Products

CLIMATIC addresses the VOC pollution of any industry regardless of its size and magnitude.

Plug & Play products for air flows <15,000m3/h

Tailor-made products for air flows >15,000m3/h

 

CLIMATIC MICRO

Micro is the smallest unit in the CLIMATIC product line. It is an easy to install plug and play product . It comes with complete internal wiring and controller. All you need to do is to connect it to the duct and power supply.

Air flow: Up to 3.000 m³/h
Under pressure: Up to 800 Pa
UV power: Up to 10 kW

Illustration of the Micro climatic

CLIMATIC MINI

Mini is an easy plug and play product to install. It comes with complete internal wiring and controller. All you need to do is to connect it to the duct and power supply.

Air flow: Up to 12.000 m³/h
Under pressure: Up to 800 Pa
UV power: Up to 38 kW

Illustration of the Micro climatic

How does CLIMATIC MICRO and MINI work?

  • Polluted air is led into the upper compartment where UV lights are installed
  • Pollutants /VOC are exposed to ozone and hydroxyl radicals generated in the UVR
  • The air proceeds to the lower compartment where pollutants continue to react and the end-products are trapped in the catalyst bed
  • Clean air is led out through the lower compartment

Mounting and operation

CLIMATIC Micro is made for a fork lift frame for ease of installation and mounting, It is connected to the ductwork and power supply. The unit is delivered with integrated controller with safety shutdown, optional cloud data integration and automatic cleaning.

Tailor-made products

UVR based solutions

The UVR module is the primary treatment module for industrial implementation of the CLIMATIC technology. The technology is based on accelerating the self-cleansing mechanisms of the atmosphere, namely a carefully adjusted combination of gaseous oxidants, water vapor and UV light. This produces OH radical molecules (Reaction 1) which are extremely reactive towards most volatile organic compounds (VOCs) (Reaction 2). The VOC are thereby first oxidized to OxVOCs, but thereafter precipitate out of the gas phase as particles (Reaction 3).

UVR module

AC/WAC module (Wet Adsorption Catalyst)

After passing through the UVR module, the original VOCs have been reacted away. However, the air will still contain substantial amounts of ozone, which has been created by the UV light, oxidized VOCs (OxVOC) from reaction 2 and particles from reaction 3, which must be removed before the air can be exhausted. Since both particles and OxVOCs are known to be very water soluble, these can be removed over a wet surface. Ozone is not very water soluble, but is readily removed by a variety of different catalysts, such as metal oxides, ceramic materials or even activated carbon. In order to minimize the complexity of any given installation, the removal of these three by-products are conducted in a single treatment over a wet adsorption catalyst.

GEC (Gas Enhanced Catalyst)

Industrial production facility most often involves several different facilities, each performing one or more specialized processes. Most often, each of these facilities have different requirements with respect to ventilation and produce different amounts and kinds of pollution. Specially designed for tackling high concentration of pollutants at the point source, our GEC has been developed. The GEC contains a noble metal catalyst deisned for roubustness and longevity, and is operated at temperatures between 300 and 400 oC.

ESP (Electrostatic Precipitator)

One of the primary methods which VOCs and other pollutants are removed in the natural atmosphere is via gas to particle conversion. The same processes are used in the UVR section, leading to the conversion of millions of separated gaseous molecules into a single particle. The advantage of this process is that it is much easier to remove a single particle, rather than a million molecules. Several conventional processes can be used, but due to longevity and ease of operation, we have developed a self-cleaning ESP enabling continuous operation for extended periods of time.

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