ČSN EN ISO 29464 - Čištění vzduchu a jiných plynů – Terminologie
| Stáhnout normu: | ČSN EN ISO 29464 (Zobrazit podrobnosti) Zákazníci, kteří mají na svém počítači sjednanou od České agentury pro standardizaci (ČAS) službu ČSN on-line pro elektronický přístup do plných textů norem v pdf (verzi pro firmy nebo pro jednotlivce), mohou zde přímo otevírat citované ČSN. |
| Datum vydání/vložení: | 2021-02-01 |
| Třidící znak: | 125000 |
| Obor: | Filtry a výměníky, všeobecně |
| ICS: |
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| Stav: | Platná |
- 3.1.1 air cleaner
- 3.1.2 air velocity
- 3.1.3 bypass
- 3.1.4 calibrate
- 3.1.5 capture
- 3.1.6 classification
- 3.1.7 concentration
- 3.1.8 contaminant
- 3.1.9 contamination
- 3.1.10 decontamination factor
- 3.1.11 downstream
- 3.1.12 efficiency
- 3.1.13 average efficiency
- 3.1.14 effluent
- 3.1.15 face velocity
- 3.1.16 filter
- 3.1.17 filter face area
- 3.1.18 nominal filter face area
- 3.1.19 filter insert
- 3.1.20 filter medium
- 3.1.21 filter medium area
- 3.1.22 effective filter medium area
- 3.1.23 filter medium velocity
- 3.1.24 flow rate
- 3.1.25 nominal flow rate
- 3.1.26 air flow rate, test
- 3.1.27 rated flow
- 3.1.28 gas
- 3.1.29 header frame
- 3.1.30 holding frame
- 3.1.31 housing
- 3.1.32 hood
- 3.1.33 leak
- 3.1.34 penetration
- 3.1.35 reference device
- 3.1.36 resistance to air flow
- 3.1.37 test air
- 3.1.38 test device
- 3.1.39 upstream
- 3.1.40 washer
- 3.2.1 aerosol
- 3.2.2 liquid phase aerosol
- 3.2.3 monodisperse aerosol
- 3.2.4 aerosol photometer
- 3.2.5 polydisperse aerosol
- 3.2.6 quasi-monodisperse aerosol
- 3.2.7 reference aerosol
- 3.2.8 solid phase aerosol
- 3.2.9 test aerosol
- 3.2.10 agglomerate
- 3.2.11 agglomeration
- 3.2.12 agglutination
- 3.2.13 aggregate
- 3.2.14 arrestance
- 3.2.15 average arrestance
- 3.2.16 average gravimetric arrestance
- 3.2.17 gravimetric arrestance
- 3.2.18 initial arrestance
- 3.2.19 initial gravimetric arrestance
- 3.2.20 ash
- 3.2.21 fly ash
- 3.2.22 bioaerosol
- 3.2.23 burst pressure
- 3.2.24 calibration particle
- 3.2.25 dust holding capacity
- 3.2.26 test dust capacity
- 3.2.27 cleaning
- 3.2.28 clogging
- 3.2.29 coagulation losses
- 3.2.30 coalescence
- 3.2.31 coefficient of variation
- 3.2.32 coincidence error
- 3.2.33 correlation ratio
- 3.2.34 correlation ratio
- 3.2.35 counting efficiency
- 3.2.36 counting rate
- 3.2.37 cyclone
- 3.2.38 DiEthylHexylSebacate
- 3.2.39 equivalent diameter
- 3.2.40 median diameter
- 3.2.41 count median diameter of aerosol
- 3.2.42 final differential pressure
- 3.2.43 initial differential pressure
- 3.2.44 mean differential pressure
- 3.2.45 recommended final differential pressure
- 3.2.46 diluter
- 3.2.47 dispersion
- 3.2.48 D.O.P.
- 3.2.49 DOP
- 3.2.50 droplet
- 3.2.51 dust
- 3.2.52 dust control
- 3.2.53 dust feeder
- 3.2.54 loading dust
- 3.2.55 collection efficiency
- 3.2.56 conditioned efficiency
- 3.2.57 counting efficiency
- 3.2.58 dust loaded efficiency
- 3.2.59 fractional efficiency
- 3.2.60 initial efficiency
- 3.2.61 integral efficiency
- 3.2.62 local filter efficiency
- 3.2.63 minimum filter efficiency
- 3.2.64 particle size efficiency (%)
- 3.2.65 elutriation
- 3.2.66 superficial face area
- 3.2.67 brush filter
- 3.2.68 cartridge filter
- 3.2.69 cellular filter
- 3.2.70 ceramic filter
- 3.2.71 charged filter
- 3.2.72 filter class
- 3.2.73 cleanable filter
- 3.2.74 coarse filter
- 3.2.75 disposable filter
- 3.2.76 efficient particulate air filter
- 3.2.77 filter element
- 3.2.78 fabric filter
- 3.2.79 fibrous filter
- 3.2.80 final filter
- 3.2.81 fine filter
- 3.2.82 filter group designation
- 3.2.83 group of filters
- 3.2.84 HEPA filter
- 3.2.85 filter installation
- 3.2.86 metal filter
- 3.2.87 filter pack
- 3.2.88 panel filter
- 3.2.89 particulate air filter
- 3.2.90 pocket filter
- 3.2.91 renewable media filter
- 3.2.92 roll filter
- 3.2.93 self-cleaning filter
- 3.2.94 filter type
- 3.2.95 ULPA filter
- 3.2.96 sampling volume flow rate
- 3.2.97 service flow
- 3.2.98 folded pack
- 3.2.99 fume
- 3.2.100 general ventilation
- 3.2.101 grit
- 3.2.102 impact
- 3.2.103 impaction
- 3.2.104 isoaxial sampling
- 3.2.105 isokinetic sampling
- 3.2.106 KCl
- 3.2.107 measuring procedure with fixed sampling probes
- 3.2.108 minimum fractional test efficiency
- 3.2.109 mist
- 3.2.110 neutralisation
- 3.2.111 particle
- 3.2.112 particle bounce
- 3.2.113 particle concentration method
- 3.2.114 particle counter
- 3.2.115 allowable measurable concentration of the particle counter
- 3.2.116 particle counter border zone error
- 3.2.117 particle counter calibration curve
- 3.2.118 condensation particle counter
- 3.2.119 optical particle counter
- 3.2.120 particle counter sizing accuracy
- 3.2.121 particle counter sizing resolution
- 3.2.122 particle counter sampling flow rate
- 3.2.123 particle counting and sizing method
- 3.2.124 particle diameter
- 3.2.125 count mean particle diameter
- 3.2.126 mean diameter
- 3.2.127 particle flow distribution
- 3.2.128 particle flow rate
- 3.2.129 particle lower size limit
- 3.2.130 particle number
- 3.2.131 particle number concentration
- 3.2.132 particle production rate
- 3.2.133 particle size
- 3.2.134 particle size analysis
- 3.2.135 particle size distribution
- 3.2.136 most penetrating particle size
- 3.2.137 particle size range
- 3.2.138 particle upper size limit
- 3.2.139 particulate matter
- 3.2.140 particulate matter efficiency
- 3.2.141 particulate matter
- 3.2.142 particulate matter
- 3.2.143 particulate matter
- 3.2.144 porous layer
- 3.2.145 precipitation
- 3.2.146 electrostatic precipitator
- 3.2.147 purification
- 3.2.148 re-entrainment
- 3.2.149 removal efficiency by particle size
- 3.2.150 final resistance to air flow
- 3.2.151 initial resistance to air flow
- 3.2.152 recommended final resistance to air flow
- 3.2.153 sampling duration
- 3.2.154 scan test
- 3.2.155 sedimentation
- 3.2.156 separator
- 3.2.157 droplet separator
- 3.2.158 dust separator
- 3.2.159 shedding
- 3.2.160 smoke
- 3.2.161 soot
- 3.2.162 suspension
- 3.2.163 system efficiency
- 3.2.164 total particle count method
- 3.2.165 transmission
- 3.2.166 undersize
- 3.2.167 user nominal air volume flow rate
- 3.2.168 user nominal filter medium velocity
- 3.2.169 zero count rate
- 3.3.1 test aerosol
- 3.3.2 test air flow rate
- 3.3.3 average gravimetric efficiency
- 3.3.4 gravimetric efficiency
- 3.3.5 minimum efficiency
- 3.3.6 particulate efficiency
- 3.3.7 depth loading filter
- 3.3.8 low efficiency filter
- 3.3.9 medium efficiency filter
- 3.3.10 high efficiency filter
- 3.3.11 pulse jet filter
- 3.3.12 static filter
- 3.3.13 surface loading filter
- 3.3.14 untreated filter
- 3.3.15 final test pressure drop
- 3.3.16 recommended final test pressure drop
- 3.3.17 initial pressure drop
- 3.4.1 aged flat filter sheet
- 3.4.2 air permeability
- 3.4.3 average gas concentration
- 3.4.4 batch type exposure chamber
- 3.4.5 chemical degradation
- 3.4.6 continuous-flow-method
- 3.4.7 corrosive gas
- 3.4.8 degradation
- 3.4.9 elongation
- 3.4.10 elongation at maximum load
- 3.4.11 elongation ratio
- 3.4.12 elongation ratio at maximum load
- 3.4.13 exposure chamber
- 3.4.14 flow-through type replacement
- 3.4.15 initial load
- 3.4.16 length between holders
- 3.4.17 load
- 3.4.18 non-continuous-flow-method
- 3.4.19 nonwoven fabric
- 3.4.20 number of replacement
- 3.4.21 replacement of gas
- 3.4.22 retention of tensile strength
- 3.4.23 strip method
- 3.4.24 tensile speed
- 3.4.25 tensile strength
- 3.4.26 test gas
- 3.4.27 thermal exposure
- 3.4.28 vacuum replacement
- 3.4.29 woven fabric
- 3.5.1 absorption
- 3.5.2 active site
- 3.5.3 adsorbate
- 3.5.4 adsorbent
- 3.5.5 regenerable adsorbent
- 3.5.6 ageing of adsorbent
- 3.5.7 adsorption
- 3.5.8 activated alumina
- 3.5.9 bed depth
- 3.5.10 breakthrough time
- 3.5.11 breakthrough vs. time curve
- 3.5.12 adsorbate capacity
- 3.5.13 challenge air stream
- 3.5.14 challenge concentration
- 3.5.15 challenge compound
- 3.5.16 channelling
- 3.5.17 activated charcoal
- 3.5.18 chemisorption
- 3.5.19 close valve time
- 3.5.20 decay time
- 3.5.21 desorption
- 3.5.22 efficiency vs. capacity curve
- 3.5.23 efficiency vs. time curve
- 3.5.24 end efficiency
- 3.5.25 initial efficiency
- 3.5.26 removal efficiency
- 3.5.27 carbon filter
- 3.5.28 sorption filter
- 3.5.29 filtration
- 3.5.30 flow rate sampling point
- 3.5.31 test volume flow rate
- 3.5.32 gas phase air cleaning device
- 3.5.33 GPAC medium or device face area
- 3.5.34 gas phase air cleaning medium
- 3.5.35 GPACM-LF
- 3.5.36 GPACM-FL
- 3.5.37 GPACM-TS
- 3.5.38 gas purifier
- 3.5.39 lag time
- 3.5.40 molecular contamination
- 3.5.41 molecular sieve
- 3.5.42 open valve time
- 3.5.43 ppb(v)
- 3.5.44 ppm(v)
- 3.5.45 physisorption
- 3.5.46 pores
- 3.5.47 macro-pores
- 3.5.48 meso-pores
- 3.5.49 micro-pores
- 3.5.50 ambient pressure
- 3.5.51 purge time
- 3.5.52 residence time
- 3.5.53 retentivity
- 3.5.54 separator
- 3.5.55 sorbates
- 3.5.56 sorption
- 3.5.57 space velocity
- 3.5.58 test end time
- 3.5.59 test start time
- 3.5.60 transit time
- 3.5.61 vapour
- 3.5.62 zeolite
- 3.6.1 cutaneous damage
- 3.6.2 disinfection
- 3.6.3 erythema
- 3.6.4 exposure
- 3.6.5 fluence rate
- 3.6.6 in-duct systems
- 3.6.7 irradiance
- 3.6.8 effective irradiance
- 3.6.9 ocular damage
- 3.6.10 permissible exposure time
- 3.6.11 personal protective equipment
- 3.6.12 photokeratitis
- 3.6.13 photokeratoconjunctivitis
- 3.6.14 portable in-room disinfection UVC device
- 3.6.15 radiometer
- 3.6.16 stratum corneum
- 3.6.17 Threshold Limit Value®
- 3.6.18 ultraviolet radiation
- 3.6.19 UV dose
- 3.6.20 ultraviolet germicidal irradiation
- 3.6.21 upper-air in-room systems
- 3.6.22 waveband
- 3.6.23 wavelength
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Nahlásit chybu
minimum value of the filter efficiency curve under given operating conditions
3.2.63 minimum filter efficiency
minimum value of the filter efficiency curve under given operating conditions