ENING is engaged in design, installation, putting into operation, service and maintenance of boiler rooms for heating systems for individual and business facilities, hospitals, hotels, educational, industrial and sports complexes.
Heat generators (aggregates)
- warm water, hot water and steam boilers (solid, liquid, biofuels, gas, electric energy)
- burners for liquid fuels, gaseous fuels and biomass
- heat pumps: air / water, water / water, earth / water
Distributive elements
1. Central heating radiators
Radiator heating system is a classic space heating system. Depending on a method of installing pipes, it can be divided into the following groups:
1.1. Classical radiator systems
OThis heating system is applied where finishing construction works have already been completed. Pipe installations can be made of copper or steel pipes. The advantages of this system are that alterations to the installation can be performed without any problems. The flaws are only aesthetic ones, due to visibility of the installation.
1.2. Concealed radiator systems
Concealed radiator systems are extremely functional and attractive. Pipe installations are not visible due to being set in a levelling layer of concrete or a layer of plaster on a wall of your residential or commercial space. Carrying out this type of radiator heating system is only possible prior to installing floor coverings i.e. prior to the levelling layer. The pipes are necessarily isolated using a special layer of foam insulation, in order to reduce energy losses and undisturbed dilatation.
The pipe installation can be done with copper or AL-PEX pipes.
1.3. Combined systems
PA combined system refers to a combination of floor and radiator heating, or a combination of classical and concealed systems.
The combination of floor and radiator heating is usually applied when there are large glass surfaces in the room, or when floor coverings are made of cold materials (ceramic, stone, granite …)
The combination of classical and concealed systems is used, for instance, in the facilities that are not fully completed or where building conditions allow that. For example, the ground floor of a house is completely finished, but other floors are not, etc.
2. Panel heating (floor, wall and ceiling heating)
2.1. Floor heating
Underfloor heating systems create ideal thermal comfort conditions in the entire airspace, with evenly distributed temperature (independent of height), in contrast to classic heating where the warmest point in a room is at ceiling level, and therefore are the best heat distribution system:
- It does not occupy space in the room and it does not affect the interior design
- Maximum heating surface
- High degree of comfort
- Evenly distributed temperature
- Invisible
- It is the most energetically efficient, due to the low temperature circulating water (especially combined with a heat pump)
- Simple space temperature control using room thermostats
2.2. Ceiling and Wall heating
Lately, there has been a significant increase in ceiling and wall heating, since these surfaces are less covered and people do not have direct contact with them. Therefore, a higher surface temperature is allowed, so consequently, the entered thermal energy per unit is increased.
3. Convection heating
Convector heating provides durability, constant temperature and noiseless operation.
Characteristics of natural convection:
- Warm or cold air is released from the upper part of the convector, rising and circulating around the whole room, resulting in the fastest possible heating or cooling and maintaining the room temperature the thermostat is set at. They are primarily intended for residential buildings.
