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Alpha Duo H13 – Filter set

5/5
Regular fillter maintenance:

Every 2 months (or according to the manufacturer's instructions)

Regular filter replacement:

After 1,500 hours of operation

Appliance compitability:

Alpha K2 Duo

Model nameAlpha K2 Duo – filter set
Regular filter maintenance HEPA H13 + Antibacterial filter Every 2 months (or according to the manufacturer’s instructions)
Regular filter maintenance Activated carbon filter + cold catalyst filterEvery 2 months (or according to the manufacturer’s instructions)
Regular filter replacement HEPA H13 + Antibacterial filterAfter 1,500 hours of operation
Regular filter replacement Activated carbon filter + cold catalyst filterAfter 1,500 hours of operation

Model name

Alpha K2 Duo – filter set

Regular filter maintenance HEPA H13 + Antibacterial filter 

Every 2 months (or according to the manufacturer’s instructions)

Regular filter maintenance Activated carbon filter + cold catalyst filter

Every 2 months (or according to the manufacturer’s instructions)

Regular filter replacement HEPA H13 + Antibacterial filter

After 1,500 hours of operation

Regular filter replacement Activated carbon filter + cold catalyst filter

After 1,500 hours of operation

Alpha Ultra

Innovative four-layered filtration system with two composite filters

HEPA H13 + Antibacterial filter and Honeycomb activated carbon filter + cold catalyst filter

Air purifying innovation requires constant efforts on maximizing efficiency and purifying speed, as well as environmental safety. That is why the choice of filtration method and filter material is crucial in the design and manufacture of air purifiers.

Innovative composite filters’ structure implies multi-layered air filtration and adsorption increase, so a larger amount of pollutants is retained in filters before fresh air release. That’s how composite filters provide a higher level of purification and shorter time for harmful particle filtration, comparing to standard filters. Two composite filters in one air purifier, each composed of two integrated parts, contribute to a high purifying rate and secure efficient removal of pollutants of different origin, composition, and size – harmful particles, gases, and allergens as pollutants are filtered through four layers of filters and trapped inside.

HEPA H13 filter + Antibacterial filter

HEPA H13 filter + Antibacterial filter

Parts of the composite filter are fused together which maximizes efficiency. With proper maintenance, these filters will last a long time and maintain maximum performance. HEPA filtration is internationally recognized for its efficiency in purifying air, and this filter is known for its low rate of pollutants passability and high rate of filtration – above 99%.

An additional advantage of the HEPA filter is that doesn’t need a power supply to work at room temperatures. HEPA filters are considered to be the most advanced filters for removing pollutants like smoke, dust, bacteria because they can capture particles larger than 0.3 microns. For example, tobacco particles are 0.5 microns. 

The other composite filter consists of honeycomb activated carbon and cold catalyst filters, which are firmly integrated for maximum efficiency and minimizing the passability of harmful air pollutants.

Honeycomb activated carbon filter performs high-leveled efficiency in harmful pollutants elimination. Activated carbon in this filter is made of coconut shell and the filter is structured for maximum efficiency. This filter is made of ecological paper with honeycomb structure and honeycomb mesh with a through-hole structure. Activated carbon is placed in mesh holes and inside the filter itself. This aerodynamic design reduces the coefficient of air resistance and delivers better cleaning performance. Functional particles – activated carbon micropores are less than 2nm in size, and they allow high capacity in different pollutants filtration.

Activated carbon can remove dissolved organic compounds, neutralize detergents, microorganisms, viruses, some toxic metals, even bad odors. The active charcoal filter is recognized as the best way to remove harmful gases, adsorption of PM2.5 particles, smoke, formaldehyde, toluene, and TVOC (total volatile organic compounds).

A cold catalyst filter is very efficient in pollution control in a normal living environment. This filter catalyzes and breaks down harmful pollutants without the use of UV light, high pressure, or high temperature. It dissolves formaldehyde, ammonia, benzene, TVOC, hydrogen sulfide, and other harmful gases. In this reaction, water and carbon dioxide are produced.

High capacity and speed with Honeycomb activated carbon filter

An antibacterial filter is made of high-quality non-woven fabric with antibacterial traits and moisture resistance, which disable bacteria growth. This filter operates by rupturing the cell membrane of bacteria and microbes and, at the same time, doesn’t allow cytoplasm leakage. This terminates the microbial metabolic process so that microorganisms can’t grow and reproduce, and mites and bacteria are effectively removed. 

An antibacterial filter is made of high-quality non-woven fabric with antibacterial traits and moisture resistance, which disable bacteria growth. This filter operates by rupturing the cell membrane of bacteria and microbes and, at the same time, doesn’t allow cytoplasm leakage. This terminates the microbial metabolic process so that microorganisms can’t grow and reproduce, and mites and bacteria are effectively removed. 

Honeycomb activated carbon filter + cold catalyst filter

Honeycomb activated carbon filter + cold catalyst filter

The other composite filter consists of honeycomb activated carbon and cold catalyst filters, which are firmly integrated for maximum efficiency and minimizing the passability of harmful air pollutants.

Honeycomb activated carbon filter performs high-leveled efficiency in harmful pollutants elimination. Activated carbon in this filter is made of coconut shell and the filter is structured for maximum efficiency. This filter is made of ecological paper with honeycomb structure and honeycomb mesh with a through-hole structure. Activated carbon is placed in mesh holes and inside the filter itself.

 This aerodynamic design reduces the coefficient of air resistance and delivers better cleaning performance. Functional particles – activated carbon micropores are less than 2nm in size, and they allow high capacity in different pollutants filtration.

Activated carbon can remove dissolved organic compounds, neutralize detergents, microorganisms, viruses, some toxic metals, even bad odors. The active charcoal filter is recognized as the best way to remove harmful gases, adsorption of PM2.5 particles, smoke, formaldehyde, toluene, and TVOC (total volatile organic compounds).

The other composite filter consists of honeycomb activated carbon and cold catalyst filters, which are firmly integrated for maximum efficiency and minimizing the passability of harmful air pollutants.

Honeycomb activated carbon filter performs high-leveled efficiency in harmful pollutants elimination. Activated carbon in this filter is made of coconut shell and the filter is structured for maximum efficiency. This filter is made of ecological paper with honeycomb structure and honeycomb mesh with a through-hole structure. Activated carbon is placed in mesh holes and inside the filter itself. This aerodynamic design reduces the coefficient of air resistance and delivers better cleaning performance. Functional particles – activated carbon micropores are less than 2nm in size, and they allow high capacity in different pollutants filtration.

Activated carbon can remove dissolved organic compounds, neutralize detergents, microorganisms, viruses, some toxic metals, even bad odors. The active charcoal filter is recognized as the best way to remove harmful gases, adsorption of PM2.5 particles, smoke, formaldehyde, toluene, and TVOC (total volatile organic compounds).

 (ilustracija: gasovi/dim, PM2.5 čestice i formaldehidi)

A cold catalyst filter is very efficient in pollution control in a normal living environment. This filter catalyzes and breaks down harmful pollutants without the use of UV light, high pressure, or high temperature. It dissolves formaldehyde, ammonia, benzene, TVOC, hydrogen sulfide, and other harmful gases. In this reaction, water and carbon dioxide are produced.

An additional advantage of the HEPA filter is that doesn’t need a power supply to work at room temperatures. HEPA filters are considered to be the most advanced filters for removing pollutants like smoke, dust, bacteria because they can capture particles larger than 0.3 microns. For example, tobacco particles are 0.5 microns.