Mini SMMS External MCY-MAP0401HT blocks
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Maximum energy saving of Toshiba MINI-SMMS
The VRF system of Toshiba will significantly lower your accounts for the electric power though formally the efficiency remains the same!
When calculating real costs of the electric power for a season it is necessary to consider continuous change of external temperature. However the standard efficiency (COP) pays off only for two temperatures: 7 °C (heating) and 35 °C (cooling). In reality the system generally works at other temperatures. Agree, in the majority of regions of Russia street temperature almost never increases to +35 °C! At average temperatures of efficiency Mini SMMS central airs with the two-rotor compressor of a direct current are significantly higher, than at usual systems.
On graphics you can visually see how a lot of electric power can be saved during the season, using the Toshiba MiniSMMS system.
Original design of fans and Toshiba Mini SMMS heat exchangers
The fan of the external block of the multizone Toshiba system provides a high pressure at a low consumption of air. Toshiba uses in the new Mini SMMS systems specially designed fans with blades in the form of a wing of a bat. The engine of the fan of a direct current develops the power of 126 W.
Heat exchangers of external blocks of the Mini SMMS system consist of orebrenny tubes with the special profile providing high coefficient of a heat transfer.
It is possible to limit electricity consumption
You can limit energy consumption of the multizone Mini SMMS Toshiba system up to the set sizes.
The additional fee of management allows to establish limit consumption of energy depending on the general load of the building power supply network (4 schemes of restriction). The payment of management controls productivity and current, restrictions are activated by an external signal. The Toshiba Mini SMMS VRF system will work only if values of both parameters do not exceed admissible.
R410A - highly effective coolant
Toshiba for the first time in branch the primenilaeffektivny R410a coolant which is not destroying ozone.
The structure of R410a is stable and is not subject to change. At its partial leak it is possible just to refuel central air, without replacing coolant completely. Affairs are that R410a consists of two components: freon of R32 and R125. Their boiling points practically coincide. The R407c coolant used in other central airs consists of three components: R32, R134a and R125, their boiling points differ by the whole 25 degrees! Therefore at leakage of R407c it needs to be replaced completely.
R410a provides the bigger power of cooling, than traditional R22 freon by 1,47 times, and losses of pressure make only 56% in comparison with R22. Therefore central air of Toshiba Mini SMMS is more effective than analogs.
Surprisingly silent work of central air