Connecting a heating cable for heating suburban communications


Combating freezing of external pipelines in a private house during the cold season is an urgent task when introducing water into the house from water supply sources and discharging wastewater. One of the effective options for combating pipe freezing is to connect a heating cable to utilities, in particular, water supply or sewer lines.

The construction market offers a wide range of electrical cable products for heating from both domestic and foreign manufacturers. Modern developments, thanks to feedback, make it possible to regulate the heating temperature of the wire by changing the current consumed. When choosing products, it is important to know the technology for correct installation of electrical cables on various types of pipelines and the required heat transfer power, which is associated not only with electrical parameters, but also with the length of the conductor.

Rice. 1 Complete set of heating cable for water supply

What is and why do you need a heating cable?

The operating principle of any heating cable is quite simple and is no different from all electric heating devices. The technology is based on the resistance of materials to the passage of electric current - the higher it is, the more heat is generated on the heating element. The heating cable is connected to a 220 V alternating voltage network and generates heat when alternating electric current passes through it.

Almost all devices have manual or automatic adjustment, which allows you to change the heating temperature of their core (matrix). In everyday life, electric cable heating systems are widely known called heated floors, in which a zigzag wire in the form of a mat on a mesh is laid under a screed or tile.

A similar device with higher protection against moisture has a heating cable for external pipelines, most often used for the following domestic purposes:

Heating of water supply

When drawing water from a well or well, HDPE (low-density polyethylene) pipes are most often used, which flow from the source into the house through the foundation, and are buried underground at a distance from the surface below the freezing depth of the soil.

In accordance with building regulations, the distance from the ground surface to the point where the water supply pipe is located should be 0.5 m greater than the freezing depth, in some cases the calculated value reaches 2.5 meters. In real conditions, when using a standard caisson well 2 m high, from which a casing pipe extends half a meter, the average depth of the water pipe is 1.5 m, which is not always enough to protect it from freezing.

At the same time, the use of thermal insulation of the pipeline with building materials along the entire length may be ineffective, because the insulation does not heat the working environment, but only increases the time it freezes.

In this case, using an electric cable to heat water inside or on the surface of the pipes is guaranteed to protect the line from freezing, while it is possible to reduce the depth of the water supply underground and make the water supply unfreeze.

Rice. 2 Use of heating cable on roofs and gutters

Heating the wellhead and pipe entry into the house

When a well is located in a caisson pit, the problem of freezing of the external pipeline in the head zone, as well as the equipment and surface pumping station when using it, is relevant. If you use an electrical cable immersed at a shallow depth in a pressure pipe or in one of the sections of water supply located on the surface, the problem of freezing of pipes in a coffered chamber can be easily solved.

Not every house has a strip foundation located below ground level. For example, modern country houses made of blocks or SIP panels are placed on stilts above ground level. Therefore, open entry points of water pipes into the house require insulation, which is provided by using building materials or electrical cables.

Warming up the sewer pipe

If a water pipe can be lowered deep underground to combat freezing, the sewer pipes leaving the house should technologically be located a little closer to the surface. This is due to the fact that for normal sewerage operation it is necessary to maintain a slope depending on the diameter of the pipes. With standard dimensions of 110 mm, the pipeline level should be reduced by 20 mm per linear meter.

It is clear that if the sewer septic tank is located at a great distance, for example 50 m from the house, then the slope will be 1 meter. It should also be taken into account that the sewer pipes must enter the upper point of the septic tank, and if the entry point is located at a great depth, it will be very difficult to assemble a technically workable structure. Therefore, it is important to ensure thermal insulation of sewer pipes, and even better, heating them at the highest point at the exit from the house.

Rice. 3 Heating by connecting a cable to a water outlet

Heating with cable for storm water system

During the cold season, sudden temperature changes cause snow to melt on roofs with periodic freezing of water - as a result, drainpipes become clogged with ice, and icicles form along the perimeter of the drains. Heating cable can be used to combat freezing by laying it on surfaces or inside drainpipes, or by running it down storm drains.

It should be noted that in addition to placement in pipelines, special modifications of cables are produced designed to melt ice and snow on roofs.

Heating of surface pipelines and fittings

When constructing coffered pits, a pipe with a shut-off valve is often installed outside to use water for household purposes in the garden; usually, in warm weather, a hose is connected to it for watering the garden. Sometimes they drill an Abyssinian well and use not a surface pumping station to collect water, but a hand pump through which they pump water using physical effort.

In all these cases, using surface water intake equipment at subzero temperatures, you can heat it with an electric cable connected to an alternating current network, which is mounted on the external surface.

Rice. 4. How to lay the cable for heating gas tanks

Cable heating of gas tanks

With an autonomous gas supply, many owners install gas cylinders outside the house, which must be kept warm for normal operation. In winter, it is convenient to heat them with a two-core electric cable used for working in pipeline systems - unlike a single-core loop for heated floors, it is much easier to install. It is known that many mobile gas tanks on trailers are equipped with a similar gas tank heating system from the manufacturer.

Ground cable heating

The technology can be used by gardeners when growing plants in greenhouses, greenhouses and underground basements in cases where external frosts can damage the crop. In this case, the heating cable protects the root system of plants from damage and warms the air in the area where it is located.

Thermal systems

When heating individual houses with liquid or gaseous fuel, you can use a warm electric cable as an additional heat source to warm up the coolant. It can be placed in a pipeline heating system and turned on at night at reduced electricity consumption rates - this will help save money and reduce the gap between cycles of filling gas tanks with gas or supplies of liquid fuel.

Similarly, you can increase the water temperature in hot water supply systems. On the construction market, modifications of heating electric cables are available for sale in environments with hot coolant.

Rice. 5 Cable heating of external shut-off valves

Additional Tips

Following the manufacturer's recommendations increases the service life of the heating system. It is necessary to periodically inspect the wire located on the surface of the pipe and replace damaged areas. If you intend to install the cable on a rough surface, then heat transfer can be improved by wrapping the pipe with metal tape. It is recommended to purchase ready-made kits from major manufacturers.

Saving on components results in the need to install a new circuit after 2–3 years of operation.

How does a heating cable heating system work?

Heating of pipelines with a heating cable, which is connected to a 220 V AC electrical network, is carried out using two main methods:

1. The cable is placed outside the pipe. This method is used to insulate an already laid highway or sewer pipes, while the wire fits tightly to the outer surface of the pipe. On the construction market, pipes with a ready-made channel for placing a heating cable are sold - this allows to reduce heat losses; also, to save energy, additional insulation of underground pipelines is used with a shell made of foam plastic (penoplex) or polyurethane.

The electric cable is laid along the pipeline; to increase the heating temperature along the entire length or in critical nodes, spiral winding is used.

Rice. 6 Heating diagram for well water supply

2. Heating inside the pipes. The main disadvantage of external insulation with electric cables is low efficiency - most of the heat goes into the environment and additional insulation has to be installed, which leads to higher costs of work.

Therefore, in water lines it is better to lay the heating cable inside the pipes - this applies to water mains. In the sewer system, the presence of foreign objects inside can cause a blockage.

It is not profitable to lay wires located inside pipes along the entire length - the cable is quite expensive and will increase hydraulic losses, reducing the useful cross-section of the pipeline. Therefore, it is more rational to install it in the area of ​​the well head in front of the water supply system and pressure pipe that supplies water to the house. In this case, warm water will prevent freezing in the well, automatic devices and surface pumping station, and heated water will also flow into the water supply system leading to the house.

The main difficulty when installing an electrical cable internally in a pipeline is choosing an installation method and a sealed fitting for connecting it to the pipe when immersing the wire.

Heating cable device

All types of electrical cables have a device, the main components of which are:

  • Lead wires and plug. The heating element is connected to a power cable that comes from the house, therefore, to supply electricity to it, the working core is connected to the electrical cable using special methods that ensure reliable sealing of the joint.
  • A heating element. In a device with a resistive principle of operation, heating is produced due to the high resistance of the core passing inside; in self-regulating modifications, the temperature rises near the plastic matrix located between two current-carrying conductors.
  • Insulation. Protecting exposed electrical wires from the aquatic environment in which the electrical cable is located is the main task in its manufacture, therefore all devices have at least two layers of internal insulation. Also, in its manufacture, to reduce heat losses, they strive to use synthetic materials with the best thermal conductivity. It should be noted that there are two main options for insulation: for placement inside and outside the water supply; in the first case, food-grade outer plastic is used.

Rice. 8 Zone-resistive cable for roofs - design

  • Shield and ground wire. Braided shielding is used in all high-quality cable products; it not only performs protective functions against interference, but also additionally increases the safety of cable use by solving the problems of a grounding wire. The fact is that when connecting, the shielding braid is grounded or connected to the neutral wire, and if the cable is damaged, the current-carrying conductors are likely to come into contact with the screen and the machine will turn off the power supply.
  • Thermal sensor. If heating cables did not have feedback that allows them to regulate the current passing through them and, accordingly, the heating temperature depending on the state of the environment in which they are immersed, their operation would become ineffective and lead to increased energy consumption. In addition, the physical parameters of the heated water-containing medium would go beyond acceptable standards - all this would lead to the impossibility of using the cable for its intended purpose. Therefore, all heating cables are equipped with sensors that allow the current to be automatically changed depending on the temperature of the environment at their location; in self-regulating modifications, the temperature change is associated with the conductivity of the interconductor matrix.

Rice. 9 Resistive two-core heaters for pipes - device

Resistive heating cable

Resistive cables are manufactured in single-core and two-core versions; the first type must be connected at two points and is widely used in modifications for heated floors, where the wire forms a winding zigzag heating circuit and returns back to the starting point.

This option is too inconvenient to be placed on pipelines, so pipe heating systems use a two-core design, that is, the heating circuit passes and returns inside the wire.

The heating core of a resistive cable must have high resistance to electric current, so it is made of a chromium-nickel alloy that has the necessary characteristics. The connection of the supply wires with the braid and the heating core is carried out in a closed sealed coupling; the powered conductors are connected to an automatic control unit, from which a two-wire temperature sensor extends.

Distinctive features of resistor heaters:

  • Slightly lower cost compared to its main competitors - self-regulating electrical cables.
  • A resistive cable is supplied with the thermostat; the system is designed to work only with this product, which has a calculated resistance to electric current - the wire cannot be cut, lengthened or shortened.
  • During installation, it is necessary to have a temperature sensor, which should be located in the area where the cable is located - this complicates its external installation and makes it impossible to use inside pipelines due to the interfering head of the temperature sensor.
  • If the wire is damaged or broken at any point, it must be completely replaced. The exception is specially designed resistive heating cables for deicing roofs and gutters. In their design, current-carrying conductors are connected by a heating coil running inside at many points, so the heater can be lengthened or shortened at the user’s request.
  • The minimum power of most resistive devices is 10 W per linear meter (you can find modifications with a power of 8 W); the maximum value can reach 60 W in zone-resistive modifications to combat roof icing.

Fig. 10 Self-regulating heating cable - operating principle

Self-regulating heating cable

Currently, self-regulating heating cables have practically replaced resistive competitors in the field of pipe heating due to their simple design and ease of connection. Structurally, the cable is made in the form of two conductive cores, between which a temperature-dependent matrix containing finely dispersed graphite powder is placed.

In a cold state, an electric current passes through micrographite contacts from one wire to another, heating the surface of the matrix, and accordingly the wire warms up the environment. As the outside temperature increases, the heating of the matrix increases even more, its material increases in volume as a result of thermal expansion - this leads to an increase in the distance between the conductive graphite grains. The resistance of the electrical circuit increases, the current and heating power drop, the cable cools - thus self-regulation of temperature occurs.

Self-regulating heating cable has the following features:

  • Versatility. Self-regulating cables can be used to heat pipelines inside and outside, roofs and storm drains, in heating system pipes and on various tanks.
  • Economical. Unlike a resistive cable, a self-regulating cable heats up most at the point with the lowest temperature, while current consumption is minimal in warm areas.
  • Ease of installation. The cable consists of two parallel sections of wire with a heating matrix between them; when installing self-regulating heaters, they can be shortened or extended by a significant distance.

Rice. 11 Self-regulating cable device

Nuances of installation work

When the wire is securely fastened inside or outside, it is important to take care of the insulation of the end of the conductor. Experts recommend using heat shrink tubing. This product will perfectly protect the conductors from moisture, which will reduce the risk of short circuits and repair work. We must not forget that the heating part must be connected to the “cold” part.


Connecting wires Source termodar-64.ru

Tips and recommendations from experienced craftsmen:

  • If you use two methods of laying wires inside and outside the pipe at once, you can increase the rate of water heating several times, but this will require additional installation costs.
  • Heating water pipes with a self-regulating heating cable will allow you to ignore warm sections and direct the current to cold places. It is allowed to be cut, so there will be no problems in installation even in hard-to-reach places. The cable length does not affect heat transfer.
  • Resistive wire is half the price, but its service life is much shorter. If a regular two-core cable was installed, you should prepare for the fact that in 5-6 years it will have to be replaced.
  • The braid on the wire serves to ground it. You can skip this stage of work, but it is better to become familiar with grounding methods.

Heating cable power for water supply

It is quite difficult for a user even with an engineering education to determine exactly how much power is required for the effective operation of a resistive or self-regulating heating cable - the calculation formulas are too cumbersome and the calculation takes a long time. The task is only possible for qualified specialists, and its solution in everyday life is carried out by manufacturers and distributors of heating electrical cable products.

It has been experimentally established that for heating pipelines, an electric cable with a power of 10 W per linear meter is sufficient when using a 50 mm shell made of foam plastic or penoplex insulation and a pipe diameter of no more than 50 mm; the ambient temperature should not fall below -30º C.

For household water pipes made of HDPE with a standard diameter of one or one and a half inches, the optimal thickness of the insulation shell is 30 mm; when using sewerage, you will need a higher power cable of about 20 W per meter or spiral winding, with an insulation thickness of 50 mm.

For external heating, the power of the heating cable is linearly related to the ambient temperature and the state of the heated elements; for pipelines, its average value is about 20 W per linear meter; on roofs and in drainpipes, powerful resistive electric cables of up to 60 W per linear meter are used.

Rice. 12 Connection diagram for heating cable of single-core and double-core design

The pipe is frozen - the reason

All heating cables operate normally only if the voltage corresponds to the nominal values ​​specified in the product data sheet. If you have problems with the voltage at home, and it rarely rises above 180-190V, then do not be surprised that the selected power may not be enough, and one day the pipe will freeze.

Why does the cable itself sometimes die? Self-regulators are afraid of frequent switching on and off. They usually have a finite number of such switchings.

They also fail due to improper connection to the 220V power cable. Poor quality end seal and moisture getting into the shell are another reason.

To seal the food cable into the pipe, seals are used. When choosing them, pay attention to the shape of the cable. They are round or flat.

They use their own seal for a specific brand. If you choose the wrong one, you will get a leak.

Diagram and connection to the heating cable network

Any heating cable is connected to a temperature control unit, on which the contacts for connecting the temperature sensor, heater and external electrical network are marked; if there are no markings on the case, you can always use the connection instructions.

The procedure for connecting a cable to a box is not particularly difficult; the task is made easier by knowing the color markings: the blue and brown wires are connected to the electrical network, the yellow-green wire is connected to the neutral or ground bus.

Manufacturers

Ensto stands out in the domestic electrical products market, offering customers a wide range of self-regulating cables of various lengths and modifications. At the customer's request, the wire can be cut into lengths.

Among the more budget-friendly cable options, which are not inferior in quality to previous products, we can highlight the products of the Devi company.

Basic methods and types of laying

When deciding how to properly lay a cable in a pipeline, they take into account its purpose, location, presence of additional insulation, and heater power. When laying, linear and spiral installation is used, and the cable is placed inside or on external sections of the water supply system. The main condition for installation is the prohibition of the use of metal materials and polymer adhesive tapes for fastening the cable, and its intersection with contacting surfaces is also unacceptable.

Rice. 13 Linear installation and connection of the heating cable

Linear installation on underground pipelines

When deciding how to connect a heating cable for a water supply system, they often choose linear installation, which refers to the main types of connecting the heater to the pipeline, in which the wire is placed on the surface and secured with adhesive tape.

A significant disadvantage of the method is that plastic pipes have low thermal conductivity and simply placing the cable on their shell does not always provide the necessary heating.

Higher heat transfer can be achieved by using special pipes with a channel recessed inside - the electrical cable located in it releases much more thermal energy. During installation, adhesive tape made of aluminum foil is used; the process of installing the heater on an underground pipeline consists of the following operations:

  1. For linear installation, the cable is placed on the bottom side of the pipeline; for this, a strip of aluminum foil is glued along the entire length - this is necessary to increase heat transfer to polymer pipes, which have low thermal conductivity.
  2. Wrap the cable with transverse sections of tape in increments of 300 mm, trying to achieve good tension and a tight fit without gaps.
  3. An aluminum tape is glued on top along the entire length of the cable, ensuring its tight contact with the surface of the pipeline; if there is a temperature sensor, its wire and measuring element are connected separately with transverse ties.
  4. Then the cable along its entire length is additionally secured with nylon ties (fastening is done in the absence of tight-fitting outer insulation) - this will prevent it from peeling if the aluminum tape loses its adhesive properties due to high temperature or aging during operation.
  5. Upon completion of the work, put a heat insulator on the pipeline and fix it with glue or ties. If two or more conductors are used, they are fastened in a similar way from below at some distance from each other.

Connecting the heating cable to the network and controlling the temperature

On the market you can most often find modifications of cable heaters complete with thermostats, while the length of the cable, which is connected to the heating elements through special sealed couplings, does not exceed 3 - 5 meters.

When heating pipelines, the thermostat is installed in a convenient place, protected from harmful environmental factors, as far away as possible (a residential building), and there is a need for a hermetically sealed connection between a short cable and a long wire coming from the house. To do this, use a household hair dryer, special couplings and clamps, installation work is carried out as follows:

  1. The conductors of the connected cables are cut at different distances (with a ladder) and removed from insulation to a length of 10 mm.
  2. Heat-shrinkable sleeves are placed on each conductor, and a common large-diameter sleeve is placed on top of the cable.
  3. Insert the ends of the wires into the sleeves and clamp them on one side with pliers; after inserting the other ends, the sleeve is crimped on the other side.
  4. Internal couplings of small diameter are pulled onto the wires and heated with a hairdryer; after compression, an outer coupling is placed at the junction and also heated with a hairdryer.
  5. In self-regulating cables, it is necessary to seal the two end wires; to do this, they are cut with a ladder, a special heat-shrinkable sleeve with a closed end is put on top and heated with a hairdryer.

To control the heating temperature, a thermostatic regulator is used, which is placed in a convenient place near the electrical panel; to increase safety, automatic RCD circuit breakers are installed in its circuit, which open the circuit when a short circuit occurs in the line.

Rice. 19 Thermostats to which the heating cable is connected

Thermostats and sensors for heating cables

Thermostats allow you to reduce energy costs several times when using cable heaters; with their help, you can set the temperature limits for switching on and off depending on the application.

Manufactured thermostats, depending on their purpose, are divided into several groups:

  • for heated floors,
  • de-icing on roofs,
  • for heating water supply and sewerage,
  • maintaining heat in hot water pipelines.

The main difference between all types of thermostats is the temperature thresholds for operation; when used in wells, the switch-on temperature is set within +2 - +3 degrees, the switch-off temperature is +10 C; to save energy, the threshold values ​​can be lowered. Thermal sensors with response thresholds from -15 to +5 C are installed in external systems to combat roof icing.

Thermostats are made in the form of manual or touch devices; when using several wired heating systems, multi-channel devices are installed, the temperature threshold of which varies within a wide range.

Industrially produced thermal sensors with two wires and a tube at the end differ in their operating principle; the most popular are resistive and semiconductor types. The operating principle of the former is based on a change in the electrical resistance of the resistor depending on temperature; in semiconductor devices, when the temperature conditions change, the characteristics of the pn junction change.

In both cases, the electric current passing through the resistor or semiconductor changes its value with temperature, and the electrical signal from the sensor controls the operation of the electronic circuit that supplies power to the heating cable.

It should be noted that modern semiconductor devices operate in a wide linear temperature range from -55 to +150 C, have a high measurement accuracy of about 2% and a response to temperature changes of 0.125 C.

Rice. 20 Connecting a heating cable and subsequent methods of thermal insulation of the pipe

Thermal insulation of heating cables

When laying outside, thermal insulation must be used - it prevents heat from escaping from the cable into the environment, thereby increasing the heating efficiency. When immersed in the ground, hard types of waterproof insulating shells made of polystyrene foam, penoplex or polyurethane foam are used.

When laying pipelines externally, there is no earth pressure on their insulation; you can install a heated sewer entrance to a house using soft materials - polyethylene foam, all types of mineral wool, glass wool. It should also be taken into account that the thickness of the protective shell of the insulation for external installation should be greater than the underground version.

What to look for when choosing a heating cable

When choosing a heating cable for pipes, the following factors are taken into account:

  • Operating principle. The disadvantage of resistive cables is their uniform heating temperature along the entire length. In order to save energy, it is better to use a self-regulating cable on underground pipes. In addition, its design, in the absence of a remote sensor, is convenient for placement inside pipelines, and the minimum power of the device is 10 W. per linear meter is sufficient for its linear placement underground in a heat-insulating shell.
  • Power. For external heating, devices with high power are used; the best performance is achieved by linear cable modifications with a spiral winding of the heating wire inside.
  • Insulation. When installed internally in water pipes, devices with insulation made of food-grade plastic should be used; it is better to choose modifications with a copper screen - the presence of the element reduces interference and protects the user from electric shock if damaged. Also, a braid of tinned copper wires promotes more intense heat removal from heating cores or matrices.
  • Manufacturer. The market offers a wide range of models of heating cables from various manufacturers; among foreign suppliers, the products of Raychem, Nelson, Lavita, Ensto, Devi are well known; a wide range of cable heating products from a domestic manufacturer - a company from the Moscow region - is sold on the construction market. Special systems and technologies SST .

Rice. 21 Table of dependence of heater power on pipe diameter and insulation thickness

The use of a heating cable for sewerage and water supply is the most effective method of combating icing, because any thermal insulation does not heat the pipeline, but only increases the time it freezes. Self-regulating cables, which have recently appeared on the construction market, are slightly more expensive and more efficient compared to resistive devices; they are the best option when lowering into water supply.

Briefly about the main thing

When choosing a heating cable for utilities, you must first decide on the method of its connection. If it is external, you will need aluminum tape for secure fastening. When the wires are laid inside the pipe, you need to additionally purchase a special tee and a pass-through kit for easy placement of the wires.

When connecting conductors to each other, it is better to use special sleeves and heat-shrinkable sleeves. Reliable sealed contact will be the key to the overall safety of the device. For additional protection, it is necessary to take care of installing circuit breakers to turn off the power in the event of an electrical circuit break.

Write in the comments what you think - is it worth using a self-regulating cable? After all, it is much more expensive than the usual resistant one. Isn't it better to just turn on the heating during severe frosts and turn off during thaws?

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