Nacházíte se:
Domů »
Terminologická databáze »
ČSN EN ISO 29464 - user nominal filter medium velocity
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: |
|
| 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
‹
Nahlásit chybu
air volume flow rate specified by the user divided by the effective filter medium area (3.1.22)
3.2.168 user nominal filter medium velocity
air volume flow rate specified by the user divided by the effective filter medium area (3.1.22)