Leading specialists of our company, together with Russian scientists, created the design of a unique electric heater for the heat of the carrier liquid of the ENTZ.
Electric heater is the heat of the carrier fluid designed to work as part of a heating system with forced circulation with a pressure of up to 2.5 atm. and the heating temperature is up to 95 g. It is intended for heating both residential and non-residential storage and production premises, both main and auxiliary sources.
The main elements of the ENTZ are a heat-insulated heat element and an automation system that prevents liquid heating above 95 g.
The ENTZ has a two-stage power consumption adjustment according to the scheme 1 + 1. It consists of two heating stages, internal and external circuits. The internal and external circuits have one unique heating element with a power of 460 W, respectively.
Calculations and trial operation showed that the electricity consumption, for heating a private house, was 900 W per 120 square meters of area. What is more than profitable, distinguishes our product from products of analogs having a power of more than 12 kW.
In view of the foregoing, it is possible to produce a non-complex calculation using the nominal power.
With the cost of electric energy for the population equal to 12.99 Tenge, we get the following results:
ENTZ -0.9 for 1 day will use 24 x 0.920 W = 22.08 kW. The cost of this amount of energy will be 286.82 Tenge.
Electric boiler - 12 for 1 day consumes 24 x 12 kW = 288 kW. The cost of this amount of energy will be 3741.12 Tenge.
Considering that the "cold year" lasts 7 months, we get the annual consumption in 2007.7 and 21 187.84 Tenge, respectively. Those. ENTZ-0.9 consumes 10 times less.
Some will say that 12 kW is not used constantly. Periodically disabled by the machine. And we also. If the house has good heat, it can only be heated by one circuit with a power consumption of 460 watts.
You can also compare with the necessary
voltage, which is also not unimportant. Boilers with a capacity of over 3 kW require a connection to 380 V. Otherwise, they simply will not work. ENTZ-0.9 requires only 220 V.
This proposal should be very interesting for power grid companies experiencing enormous difficulties with increasing power consumption in the "cold year", which falls on electrical networks and transformer substations with a low margin of safety.
In addition, we do not forget, and even quite correspond to the State policy of increasing energy efficiency, laid down in the program "Energy Saving 2020".