecting a three-phase electric boiler to electricity with heating elements for 220 V, a "star" connection is suitable for us.

It remains to choose the required cable cross-section for the electric boiler in terms of power and the rating of the circuit breaker... To do this, look at the table from the article:

Whence it follows that with a route length of up to 50 meters, we need to lay a 12 kW power up to a three-phase electric boiler, a VVGngLS five-core cable with a conductor cross-section of 4 sq. Mm. (VVGngLS 5 × 4kv.mm.) And supply a 25A differential circuit breaker, or a circuit breaker (AB) for 25 amperes - C25 and a residual current device (RCD) for 32A.

Now, having chosen an electric boiler and having decided on the connection diagram and wiring parameters, you can install it, after which we will continue to connect to electricity.

The connection of the ZOTA electric boiler to the mains is described in the next part of the article - HERE!

Power cable for an electric heating boiler: the choice of section and brand

Introduction

In the article "Connecting an electric boiler" I touched on the topic of choosing a cross-section of a power cable for an electric boiler. Here I will continue this topic and tell you in more detail how to power an electric heating boiler in all its parameters.

General connection rules

Let me remind you the general rules for connecting electric boilers:

• Boilers up to 3.5 kW can be connected to the power supply through the socket.
• Boilers up to 7 kW must be connected only through a separate circuit breaker with the installation of an RCD.
• Boilers 7-10 kW, must be connected from 380 Volts, only through a separate circuit breaker.
• Boilers over 10 kW require a separate installation permit.

No wires, just cables?

The first question, which usually remains behind the scenes, is why you need to use a cable to connect an electric boiler, and not separate wires?

In the theory of electrical installation and regulations, there are no prohibitions to use wires selected in cross-section and protected in accordance with all the rules to power electrical installations.

Another thing is that it is more difficult to make electrical wiring with wires, or, more correctly, it is more inconvenient than with a cable. Wires cannot be laid without protection. For their laying, it is imperative that you use metal or electrical plastic pipes. Tightening wires into pipes requires some skills and special tools.

Unlike wires, cable lines can be laid: PUE 2.3.33: open, in ducts or pipes, including pipes laid in floors and ceilings, ... and double floors.

On the other hand, my house is not an industrial production and for the fire safety of a wooden house, I would protect the cable with a metal pipe, especially if the boiler has a large capacity.

Connection of power and cable cross-section

There is a direct relationship between the power of the connected electrical equipment and the cross-section used to power the conductors (cable or wires).

Note: Speaking about the cross-section of the cable, we are talking about the cross-section of the cable cores included in its structure.

The essence of this connection is as follows. Each conductor is capable of conducting electric current up to a certain value without heating. The larger the cross-section of the conductor, the more current it can conduct.

Since there is a mathematical relationship between the current strength and the power of the connected device, that is, a mathematical relationship between the cross-section of the cable cores and the power, in our case, of an electric heating boiler.

This dependence is called "the choice of conductors for heating" (PUE-6, chapter 1.3.). You do not need to count anything, you can use the PUE tables.

This is for the wires

This is for the cables

Using tables is not difficult.

• According to the maximum power of the boiler, consider the load current (divide the power by 220 or 380 V);
• Look for the load current in the table;
• See the permissible cross-section of the conductors;
• If necessary, round up the section.

To check, we use table 3 (pue 1.3.8).

• Boiler 10kW at 380 volts. Load current 26.3 Amperes (round up to 27 Amperes). We look at the table. We need a cable with a cross section of 2.5 sq. mm in copper.
• The same boiler for 220 volts. Load current 45.5 Amperes (46 Amperes). We look at the table. We need a cable with a cross section of 6 sq. mm in copper.
• For cables with aluminum conductors, you need to select the cross-section of the conductors one step more than for copper, that is, for a 10 kW boiler, you need 4 mm and 10 mm.

Number of cores of the boiler supply cable

To connect the power supply of 220 volt electric heating boilers, you need a three-core cable with the purpose of the cores: phase (L), working zero (N), ground wire (PE)

To connect the power supply of 380 volt electric heating boilers, you need a five-core cable with the purpose of the cores: phase (L1, L2, L3), working zero (N), ground wire (PE).

Copper only

It is worth noting that the latest trends observed in the industry are likely to be canceled, the ban on the use of aluminum cable products in the electrical installation of residential buildings and the use of aluminum in electrical installation will resume.

However, copper cables are more reliable and for reliable connection of the electric boiler recommend using cable with solid copper conductors.

Conductor of grounding

Earthing electric boiler necessarily... For the boiler grounding, a separate cable core or a separate wire must be used, laid with other supply wires. The boiler earth conductor is connected to the main earth bus of the house.

Cable marking

Cables are marked with letters and numbers. Letters denote an aluminum core — core insulation material — cable sheaths — cable property

For example:

• VVG - cable in vinyl insulation, vinyl sheath with flexible copper conductors;
• AVVGA - the same, only with aluminum conductors.
• VVGng is a copper cable with a flame retardant characteristic.
• NUM is an excellent imported triple insulated cable. It is very hard, therefore it is difficult to install.
• PVA cable (connecting wire) with stranded conductors, it is better not to use it in stationary wiring.

I recommend using the VVGng cable to power the electric boiler.

Professional advice

As a conclusion, advice from professionals:

• Any boiler connection must be based on the recommendations given in the boiler operation manual;
• The power cable for the electric heating boiler must not be broken. For reliable operation, the power supply to the boiler must be allocated to a separate electrical group;
• It is reasonable to consider the possibility of increasing the obtained calculated value of the cable core cross-sections by one step. I believe that for a heating boiler you need to take a minimum cable cross-section for copper of 4 sq. mm.

More articles

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Source: https://obotoplenii.ru/elektricheskie-kotly/kabel-pitaniya-dlya-elektricheskogo-kotla-otopleniya

Power of electric heating boilers

The relative advantage of an electric heating boiler is a wide power range of various boilers and a stepwise power regulator for each boiler separately.

There are two power ranges for electric boilers.

1. Range from 4 to 18 kilowatts;
2. From 22 to 60 kilowatts.

The indicated boiler ranges assumes:

• For boilers 4-8 kW, two switching stages;
• Boilers 8-18 kW three switching stages;
• For boilers 22-60 kW, four or three switching stages.

Stepwise switching of power allows you to quickly integrate power with the temperature "overboard", this saves electricity consumption and reduces the cost of heating. Also, do not forget that an electric boiler does not require operating costs (purchase and delivery of fuel, preparation of a special room) and practically does not require maintenance costs. The form of use is very simple: connect it correctly and use it.

The principle of operation of an electric heating boiler

The general principle of an electric heating boiler is not complicated. In fact, this is a large electric kettle, where powerful heating elements heat the coolant in the heating system. Of course, electric boiler heating devices are much more complicated. It has both an automation system and a remote control system and a temperature control system and a circulation pump.

Despite the design, type and brand of the electric boiler, they have one unifying type of work, the electric boiler must be correctly connected to the power supply.

Correct connection of an electric heating boiler

By design, an electric heating boiler is a metal cabinet. Boiler mounting type is hinged. There is a special hole for entering the electric power cable into the boiler, and all the electrical equipment of the boiler is located in the electric cabinet of the boiler.

Choosing an electric cable for a heating boiler

There are no special calculations and "pitfalls" in connecting an electric heating boiler to the power supply. It must be connected like any other household appliance in terms of power consumption and according to the standards for laying electrical wiring in the house.

Rules for connecting an electric heating boiler

To connect an electric heating boiler, a separate wiring line (a separate group) is planned with its own automatic protection. A circuit breaker is used to protect the electrical cable of the boiler. The rating and type of the circuit breaker is selected according to the power of the boiler, or rather, according to the power of the heating elements included in the design of the boiler.

Heating boiler wiring

The power supply of the heating boiler depends on its design and the connection diagram of the heating elements. For the consumer, all the necessary data are indicated in the passport for the boiler.

Power circuit of an electric heating boiler with three heating elements

The heating boiler can be connected with a five-core or four-core cable. We look at the cross-sections of the cable cores in the passport for the boiler and in the table below.

As you can see in table 1, for the power supply of an average boiler, cables with a cross-section of conductors from 2.5 mm (4 kW) to 6 mm (18 kW) are needed.

Table 1

In table 2 we see cable cross-sections for more powerful heating boilers. As you can see, for powerful heating boilers with a thermal power of 60 kW, you need an electric cable with 25 mm cores and a safety circuit breaker in front of the boiler of 100 Amperes.

table 2

Let's orientate ourselves and see a simple thermal calculation for the house. I will not show the calculation with heat losses, I will not even take into account the height of the ceiling. The simple calculation is very simple.

To heat one square meter of the house, you need 0.1 kW of the boiler's thermal power. That is, for a house with an area of ​​100 sq. meters you need a boiler of 10 kW of thermal power; for a house of 300 sq. meters you need a boiler of 30 kW. And this means that even for a house with an area larger than the average, an electric cable with a cross-section of no more than 10 mm will be needed.

Note: Speaking about the cross-sections of the cable cores we mean only copper cores, by the core cross-section we mean the cross-sectional area of ​​the cable core cross-section specified in the cable passport.

Working current

This is the indicator of the maximum value, upon exceeding which the circuit will be automatically disconnected. When choosing, you need to focus on the total load that falls on the electrical wiring in the house, and at the same time on the cross-section of the laid cable.

To calculate the load, the power of all electrical appliances in the house is summed up, and then multiplied by the coefficient of simultaneity (simultaneous operation of the equipment), which is 0.7 or 70%. The resulting number is divided by 220 (mains voltage). This value will be the rated current that the introductory machine for a private house should have.

For example, if the total load is 8000 W, then taking into account the factor of 0.7 it will be 5600 W. Then 5600/220 and 25.45 A is obtained. Since there are no switches for 26 A, 25 A is chosen, which is designed for 25 × 220 = 5500 W.

Laying the electrical cable for the heating boiler

The laying of the electrical cable is done according to the wiring regulations in accordance with the design of the house. For a wooden house in pipes or open, for a stone house in boxes or hidden.

The electric boiler is not connected through the socket, the power cable is led into the boiler through the factory connection holes and connected to the circuit breaker or terminals installed on the boiler body in the electrical cabinet.

Important! Any twisting, soldering, welding and other connections not provided for by the boiler design are prohibited.

Connecting the heating boiler to the power supply

IN five-wire electrical network the phase power conductors of the cable are connected to the input terminals of the main circuit breaker of the boiler. The zero working conductor is connected to the connector marked with the letter "N". The protective conductor of the electrical supply cable is connected to the screw connector, which is indicated by the earth symbol.

Connecting an electric heating boiler in a five-wire system

If a the house has a four-wire network, then the phase conductors are connected in the same way, and the PEN conductor is connected to the screw connector with the earth symbol.In this case, the grounding clamp is connected to the neutral connector N with a PV-1 wire with a minimum cross-section of 2.5 mm2.

Connecting an electric heating boiler in a four-wire system

Note: Most often, the wiring diagram for an electric boiler assembled at the factory is adapted for a five-wire electrical network.

Which machine is suitable for 15 kW

The purpose of the three-phase circuit breaker is overload protection
The purpose of the 3-phase circuit breaker is protection against overcurrents and overloads. The 15 kW modification works in a 380 V network, that is, a 25A device is needed for the input. When choosing, it should be borne in mind that in conditions of short circuits, the current increases and can cause a fire in the wiring.

When choosing a 15 kW machine model for a three-phase load, you will need to take into account the parameters of the permissible voltage and current during a short circuit. It is worth focusing on the calculated indicators of the current of the cable with a minimum cross-section that protects the switch and the rated current of the receiver.

When calculating the input switching machine according to the power parameters in the 380 V network, take into account:

• electric power - actual and additional;
• cable loading intensity;
• availability of free capacity in the design indicator of a residential building;
• remoteness of outbuildings and non-residential premises from the point of cable entry.

In a network of 15 kilowatts with additional power, an ASU device is installed.

Output

The connection of an electric heating boiler is done in compliance with the rules of the PUE. If you read the instructions of any boiler intended for heating a house with electricity, you will see recommendations like "only professionals with the appropriate skills should make the connection ...". This is true. However, the connection itself is not as difficult as, say, a gas boiler. If you follow the PUE (electrical installation rules) and safety precautions when working with electricity, then you can connect the boiler yourself.

© Ehto.ru

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What is the principle of operation of automation

If we take into consideration the principle on which the safety system of the device works, then an unambiguous conclusion will be drawn from this - the main points of the entire structure of the structure are:

• safety valve;
• main valve.

They are responsible for stopping the gas supply to the working chamber. They also open up access to fuel. All automatic equipment for gas boilers is built on this principle.

The difference is observed only in the fact that there are functions that come as additional devices in the operation, which are equipped with automatic adjustment.

That is, the device itself works due to the fact that both valves interact.

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Basically, all systems operate according to the following scheme:

1. The regulator is set to the position required for the temperature to begin to heat the room.
2. A signal is sent to the sensor that the system is working.
3. The shutoff and simulator valves begin to regulate the amount of fuel flow. As a result, the intensity with which the boiler is heated is set.

In order to understand how all these internal processes occur, it is necessary to consider the very design of the automation device for gas boilers.

It is better to dwell on this point in detail, because then the question of which boiler to choose for home gas heating will be more understandable. And it will also be possible to purchase the most efficient model with a high safety threshold.