FFP standards refer to the filtering half mask classification by EN 149, a European standard of testing and marking requirements for filtering half masks.[1] FFP standard masks (where FFP stands for filtering facepiece)[2] cover the nose, mouth and chin and may have inhalation and/or exhalation valves.[1]
EN 149 defines three classes of such particle half masks, called FFP1, FFP2 and FFP3, according to their filtering efficiency. It also classifies masks into "single shift use only" (not re-usable, marked NR) or "re-usable (more than one shift)" (marked R), while an additional marking letter D indicates that a mask has passed an optional clogging test using dolomite dust. Such mechanical filter respirators protect against the inhalation of particulates such as dustparticles, droplets, and aerosols.[3]
Almost identical tests (but different markings) are used in Australia, New Zealand, Korea and Brazil. Similar standards are used in the United States, China and Japan. For example, EN 149 FFP2 masks have similar performance requirements to N95 masks in the United States and KN95 filters of China, and EN 149 FFP3 masks have similar performance requirements to N99 masks in the United States. However EN 149 test requirements differ somewhat from the U.S./Chinese/Japanese standards: EN 149 requires an additional paraffin oil (paraffinum perliquidum) aerosol test and it tests at a range of different flow rates and defines several associated and permissible pressure drop levels.[4][5]
Classification
The EN 149 standard defines performance requirements for three classes of particle-filtering half masks: FFP1, FFP2 and FFP3. The protection provided by an FFP2 (or FFP3) mask includes the protection provided by a mask of the lower-numbered classes.
A mask conforming to the standard must have its class written on it, along with the name of the standard and its year of publication, as well as any applicable option codes, e.g. “EN 149:2001 FFP1 NR D”. Some manufacturers use in addition the colour of the elastic band to identify the mask class, however, the EN 149 standard does not specify any such colour coding and different manufacturers have used different colour schemes.
The FFP3 mask is the most filtering of the FFP masks. It protects against very fine particles such as asbestos and ceramic. It does not protect against gases and in particular oxides of nitrogen.[8]
Requirements
EN 149 defines laboratory tests, field tests and certain requirements to ensure the conformity of the masks. The following points are analyzed:
Packaging
Materials: resistance to manipulation
Practical performance test
Leakage: total leakage inwards and penetration of the filter material
There are some European organizations that issue an examination certificate confirming conformity and specifying the characteristics of the products:
With the publication of the 2009 version of the standard, the designation of the respiratory protection mask is now "particulate filtering half mask". The abbreviation NR or R is added after FFP1, FFP2, FFP3:
NR (not reusable): if the use of the filtering half-face mask is limited to one working day. It is not reusable.
R (reusable): if the filtering half-face mask can be used for more than one working day, so it is reusable.
Additional suffixes include:
Anti-clogging NR masks (D). When the half mask has passed the dolomite dust test, a letter D can be added to indicate that the service life may exceed 8 h.[11] Example: FFP3 NR D.
Valve. The presence of a valve can be indicated by the letter V.[12][citation needed]
Particulate type. The letters S or L respectively specify the filtration of solid dust (NaCl-only) or liquid mist (paraffin oil). Example: FFP3 SLV.[13]
Masks manufactured before the new standard was taken into account may still have the old marking.
Marking
FFP respirators are a type of personal protective equipment (PPE). Here is the notice that should appear on every mask:
Manufacturer's name
Mask
CE number of the certification body (only FFP3) + EN 149: 2009 + the mask class (FFP1, FFP2 or FFP3) + acronym (NR or R) (Note: in case of FFP1 the conformity assessment procedures are done by the manufacturer itself as per Annex IV (Module A)
The marking must comply with European Union Directive 89/686 / EEC[6] on PPE. If any of these entries are missing, the mask will be considered non-compliant.
Medical use
EN 149 tests the ability of masks to protect the wearers against inhaling liquid and dry aerosols. It makes no statement about, and does not specifically test the suitability of such masks for, infection control against airborne transmission of pathogens through respiratory droplets. Nevertheless, FFP2 and FFP3 masks are commonly used for this purpose in medical practice. A researcher at the MRC Biostatistics Unit at Cambridge University claimed in 2021 that switching to FFP3 in Addenbrooke hospital in Cambridge may have cut ward-based Covid infection of staff to zero.[14]
Several regions use standards based on nearly identical tests and thresholds as those in EN 149, but with different markings:[4]
Russia (GOST R 12.4.191-2011): identical.
South Korea (KMOEL - 2017–64): considered identical to pre-2009 version. FFP1 is called "2nd grade" or KF80, FFP2 "1st grade" or KF94, and FFP3 "special grade" or KF99.[15]
Australia and New Zealand (AS/NZ 1716:2012): similar grades with a different test agent. Grades are written simply "P".
Brazil (ABNT/NBR 13698:2011): identical to pre-2009 version. Grades are written as "PFF".[16]
Other regions use similar tests that (in parts) resemble more closely the 42 CFR 84 requirements in the United States:
Japan (JMHLW-Notification 214, 2018): similar grades with a different coding scheme for NR/R and S/L types. Written with a two-letter prefix D/R and S/L that maps to NR/R and S/L respectively. Leakage requirement not present.[17]
Taiwan (CNS 14755): D1/D2/D3 grades for 80/95/99 efficiency. No requirements for inward leakage.
A gas mask is an item of personal protective equipment used to protect the wearer from inhaling airborne pollutants and toxic gases. The mask forms a sealed cover over the nose and mouth, but may also cover the eyes and other vulnerable soft tissues of the face. Most gas masks are also respirators, though the word gas mask is often used to refer to military equipment, the scope used in this article. The gas mask only protects the user from digesting, inhaling, and contact through the eyes. Most combined gas mask filters will last around 8 hours in a biological or chemical situation. Filters against specific chemical agents can last up to 20 hours.
Personal protective equipment (PPE) is protective clothing, helmets, goggles, or other garments or equipment designed to protect the wearer's body from injury or infection. The hazards addressed by protective equipment include physical, electrical, heat, chemical, biohazards, and airborne particulate matter. Protective equipment may be worn for job-related occupational safety and health purposes, as well as for sports and other recreational activities. Protective clothing is applied to traditional categories of clothing, and protective gear applies to items such as pads, guards, shields, or masks, and others. PPE suits can be similar in appearance to a cleanroom suit.
HEPA filter, also known as high-efficiency particulate absorbing filter and high-efficiency particulate arrestance filter, is an efficiency standard of air filters.
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A respirator is a device designed to protect the wearer from inhaling hazardous atmospheres including fumes, vapours, gases and particulate matter such as dusts and airborne pathogens such as viruses. There are two main categories of respirators: the air-purifying respirator, in which respirable air is obtained by filtering a contaminated atmosphere, and the air-supplied respirator, in which an alternate supply of breathable air is delivered. Within each category, different techniques are employed to reduce or eliminate noxious airborne contaminants.
A dust mask is a flexible paper pad held over the nose and mouth by elastic or rubber straps for personal comfort against non-toxic nuisance dusts. They are not intended to provide protection from toxic airborne hazards. The European FFP1 mask, the lowest-grade mechanical filter respirator available in the jurisdiction, is also used as a dust mask.
A concrete grinder can come in many configurations, the most common being a hand-held angle grinder, but it may be a specialized tool for countertops or worktops. Angle grinders are small and mobile, and allow one to work on harder to reach areas and perform more precise work.
A respiratory droplet is a small aqueous droplet produced by exhalation, consisting of saliva or mucus and other matter derived from respiratory tract surfaces. Respiratory droplets are produced naturally as a result of breathing, speaking, sneezing, coughing, or vomiting, so they are always present in our breath, but speaking and coughing increase their number.
A respirator fit test checks whether a respirator properly fits the face of someone who wears it. The fitting characteristic of a respirator is the ability of the mask to separate a worker's respiratory system from ambient air.
The NIOSH air filtration rating is the U.S. National Institute for Occupational Safety and Health (NIOSH)'s classification of filtering respirators. The ratings describe the ability of the device to protect the wearer from solid and liquid particulates in the air. The certification and approval process for respiratory protective devices is governed by Part 84 of Title 42 of the Code of Federal Regulations. Respiratory protective devices so classified include air-purifying respirators (APR) such as filtering facepiece respirators and chemical protective cartridges that have incorporated particulate filter elements.
A powered air-purifying respirator (PAPR) is a type of respirator used to safeguard workers against contaminated air. PAPRs consist of a headgear-and-fan assembly that takes ambient air contaminated with one or more type of pollutant or pathogen, actively removes (filters) a sufficient proportion of these hazards, and then delivers the clean air to the user's face or mouth and nose. They have a higher assigned protection factor than filtering facepiece respirators such as N95 masks. PAPRs are sometimes called positive-pressure masks, blower units, or just blowers.
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Respirators, also known as respiratory protective equipment (RPE) or respiratory protective devices (RPD), are used in some workplaces to protect workers from air contaminants. Initially, respirator effectiveness was tested in laboratories, but in the late 1960s it was found that these tests gave misleading results regarding the level of protection provided. In the 1970s, workplace-based respirator testing became routine in industrialized countries, leading to a dramatic reduction in the claimed efficacy of many respirator types and new guidelines on how to select the appropriate respirator for a given environment.
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During the COVID-19 pandemic, face masks or coverings, including N95, FFP2, surgical, and cloth masks, have been employed as public and personal health control measures against the spread of SARS-CoV-2, the virus that causes COVID-19.
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