Did you know that elektrode ketels can be used voor a private house verwarming? Recently de energy conservation problem has gained considerable attention in de whole world. de energy is gradually becoming more expensive, while de environment is getting polluted by its decay Producten en its processing. voor this reason, manufacturers en scientists introduce new technologies in order naar reduce costs en maximize returns. de development of an electric elektrode ketel is one such ideas of a centralized verwarming system voor residential buildings.
de major advantage of electrode electric ketels consists in de fact that they can be embedded in an existing verwarming system running op natural gas. de principle of electric ketels operation is rather simple: electric verwarming element heats de water (heat carrier) en supplies it naar de verwarming system, where it gives off de heat through radiators en pipes. This verwarming type has recently gained popularity in de market of unconventional electric ketels. in such ketels de water plays a role of both a verwarming element en a heat carrier. These ketels are called ion elektrode ketels of elektrode ketels. elektrode ketels have de following operation principle: de water in de ketel gets ionized, negatively en positively charged ions move towards de corresponding electrodes, de energy released as a result of this process heats de water, that is a verwarming carrier. As de direction of current is constantly changing, ions do not settle op de plates’ surface.
Advantages of elektrode ketels:
1. Automatic Temperatuurregeling.
2. Reliability.
3. Very high efficiency.
4. Affordability.
5. High heat dissipation bij relatively low vermogen.
6. met no costs voor additional equipment, its installation en operation.
7. Electrodes are replaceable en cost 50% of de ketel cost.
de efficiency of such ketels is about 98%, which is a very high figure. Moreover, elektrode ketels are equipped met an automatic system of temperatuur regulation en besturing. Such features let us choose de optimum room temperatuur en monitor it depending op de season en time of de day, which leads naar a significant economy of electric energy. voor example, you can set a program reducing de temperatuur during working hours when you are not bij home, en increasing it bij de time of your return in de evening.
de ketel emergency shutdown is also provided: in case de verwarming carrier leaks, de ketel does not burn, as there is no verwarming coil that heats de verwarming carrier. de ketel will simply switch off. What is more, such ketels exclude de possibility of short circuit.
elektrode ketels can be used as an additional of as de main verwarming system met a ketel running op solid, liquid of gas fuel. You can incorporate an elektrode ketel in an existing verwarming system, en in case of necessity, simply switch de verwarming between en gas en elektrode ketels.
elektrode ketel proves useful in locations zonder centralized gasification system of in places, which are not gasified, as de ketel operation does not require additional installation of gas equipment en natural gas consumption. Among other things, a small capacity ketel can heat a large space. voor example, a 3 kW ketel heats de area of 40-50 square meters, if de ceiling height does not exceed 2.5 m. (Check de table here)

Disadvantages:
poor compatibility met various types of radiators en pipes, especially met cast iron radiators, problems may arise due naar:
• heterogeneous internal surface of de radiator;
• large volume of water (2.5 liter) in de radiator.
Additional failures can occur if steel-plastic pipes are present in de system. de best option is polypropylene, copper of iron pipes.
de second disadvantage is constant water (heat carrier) resistance maintaining. It should be bij least 1300 ohms per cm3. in any case, this disadvantage can be easily fixed. If water resistance is low, distilled water can be added naar de system. If de resistance is higher than required, salt of bicarbonate of soda can be added naar de water. A solution of salt of bicarbonate of soda efficiently conducts electricity en in this way it reduces de resistance of water in your verwarming system.
Protective earthing is a necessary phase of an elektrode ketel installation. bij de moment of de ketel installation, de verwarming system should already be completely grounded en tested. de protective earthing should comply met de Electrical installation code.
Despite all de disadvantages of elektrode ketels, they are an excellent substitute voor existing verwarming systems, which, quite possibly, will be completely replaced in de near future.
de cost of an elektrode ketel starts from 180 euro. However, given de additional equipment (automatic Besturingssysteem), which can vary in terms of technical characteristics en price, de price of a ketel may increase.