Particle filter CleanAir P3 thread 40x1/7

Top-quality Czech-made particulate filter. Art.No.: 500048

Availability	In stock - Shop
Delivery to	18/11/2024
Normal price	€13,87
Price	€9,73 excl. VAT
€11,77 / pcs

Parameters

Product code	500048
Brand	CleanAIR (Malina Safety)
Category	NATO 40x1/7 Thread Respirator Filters

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Description
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Description

CLEANAIR P3 PARTICULATE FILTER

Technical Specifications:

Connection: thread RD40×1/7"
Colour marking: white stripe
diameter / height: 110 mm / 50 mm, weight: 90 g
Certification: EN 143, EN 12941, EN 12942
Art.No.: 500048
Technical data sheet for download in PDF
Declaration of conformity download in PDF

The P3 filter protects against:

particulate matter in the form of liquid and solid aerosols

e.g.: dust, fibres, toxic and non-toxic fumes, bacteria, viruses, radioactive particles

* other captured substances are available in the detailed documentation

Filter lifetime

The lifetime of filters depends mainly on the concentration of pollutants in the workplace, humidity and air flow, i.e. the physical demands of working with the mask or the setting of the filter ventilation unit. Particulate filters Filters become clogged with particles and air moisture. If the breathing resistance increases during breathing, the filter should be changed immediately.

Restrictions on use

When used against radioactive substances, bacteria and viruses, only single use is recommended!

CleanAIR® filters

The body of the CleanAIR ® combined canister filter is made of highly durable plastic and the filter medium removes solid and liquid particles from contaminated air

The comprehensive CleanAIR® canister filter product range offers users a wide choice of filters for most industrial applications, pharmaceutical industry, laboratories and agriculture.

Principle of PARTS FILTRATION

The material used in the antiparticle filters is composed of layers of randomly stacked glass microfibres of various diameters from 1 to 10 μm.

The ability of an antiparticle filter to trap airborne pollutant particles is determined by the physical and mechanical properties of the filter media. The principle of filtration is based on the following mechanisms: INTERCEPTION, INERTIAL CONFINEMENT, DIFFUSION AND ELECTROSTATIC ATTRACTION

INTERCEPTION (INTERCEPTION)

Small and light particles are able to pass along the filter fibres with the air flow. If the particle gets close to the filament (the distance between the centre of the particle and the filament is less than the diameter of the particle), it touches the filament and is captured. The larger the particle, the more efficient the capture.

INERTIAL WEDGING

It is due to inertia. The heavier particles have a moment of inertia so great that they cannot follow the airflow around the filter fibres and continue in their original direction. This will cause them to impact and wedge on the fiber. Efficiency
inertial wedging increases with increasing air velocity, pollutant particle size and decreasing filter filament diameter.

DIFUZE

Particles smaller than 1 μm also do not continue in the direction of airflow around the fibres. The essence of diffusion is that at the stated particle size of the pollutant, the so-called diffusion of the pollutant already occurs. Brownian motion (this is the random oscillatory motion of microscopic particles in a gas or liquid). During this oscillation, a contact with the fiber occurs, which traps the particle. The probability that a particle will be captured by diffusion increases with decreasing air velocity, decreasing particle size and decreasing filter fibre diameter.