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Comparison VTS Volcano VR1 vs Reventon HC 45

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VTS Volcano VR1
Reventon HC 45
VTS Volcano VR1Reventon HC 45
Outdated ProductOutdated Product
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Power supplywater circuitwater circuit
Max. thermal output30 kW
43.3 kW /at 90/70°C/
Specs
Supply voltage230 V230 V
Rated current0.82 А
Power consumption280 W180 W
Heating elementheat exchangerheat exchanger
Airflow5300 m³/h3600 m³/h
Safety features
overheat protection
 
More cpecs
Wall mount
Protection class (IP)5454
Noise level50 dB
Dimensions (WxHxD)700x700x355 mm636x598x320 mm
Weight27.5 kg14 kg
Added to E-Catalogaugust 2018august 2017

Max. thermal output

The highest heating power produced by an industrial heater.

The maximum area that the unit can effectively heat directly depends on this parameter (see below). Even if it is not indicated in the specs, it can be approximately determined from the calculation that for heating 1 m² of a room with a standard ceiling height of 2.5 m and good thermal insulation will require 100 W of thermal power. If the ceiling height is significantly different, then the power required for heating can already be withdrawn from the volume of the room — every 2.5 cubic metres of volume will require the same 100 W (and the volume is found by multiplying the area by the height of the ceiling). There are also more complex formulas for the most accurate calculation, taking into account the degree of thermal insulation, the temperature difference between inside and outside the room, etc.; they can be found in special sources.

Note that in electric models (see "Power supply"), the maximum thermal power, in addition to all of the above, also determines the total power consumption of the unit: the power consumption (see below) cannot be less than the thermal output (usually, it is somewhat higher due to for the removal of part of the energy for the operation of the fan). In devices with a water circuit, the actual thermal output depends on the temperature of the coolant at the inlet and outlet. Therefore, in the characteristics, a certain standard value is usually indicated, and in t...he notes, it is specified for which temperatures it is relevant (for example, 90 ° / 70 °).

Rated current

The current consumed by the heat gun during normal operation. This parameter is useful primarily for assessing the load on the mains that occurs during the operation of the unit and organizing the appropriate connection. In particular, the rated current of the fuse installed in the connection circuit cannot be lower than the total rated current of the connected load — otherwise, the power will be turned off. Heat guns (primarily electric, see "Power supply") are quite high consumption consumers in terms of current.

Power consumption

The power consumed by the electrical components of the industrial heater during operation.

This parameter allows, first of all, to assess the load on the power grid and the suitability of the available power for the normal operation of the unit. It is relevant for all types of modern industrial heaters (see "Power supply"). However, it is worth noting that in some electric models, the power consumption is indicated for the ventilation mode. In this mode, the heating element is not activated, and the power consumption is extremely low — a few tens of watts. In such cases, the total power can be estimated from the maximum thermal output (see above) — in electrical models, these parameters practically do not differ from each other.

Airflow

The maximum amount of air that an industrial heater can pass through itself in a certain time.

This parameter is associated with an increase in air temperature (see above): at constant power, higher performance usually corresponds to a smaller temperature difference. Accordingly, a more efficient industrial heater will heat the entire volume of the room faster, but the heating temperature will be lower. So, it is worth choosing according to this parameter, taking into account what is more important for you — a large temperature difference or a high heating rate.

Safety features

Overheat protection. A safety system that turns off the device when the temperature rises critically. The technical features of such a system can be different: for example, in electric models (see "Power supply") it monitors the temperature of the heater, in gas and diesel models (see ibid) it monitors the temperature inside the housing. However, such protection prevents overheating and its unpleasant consequences — from a breakdown of the unit to a fire in the room.

Flame sensor. The safety system used in gas and diesel guns: monitors the presence of a flame in the combustion chamber, and when it is attenuated, it shuts off the fuel supply. It not only helps to avoid unnecessary fuel costs but above all prevents filling the room with gas, the formation of a puddle of flammable liquid and other dangerous consequences.

Motor shutdown delay. This function provides a specific shutdown mode for the heat gun: when the switch is set to the appropriate position, the fan motor does not turn off immediately, but after some time has elapsed. It is done to cool the heating elements — otherwise, the residual heat from them (which is practically not removed after the fan is turned off) could lead to overheating, with all the ensuing consequences. The temperature sensor is usually responsible for turning off the motor, and the delay time can be up to several...minutes — depending on the characteristics of a particular heater, as well as the temperature of the air supplied by the fan.

— Ignition system protection. Security systems are installed mainly in diesel-type heaters. Usually, it provides limiting the number of attempts to ignite the fuel — for example, less than three. It reduces wear on the ignition system and prevents excess fuel from entering the combustion chamber, which could lead to various troubles.

— Tip-over protection. A safety system that provides automatic shutdown of the heater in case of tilting. The vast majority of modern units are not designed to work in the lying position, and in some cases, this position can be dangerous even if normal operation is maintained: for example, when falling forward, air circulation is disturbed, and the surface under the device becomes very hot. Shutdown in case of a fall helps to avoid unpleasant consequences.

Noise level

The maximum noise level produced by the industrial heater during normal operation. For comparison, 50 decibels roughly corresponds to the noise in an office room, 60 dB to an average TV volume, 70 dB to a truck at a distance of about 8 m, 80 dB to traffic noise, and 90 dB to a scream. The lower the noise level, the more comfortable the use of the unit, especially when placed close to people or in echoing rooms where the sound does not fade for a long time.