TAC XT – application area HEPA air purification and virus filtration
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TAC XT – application area HEPA air purification

The TAC XT as a 100 % mobile solution for air pollution control and virus filtration

The TAC XT is also ideally suited for air pollution control and virus filtration

High-performance air purifier TAC V+ – TAC XT's prominent little brother

Air cleaner TAC V+

If you need a high-performance air cleaner for all the application areas mentioned above, but you do not require any heating function for heating spaces, the high-performance air purifier TAC V+ is the best recommendation!

The TAC V+ is based on the same assembly as the TAC XT and has an identical fan performance and HEPA air purification function. The TAC V+ is not equipped with a heating unit for heating rooms, however, the device comes with an additional heating for automatic filter regeneration and thermal virus decontamination. Detailed information about the TAC V+ is provided on the product page of this "made in Germany" room air cleaner ...

High-performance air purification in combination with decontamination or air heating

If the TAC XT is equipped with the DualDecon blowing-out tower or the attachment hood for hose connection, the high-efficiency particulate air filter of class H14 can additionally be installed in the TAC XT.

This fully encapsulated H14 metal lamella high-temperature filter "made in Germany" with flow-optimised high-tech filter material is specially developed for Trotec and is characterised by a high separation efficiency of 99.995 % for particle sizes of 0.1 to 0.2 µm. This allows the device to effectively filter bacteria and viruses from the room air.

In combination with the H14 HEPA filter, the TAC XT can also be used as a powerful air cleaner. Two fields of application are particularly well suited for an additional HEPA air purification with the TAC XT:

1. HEPA air purification in combined room heating applications

The TAC XT in an unbeatable universal solution for mobile heating applications with additional air purification. For this reason, the device is ideally suited for the use in mobile hospitals and emergency camps, workshops, in party tents or for other indoor events.

Especially in the time between seasons, in spring and autumn, the air can become unexpectedly cool in the evening. During these times, the thermostat-controlled TAC XT works as a 'compensation heater' and automatically fills the surrounding cold areas with draught-free warmth evenly and pleasantly. This way, the heater can either be used autonomously or to complement existing heating systems.

The additional HEPA air purification function of the TAC XT does not only prevent the air from excessive cooling but also from polluted and germ-laden air:

Wherever many people meet, the concentration of pathogens rises in the ambient air. Recent scientific studies indicate that "coughed up pathogens will spread for several metres within a few seconds and remain infectious in the room air up to 5 minutes."

Thanks to its high-performance air purification function, the TAC XT creates passing and staying zones with air filtered from viruses – directly at the installation site and for patients, guests, customers and employees. The target areas are continuously refilled with purified air which significantly decreases the risk of infection in these zones in comparison to non-treated areas.

With the integrated HEPA air purification function, the TAC XT does not only provide for a pleasant all-round warmth but for all-round clean room air as well. This dual function of the TAC XT is unbeatable!

2. HEPA air purification alternating with decontamination treatments

If the TAC XT is used during the day as a room heater or virus air cleaner in waiting zones, corridors or other highly frequented areas to effectively reduce the risk of infection even in large rooms, then the TAC XT can be used outside business hours or at night, for example, to decontaminate rooms and equipment.

The H14 HEPA virus filter in the TAC XT is then automatically decontaminated during the decontamination interval. This way, it can be used as decontaminated air cleaner for upcoming events where it will filter viruses from the air. This means that the TAC XT is provided with a self-regeneration function in order to fight viruses permanently.


Application area HEPA air purification – practical benefits:

  • Constant air pollution control and virus filtration in zones with a high volume of public traffic
  • Unique technology – Trotec exclusive:
    Automatic filter regeneration thanks to thermal decontamination of the specially developed and heat-resistant high-efficiency particulate air filter of class H14. Provides separation efficiency of 99.995 % for particle sizes of 0.1 to 0.2 μm
  • Effective air filtration with F7 prefilter and H14 HEPA main filter
  • Air discharge directions can be adjusted via flowstop shutter in order to direct the air into the desired areas, all tailored to the individual requirement
  • Combined use of professional HEPA H14 air purification and heating is possible. For purified warm air that is free from suspended matter carrying odours
  • Simple operation: Fully automatic and low-maintenance operation around the clock
  • Resource-efficient: 100 % environmentally friendly, no chemicals, no staff expenses

It's all about the TAC – always the optimum virus air cleaner for every demand

Which TAC high-performance air purifier from Trotec offers you exactly the functions and equipment features you require for your application? The comparison table below shows you an overview of all Trotec air purification solutions, focusing on their application and technical differences ...

Possible applications and equipment differences of TAC high-performance air purifiers at a glance

Trotec high-performance air purifiers with HEPA H14 suitability in compliance with EN 1822 (corresponds to ISO 45 H according to ISO 29463) TAC XT TAC V+ TAC M TAC ECO TAC BASIC
TAC XT TAC V+ TAC M TAC ECO TAC BASIC
Use for high-performance H14 HEPA air purification as per EN 1822
Usage-related filter change indicator for prefilter and HEPA filter
Mobile carriage design
FlowMatic volumetric flow control
Programmable touch display updateable via USB
Thermal filter decontamination and filter regeneration
Use for room heating, tent heating (heating capacity 18/27 kW)
Use for thermal decontamination of rooms and objects
Use for thermal disinfestation
Trotec high-performance air purifiers with HEPA H14 suitability in compliance with EN 1822 (corresponds to ISO 45 H according to ISO 29463) TAC XT TAC V+ TAC M TAC ECO TAC BASIC
Use for high-performance H14 HEPA air purification as per EN 1822
Usage-related filter change indicator for prefilter and HEPA filter
Mobile carriage design
FlowMatic volumetric flow control
Programmable touch display updateable via USB
Thermal filter decontamination and filter regeneration
Use for room heating, tent heating (heating capacity 18/27 kW)
Use for thermal decontamination of rooms and objects
Use for thermal disinfestation

TAC high-performance air purifiers – show more technical data

TAC high-performance air purifiers – more technical data at a glance TAC XT TAC V+ TAC M TAC ECO TAC BASIC
TAC XT TAC V+ TAC M TAC ECO TAC BASIC
Max. air flow rate heating (without HEPA filter) 2,500 m³/h - - - -
Max. air volume flow for the respective filter class with standard HighFlow H14 HEPA Heat Resistant filter:
H14 ≤ 1,200 m³/h, H13 ≤ 1,800 m³/h,
with optional Ultra-HighFlow H14 HEPA filter:
H14 ≤ 2,000 m³/h, H13 ≤ 2,200 m³/h
H14 ≤ 1,000 m³/h
H13 ≤ 1,600 m³/h
Prefilter F7 (EN 779:2002), ePM10 85 % (ISO 16890) G4 Z-line
(EN 779:2002)
High-temperature particulate air filter TROTEC HEPA H14 HighFlow Heat Resistant filter, EN 1822
Fully encapsulated H14 HighFlow metal lamellae high-temperature filter 'made in Germany'
(optional also as Ultra-HighFlow filter).
Each filter is tested and certified individually.
TROTEC HEPA H14, EN 1822
(standard minipleat)
Each filter is tested and certified individually.
Filter change interval approx. 2 to 3 years
(depending on the application and with regular thermal decontamination)
approx. 1 to 2 years
(depending on the application)
approx. 1 year
(depending on the application)
Filter change indication Usage-related, sensor-controlled filter change indicator for prefilter and HEPA filter -
FlowMatic control Constant clean air volume flow,
constant circulation rates in each power level

also with increasing filter contamination. Air volume freely adjustable in m³.
Safety and filter hygiene:
Thermal decontamination and filter regeneration at approx. 100 °C.
15 min. heating-up phase /
15 min. decon phase (altogether 30 min.)
Time freely programmable,
the thermal decontamination and filter regeneration process takes place fully automatically, usually once a week at night or outside business or teaching hours.
Thermal decontamination and filter regeneration can be switched off temporarily or even constantly as required.

Due to the short treatment duration (15 min.) and the low energy input (altogether approx. 1.0 kWh per cycle), the room temperature does not increase by thermal decontamination.
No thermal decontamination and
reconditioning of the filter
Mains connection (connector plug) 380–480 V 50 / 60 Hz (CEE 32 A) 220–240 V 50 / 60 Hz (CEE 7/7, H07RN-F)
ø power consumption Air purification: 0.16 kW*, 2.5 kW (short-term peak load, e.g. once a week during thermal decontamination)
heating: max. 27 kW
0.16 kW*,
2.5 kW (short-term peak load, e.g. once a week during thermal decontamination)
0.16 kW*
Exemplary total energy consumption
(with 900 m³/h air volume)
Without thermal decontamination approx. 1.6 kWh per day / approx. 35 kWh per month*

With thermal decontamination approx. 1.8 kWh per day / approx. 39 kWh per month
* and thermal decontamination once a week
approx. 1.6 kWh per day /
approx. 35 kWh per month*
Control panel Programmable, USB updateable touch display with PIN-protected lock function Manual control panel
(6-step switch)
Weight 96 kg (incl. filter) 89 kg (incl. filter) 84 kg (incl. filter) 85 kg (incl. filter)
* for a 5-day week with 10 h operating time per day and 900 m³ air volume
TAC XT
Max. air flow rate heating (without HEPA filter)
2,500 m³/h
Max. air volume flow for the respective filter class
with standard HighFlow H14 HEPA Heat Resistant filter:
H14 ≤ 1,200 m³/h, H13 ≤ 1,800 m³/h,
with optional Ultra-HighFlow H14 HEPA filter:
H14 ≤ 2,000 m³/h, H13 ≤ 2,200 m³/h
Prefilter
F7 (EN 779:2002), ePM10 85 % (ISO 16890)
High-temperature particulate air filter
TROTEC HEPA H14 HighFlow Heat Resistant filter, EN 1822
Fully encapsulated H14 HighFlow metal lamellae high-temperature filter 'made in Germany'
(optional also as Ultra-HighFlow filter).
Each filter is tested and certified individually.
Filter change interval
Approx. 2 to 3 years
(depending on the application and with regular thermal decontamination)
Filter change indication
Usage-related, sensor-controlled filter change indicator for prefilter and HEPA filter
FlowMatic control
Constant clean air volume flow,
constant circulation rates in each power level

also with increasing filter contamination. Air volume freely adjustable in m³.
Safety and filter hygiene:
Thermal decontamination and filter regeneration at approx. 100 °C.
15 min. heating-up phase /
15 min. decon phase (altogether 30 min.)
Time freely programmable,
the thermal decontamination and filter regeneration process takes place fully automatically, usually once a week at night or outside business or teaching hours.
Thermal decontamination and filter regeneration can be switched off temporarily or even constantly as required.

Due to the short treatment duration (15 min.) and the low energy input (altogether approx. 1.0 kWh per cycle), the room temperature does not increase by thermal decontamination.
Mains connection (connector plug)
380–480 V 50 / 60 Hz (CEE 32 A)
ø power consumption
Air purification: 0.16 kW*, 2.5 kW (short-term peak load, e.g. once a week during thermal decontamination)
heating: max. 27 kW
Exemplary total energy consumption
(with 900 m³/h air volume)
Without thermal decontamination approx. 1.6 kWh per day / approx. 35 kWh per month*

With thermal decontamination approx. 1.8 kWh per day / approx. 39 kWh per month
* and thermal decontamination once a week
Control panel
Programmable, USB updateable touch display with PIN-protected lock function
Weight
96 kg (incl. filter)
* for a 5-day week with 10 h operating time per day and 900 m³ air volume
TAC V+
Max. air flow rate heating (without HEPA filter)
-
Max. air volume flow for the respective filter class
with standard HighFlow H14 HEPA Heat Resistant filter:
H14 ≤ 1,200 m³/h, H13 ≤ 1,800 m³/h,
with optional Ultra-HighFlow H14 HEPA filter:
H14 ≤ 2,000 m³/h, H13 ≤ 2,200 m³/h
Prefilter
F7 (EN 779:2002), ePM10 85 % (ISO 16890)
High-temperature particulate air filter
TROTEC HEPA H14 HighFlow Heat Resistant filter, EN 1822
Fully encapsulated H14 HighFlow metal lamellae high-temperature filter 'made in Germany'
(optional also as Ultra-HighFlow filter).
Each filter is tested and certified individually.
Filter change interval
Approx. 2 to 3 years
(depending on the application and with regular thermal decontamination)
Filter change indication
Usage-related, sensor-controlled filter change indicator for prefilter and HEPA filter
FlowMatic control
Constant clean air volume flow,
constant circulation rates in each power level

also with increasing filter contamination. Air volume freely adjustable in m³.
Safety and filter hygiene:
Thermal decontamination and filter regeneration at approx. 100 °C.
15 min. heating-up phase /
15 min. decon phase (altogether 30 min.)
Time freely programmable,
the thermal decontamination and filter regeneration process takes place fully automatically, usually once a week at night or outside business or teaching hours.
Thermal decontamination and filter regeneration can be switched off temporarily or even constantly as required.

Due to the short treatment duration (15 min.) and the low energy input (altogether approx. 1.0 kWh per cycle), the room temperature does not increase by thermal decontamination.
Mains connection (connector plug)
220–240 V 50 / 60 Hz (CEE 7/7, H07RN-F)
ø power consumption
0.16 kW*,
2.5 kW (short-term peak load, e.g. once a week during thermal decontamination)
Exemplary total energy consumption
(with 900 m³/h air volume)
Without thermal decontamination approx. 1.6 kWh per day / approx. 35 kWh per month*

With thermal decontamination approx. 1.8 kWh per day / approx. 39 kWh per month
* and thermal decontamination once a week
Control panel
Programmable, USB updateable touch display with PIN-protected lock function
Weight
89 kg (incl. filter)
* for a 5-day week with 10 h operating time per day and 900 m³ air volume
TAC M
Max. air flow rate heating (without HEPA filter)
-
Max. air volume flow for the respective filter class
with standard HighFlow H14 HEPA Heat Resistant filter:
H14 ≤ 1,200 m³/h, H13 ≤ 1,800 m³/h,
with optional Ultra-HighFlow H14 HEPA filter:
H14 ≤ 2,000 m³/h, H13 ≤ 2,200 m³/h
Prefilter
F7 (EN 779:2002), ePM10 85 % (ISO 16890)
High-temperature particulate air filter
TROTEC HEPA H14 HighFlow Heat Resistant filter, EN 1822
Fully encapsulated H14 HighFlow metal lamellae high-temperature filter 'made in Germany'
(optional also as Ultra-HighFlow filter).
Each filter is tested and certified individually.
Filter change interval
Approx. 1 to 2 years (depending on the application)
Filter change indication
Usage-related, sensor-controlled filter change indicator for prefilter and HEPA filter
FlowMatic control
Constant clean air volume flow,
constant circulation rates in each power level

also with increasing filter contamination. Air volume freely adjustable in m³.
Safety and filter hygiene:
Thermal decontamination and filter regeneration at approx. 100 °C.
15 min. heating-up phase /
15 min. decon phase (altogether 30 min.)
No thermal decontamination and
reconditioning of the filter
Mains connection (connector plug)
220–240 V 50 / 60 Hz (CEE 7/7, H07RN-F)
ø power consumption
0.16 kW*
Exemplary total energy consumption
(with 900 m³/h air volume)
approx. 1.6 kWh per day /
approx. 35 kWh per month*
Control panel
Programmable, USB updateable touch display with PIN-protected lock function
Weight
84 kg (incl. filter)
* for a 5-day week with 10 h operating time per day and 900 m³ air volume
TAC ECO
Max. air flow rate heating (without HEPA filter)
-
Max. air volume flow for the respective filter class
H14 ≤ 1,000 m³/h
H13 ≤ 1,600 m³/h
Prefilter
G4 Z-line (EN 779:2002)
High-temperature particulate air filter
TROTEC HEPA H14, EN 1822
(standard minipleat)
Each filter is tested and certified individually.
Filter change interval
Approx. 1 year (depending on the application)
Filter change indication
Usage-related, sensor-controlled filter change indicator for prefilter and HEPA filter
FlowMatic control
Safety and filter hygiene:
Thermal decontamination and filter regeneration at approx. 100 °C.
15 min. heating-up phase /
15 min. decon phase (altogether 30 min.)
No thermal decontamination and
reconditioning of the filter
Mains connection (connector plug)
220–240 V 50 / 60 Hz (CEE 7/7, H07RN-F)
ø power consumption
0.16 kW*
Exemplary total energy consumption
(with 900 m³/h air volume)
approx. 1.6 kWh per day /
approx. 35 kWh per month*
Control panel
Manual control panel (6-step switch)
Weight
84 kg (incl. filter)
* for a 5-day week with 10 h operating time per day and 900 m³ air volume
TAC BASIC
Max. air flow rate heating (without HEPA filter)
-
Max. air volume flow for the respective filter class
H14 ≤ 1,000 m³/h
H13 ≤ 1,600 m³/h
Prefilter
G4 Z-line (EN 779:2002)
High-temperature particulate air filter
TROTEC HEPA H14, EN 1822
(standard minipleat)
Each filter is tested and certified individually.
Filter change interval
Approx. 1 year (depending on the application)
Filter change indication
FlowMatic control
Safety and filter hygiene:
Thermal decontamination and filter regeneration at approx. 100 °C.
15 min. heating-up phase /
15 min. decon phase (altogether 30 min.)
No thermal decontamination and
reconditioning of the filter
Mains connection (connector plug)
220–240 V 50 / 60 Hz (CEE 7/7, H07RN-F)
ø power consumption
0.16 kW*
Exemplary total energy consumption
(with 900 m³/h air volume)
approx. 1.6 kWh per day /
approx. 35 kWh per month*
Control panel
Manual control panel (6-step switch)
Weight
85 kg (incl. filter)
* for a 5-day week with 10 h operating time per day and 900 m³ air volume

Available colour variants

TAC XT
Available colour versions
Yellow
Also available as stainless steel version
TAC V+
Available colour versions
Yellow, basalt grey, white, bronze
Also available as stainless steel version
TAC M
Available colour versions
Yellow, basalt grey, white, bronze
Also available as stainless steel version
TAC ECO
Available colour versions
Light grey
Also available as stainless steel version
TAC BASIC
Available colour versions
Light grey
Also available as stainless steel version

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Vertikalheizer TES 200 mit Virenfilter-Funktion

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