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DETECTORES DE GASES SERIE
II |
Matheson-Kitagawa:
Gran variedad de tubos detectores específicos para cada gas.
Detector y distintos tubos detectores están certificados por Safety
Equipment Institute (SEI). SEI es una reconocida organización que ofrece
programas de certificación para asistir a la industria de los equipos de
seguridad industrial para proteger a los trabajadores cumpliendo los standards
exigidos por organizaciones gubernamentales.
| Modelo |
Descripción |
| 8014KA |
Kit Detector de Gases Tóxicos: incluye bomba aprobada por SEI, repuestos, maletín de
transporte y Manual de Instrucciones. No incluye tubos detectores. |
| 8014GSK |
Kit Detector muestreador:
incluye kit 8014KA más una probeta toma muestra de 10 metros de
extensión y una caja de cada uno de los siguientes tubos detectores:
8014-105B, 118SB, 126SB, 106S, 110, 120SA,117SB, 103SC. |
| 8014-400A |
Bomba sola. |
| 8014-002 |
Goma de ajuste de entrada y
ring (paquete de 6 unidades) |
| 8014-003 |
Lubricante. |
| 8014-017 |
5 metros de manguera de
extensión para tomar muestras. |
| 8014-018 |
10 metros de manguera de
extensión para tomar muestras. |
| 8014-300K |
Kit indicador de flujo de
aire: incluye bulbo de aspiración y una caja de tubos de humos 8014-300. |
| 8014-PM2 |
Bomba personal para tubos
TWA. |
Description
The Matheson-Kitagawa Toxic Gas Detector System is a complete
“sampling and analysis’’ kit for on-the-spot readings. It is an
excellent method for day-to-day checking, screening, QC in the lab
or plant and spot testing. Non-technical employees can operate the
Matheson-Kitagawa System with a minimum of training.
The Model 8014KA Toxic Gas Detector System provides accurate,
dependable, and reproducible results in determining
concentrations of toxic gases and vapors. It has been proven
through extensive use by leading industrial companies and
government agencies. One constant and reproducible sample
volume reduces sampling and analysis errors — as opposed to
other pump designs, there are no orifice changes or multiple
strokes to keep track of. The same basic sampling technique
applies to all Matheson-Kitagawa Precision Detector Tubes.
Only three easy steps are required to operate the detector: (1)
break off the tips of a fresh detector tube, (2) insert the tube with
arrow pointing toward the pump into the pump’s sample inlet,
(3) pull out the pump handle to automatically lock, drawing a
100 cc sample. A proprietary Sample VueTM indicator shows when
sampling is completed. Only one stroke is needed for most
analyses; no need for multiple volumes or stroke counters.
Matheson-Kitagawa precision detector tubes are formulated with
high purity chemical reagents which absorb and react with the gas
or vapor being measured. The reaction causes a colorimetric stain
which varies in length to the concentration of the gas or vapor
being measured. The length of stain is normally read directly off a
scale printed on each tube. Four types of Matheson-Kitagawa
tubes provide the needed flexibility for different gases and
sampling conditions.
Request Brochure BR-56 and Tech-Brief TB-102-1 for complete
product specifications.
SEI Certification
The Matheson-Kitagawa precision sampling
pump and several detector tubes are certified
by the Safety Equipment Institute (SEI). SEI is a
recognized organization that offers certification programs to assist
the industrial safety equipment industry in providing the
American worker protective equipment that meets recognized
standards and current state of the art.
Fourth Edition Handbook
This handbook printed in 2001
contains all the information you
need to know concerning the
Matheson-Kitagawa Toxic Gas
Detector System. Detailed
specifications for every tube,
applications, system operating
principles and much more, are all
included in this comprehensive
source of information.
This book is a valuable reference
guide for anyone using a Matheson-
Kitagawa Toxic Gas Detector System.
Gas Detection & Monitors
Matheson-Kitagawa Precision Detector Tubes
Gas Detection & Monitors
Substance Measuring
To Be Measured Range (ppm) Tube No.
Acetaldehyde 0.004-1% 8014-1333A
Acetaldehyde 5-140 8014-133SB3
Acetic Acid 1-50 8014-216S1
Acetone 0.1-5.0% 8014-102SA
Acetone 0.01-4.0% 8014-102SC3
Acetone 100-5000 8014-102SD1
Acetylene 50-1000 8014-101S
Acetylene/Ethylene 20-300/200-2000 8014-280S
Acrolein 0.005-1.8% 8014-1363
Acrylonitrile 0.1-3.5% 8014-128SA
Acrylonitrile 10-500 8014-128B
Acrylonitrile 1-120 8014-128SC*3
Acrylonitrile 0.25-20 8014-128SD*
Allyl alcohol 20-500 8014-184S
Ammonia 0.5-10.0% 8014-105SA
Ammonia 50-900 8014-105SB
Ammonia 10-260 5-130 8014-105SC1
Ammonia 1-20 0.2-1 8014-105SD
Ammonia 0.5-30% 8014-105SH
Ammonia 0.1-1.0 8014-105SM
Aniline 2-30 1-15 8014-181S
Arsine 5-160 8014-140SA
Arsine 0.05-2.0 8014-121U
Benzene — in presence of 5-200 8014-118SB*
gasoline and/or other aromatic hydrocarbons
Benzene 1-100 8014-118SC1
Bromine 1-20 8014-114
Butadiene 0.03-2.6% 8014-168SA
Butadiene 30-600 8014-168SB
Butadiene 2.5-100 8014-168SC
n-Butane 0.05-0.6% 8014-221SA
1-Butanol 5-100 8014-190U
2-Butanol 4-300 8014-189U
Butyl acetate 0.01-1% 8014-139SB
Butyl acetate 15-400 8014-138U
Butyl acrylate 5-60 8014-211U
Butyl cellosolve 10-1000 8014-190U
Carbon dioxide 300-7000 100-1500 8014-126B
Carbon dioxide 0.1-2.6% 8014-126SA1
Carbon dioxide 0.05-1.0% 8014-126SB
Carbon dioxide 100-4000 8014-126SF
Carbon dioxide 0.02-1.4% 8014-126SG
Carbon dioxide 1.0-20.0% 8014-126SH
Carbon dioxide 5-50% 8014-126UH
Carbon dioxide/Oxygen 1-20%/2-10% 8015-281S
Carbon disulfide 30-500 8014-141SA*3
Carbon disulfide 2-50 1-25 8014-141SB*1,3
Carbon monoxide 5-1000 8014-100
Carbon monoxide 10-250 8014-106S1
Carbon monoxide 0.1-2.0% 8014-106SH
Carbon monoxide 0.1-20% 8014-106UH
Carbon monoxide 10-1000 8014-106B
Carbon monoxide — 10-100 8014-106C
in presence of ethylene and nitrogen oxides
Carbon monoxide 10-1000 8014-106SA
Carbon monoxide 1-50 8014-106SC
Carbon tetrachloride 0.5-60 8014-147S*3
Chlorine 1-40 8014-109SA
Chlorine 0.5-10 0.1-0.5 8014-109SB1
Chlorine 0.05-2 8014-109U
Carbonyl sulfide 5-60 8014-239S *
Free residual chlorine 0.4-5 8014-234SA
Chlorine dioxide 1-20 8014-116
Chlorobenzene 5-140 8014-178S
Chloroform 70-500 23-100 8014-152S*3
Chloropicrin 0.1-16 8014-172S*3
Chloroprene 0.5-32 8014-169S
Cresol 0.5-25 8014-183U
Cyclohexane 0.01-0.6% 8014-115S
Cyclohexanol 5-500 8014-206U
Cyclohexanone 2-100 8014-197U
Diacetone alcohol 10-250 8014-190U
Diborane 0.02-5 8014-242S
o-Dichlorobenzene 5-100 8014-214S
p-Dichlorobenzene 10-150 8014-215S
1,1-Dichloroethane 10-160 8014-235S*3
1,2-Dichloroethane 5-50 8014-230S*3
1,2-Dichloroethylene 5-400 8014-145S*3
Dichloromethane 30-1000 10-200 8014-180S*3
1,3-Dichloropropane 10-500 8014-194S*3
Diethylamine 1-20 8014-222S
Diethyl ether 0.04-1.4% 8014-107SA
Diethyl ether 20-400 8014-107U
Dimethyl ether 0.01-1.2% 8014-123S
N,N-Dimethylacetamide 5-70 8014-229S
N,N-Dimethyl formamide 1-30 8014-196S
Dioxane 0.05-2.5% 8014-139SB
Dioxane 20-500 8014-119U
Epichlorohydrin 5-50 8014-192S*
Ether 0.04-1.4% 8014-107SA
Ether 20-400 8014-107U
Ethyl acetate 0.1-5.0% 8014-111SA
Ethyl acetate 20-1000 8014-111U
Ethyl acrylate 5-60 8014-211U
Ethyl alcohol 0.05-5.0% 8014-104SA
Ethyl benzene 10-500 8014-179S
Ethyl cellosolve 5-500 8014-190U
Ethyl cellosolve acetate 5-150 8014-190U
Ethyl mercaptan 1-160 8014-165SA
Ethyl mercaptan in LP Gas 2.5-80 8014-165SB
Ethylene 0.5-100 0.1-20 8014-108B
Ethylene 20-1200 8014-108SA
Ethylene/Acetylene 200-2000/20-30 8014-280S
Ethylene dibromide 1-50 8014-166S*3
Ethylene glycol 20-250 mg/m3 8014-232SA*
Ethylene glycol 3-40 mg/m3 8014-232SB*
Ethylene oxide 0.01-1.8% 1-4% 8014-122SA*
Ethylene oxide 5-100 8014-122SB++
Ethylene oxide 1-15 8014-122SC
Formaldehyde 1-35 8014-171SB*1
Formaldehyde 20-1500 8014-171SA*3
Formaldehyde 0.1-4 8014-171SC
Formic acid 1-50 8014-216S
Furan 0.01-1.0% 0.2-2.0% 8014-161S
Furfural 2-60 8014-190U
Furfuryl alcohol 2-25 8014-238S
Gasoline 0.05-0.6% 8014-110S
General hydrocarbons 50-1400 8014-187S
Heptane 100-2000 8014-113SB
n-Hexane 0.05-0.6% 8014-113SA
n-Hexane 50-1400 8014-113SB*
n-Hexane 5-800 8014-113SC
Hydrazine 0.05-10 8014-219S
Hydrogen 0.05-0.8% 8014-137U**
Hydrogen chloride 20-600 40-1200 8014-173SA
Hydrogen chloride 0.4-40 8014-173SB*1
Hydrogen cyanide 0.01-3.0% 8014-112SA
Hydrogen cyanide 0.5-100 8014-112SB1,3
Hydrogen fluoride 1-30 8014-156S1
Hydrogen selenide 5-600 1-100 8014-167S
Hydrogen sulfide 1-60 8014-120SD1
Hydrogen sulfide 0.2-6.0 8014-120U
Hydrogen sulfide .05-1.2% 8014-120SM
Hydrogen sulfide 3-150 0.75-37.5 8014-120SB
Hydrogen sulfide — 0.005-0.16% 8014-120SC
in presence of sulfur dioxide
Hydrogen sulfide 0.5-40 8014-120SE
Hydrogen sulfide 50-2000 8014-120SF
Hydrogen sulfide 0.1-4.0% 8014-120SH
Hydrogen sulfide 2-20% 8014-120UH
Hydrogen sulfide 2.5-40% 8014-120UT**
Hydrogen sulfide/Mercaptans 1-30/0.5-5 8014-282S
Inorganic gases, qualitative — 8014-131
Isoamyl acetate 10-400 8014-188U
Isobutane 50-1200 8014-113SB
Isobutyl acetate 0.01-1.4% 8014-139SB
Isobutyl acetate 10-400 8014-153U
Isobutyl acrylate 5-60 8014-211U
Isobutyl alcohol 5-100 8014-208U
Isopentyl alcohol 5-100 8014-209U
Isoprene 1-16 8014-190U
Isopropyl acetate 0.01-1.2% 8014-139SB
Isopropyl acetate 20-1000 8014-111U
Isopropyl alcohol 0.05-2.5% 8014-150SA
Isopropyl alcohol 20-1200 8014-150U
Isopropyl mercaptan 0.5-10 8014-130U
Mercaptans 0.5-10 8014-130U
Mercaptans/H2S 0.5-5/1-30 8014-282S
Mercury vapor 0.5-10 0.1-2.0 mg/m3 8014-142S
Mesityl oxide 5-100 8014-190U
Methyl acetate 0.01-3.0% 8014-111SA
Methyl acrylate 5-60 8014-211U
Methyl alcohol 0.05-6.0% 8014-119SA
Methyl alcohol 20-1000 8014-119U
Methyl amine 1-20 8014-227S
Methyl bromide 10-500 8014-157SA*3
Methyl bromide 0.4-80 8014-157SB*1,3
Methyl bromide 0.5-10 8014-157SC*
Methyl cellosolve 5-500 8014-190U
Methyl chloroform 15-400 8014-160S*3
(1,1,1-Tri-chloroethane)
Methyl cyclohexanol 5-200 8014-199U
Methyl cyclohexanone 2-100 8014-198U
Methyl ethyl ketone 0.05-2.2% 8014-122SA
Methyl ethyl ketone 0.01-1.4% 8014-139SB
Methyl ethyl ketone 20-1500 8014-139U
Methyl iodide 5-40 8014-176S*3
Methyl isobutyl ketone 0.01-0.6% 8014-155S
Methyl isobutyl ketone 5-300 8014-155U
Methyl mercaptan 5-140 8014-164SA
Methyl mercaptan 50-1000 8014-164SH
Methyl methacrylate 10-160 8014-184S
Methyl styrene 10-500 8014-193S
Naphthalene 10-100 8014-153U
Nickel carbonyl 20-700 8014-129
Nitric Acid vapor 1-20 8014-233S3
Nitrogen dioxide 20-1000 8014-117SA
Nitrogen dioxide 0.5-30 8014-117SB1
Nitrogen dioxide 0.1-10 8014-117SC
Nitrogen oxide and dioxide – NO 10-300 8014-174A1
separately measurable NO2 1-40
Nitrogen oxides 20-250 8014-175SA*
Nitrogen oxides 100-2500 8014-175SH
Nitrogen oxides 0.5-30 8014-175U3
Organic compounds 5-2500 8014-186
Organic gases, qualitative –– 8014-186B
Oxygen (flame req’d) 2-24% 8014-159SA*
Oxygen (no flame) 2-24% 8014-159SB**
Oxygen (non-heating type) 1.5-24% 8014-159SC*
Oxygen/Carbon dioxide 2-10%/1-20% 8014-281S
Ozone 0.05-3.0 8014-182U1
Ozone 50-1000 8014-182SA
Ozone 2.5-100 8014-182SB
Pentane 50-1000 8014-113SB*
Pentyl acetate 10-100 8014-210U
Perchloroethylene 5-300 8014-135SA*
Phenol 0.5-25 8014-183U
Phosgene 0.1-0.5 0.5-20 8014-146S3
Phosphine 0.05-2.0 8014-121U1
Phosphine 20-700 8014-121SC
Phosphine 0.25-10 8014-121SD
Phosphine in acetylene 20-800 8014-121SA•
Phosphine in acetylene 5-90 8014-121SB•
Propane 0.02-0.5% 8014-125SA
Propyl acetate 0.01-1.4% 8014-139SB
Propyl acetate 20-1000 8014-151U
Propylene 50-1000 8014-185S
Propylene oxide 0.05-5.0% 8014-163SA
Silane 0.5-50 8014-240S
Smoke tube (Air Flow Indicator) — 8014-300
Styrene 2.5-300 8014-158S
Sulfur dioxide 0.1-3.0% 8014-103SA
Sulfur dioxide 0.02-0.3% 8014-103SB
Sulfur dioxide — in flue gas 0.02-0.3% 8014-103SF
Sulfur dioxide 20-300 8014-103SC
Sulfur dioxide 1-60 8014-103SD1
Sulfur dioxide 0.25-10 8014-103SE
Tetrachloroethylene 5-300 8014-135SA*3
Tetrachloroethylene 5-160 8014-243U
Tetrachloroethylene 0.2-10 8014-135SB3
Tetrachloroethylene 0.05-2% 8014-135SH
Tetraethoxysilane 5-160 8014-243U
Tetrahydrofuran 0.05-5.0% 8014-102SA
Tetrahydrofuran 20-500 8014-162U
Toluene 10-500 8014-124SA*1
Toluene 2-100 8014-124SB
Toluene 100-3000 8014-124SH
1,1,2-Trichloroethane 10-100 8014-236S*3
Trichloroethylene 1-16 8014-134SB3
Trichloroethylene 5-300 8014-134SA*1,3
Trichloroethylene 0.05-2% 8014-134SH
Triethylamine 1-20 8014-213S
Trimethylamine 1-20 8014-222S
Trimethylbenzene 10-250 8014-111U
Vinyl acetate 5-120 8014-237S
Vinyl chloride 0.05-1% 8014-132SA
Vinyl chloride 5-500 8014-132SB*3
Vinyl chloride 0.1-12 8014-132SC*1
Water vapor 1.7-33.8 mg/l 8014-177SA
Water vapor 0.05-2.0 mg/l 8014-177U
Water vapor 3-80 LB/MMCF 8014-177UL
Xylene 5-1000 8014-143SA1
Xylene 5-200 8014-143SB
Substance Measuring
To Be Measured Range (ppm) Tube No.
Formaldehyde 0.1-4 8014-171SC
Chloride Ion 10-2000/5-40 8014-201SA3
Chloride Ion 3-200 8014-201SB
Chlorine, residual 0.4-5 8014-234SA
Copper Ion 1-100 8014-203S3
Cyanide Ion .2-5 8014-204S3
Iron Ion 50-400 8014-2023
Salinity 0.01-0.8% 8014-205SL
Sulfide Ion 2-1000 8014-200SA
Sulfide Ion 0.5-10 8014-200SB
Matheson-Kitagawa Detector
Tubes Used for Dissolved
Substances In Solution
Notes: Most tubes are in stock for immediate delivery. Matheson guarantees
all tubes will have a minimum of three months shelf life remaining when
shipped, although they will typically contain more.
1 SEI certified.
2Pending SEI certification.
ppm: parts per million
mg/m3: approximate milligrams of substance per cubic meter of air.
All “S”and “U” tubes are direct reading.
All tubes are packaged 10 tubes per box unless otherwise noted.
* Five detector tubes, five pretreat tubes per box.
**Five detector tubes per box.
+ Five detector tubes per box, each tube for one NO/NO2 test.
• Orifice to be inserted in 8014-400A pump before sampling (P/N 8014-001).
3 Requires refrigeration (2-10°C.) for storage
Request Brochure BR-56 and Tech/Brief TB-102-1 and associated tube listing for
complete product specifications on Matheson-Kitagawa Gas Detection products.
USO DE LOS TUBOS DETECTORES DE LECTURA
NO DIRECTA Y DE DOBLE ESCALA
1)
Cortar los extremos del tubo usando el orificio de corte que dispone de
la bomba
2)
Ajustar el extremo del tubo que posee un punto rojo en la boca de entrada
de la bomba
3)
Si la concentración de dióxido de carbono se estima entre 0.03 y 0.7%
succionar con una embolada que en total dure 5 minutos. Luego hacer la lectura
4)
Si la concentración esperada es de 100 a 1500 ppm realizar 3 emboladas de
una duración de 5 minutos cada una. Luego hacer la lectura
Lectura usando la
carta de concentración para los tubos detectores:
1)
Colocar el tubo con el extremo con el punto rojo hacia arriba, haciendo
coincidir la línea 00 (base)
de la tabla de concentraciones con el inicio de la columna de reactivo.
2)
Desplazar el tubo en forma paralela a los ejes X sobre el eje horizontal.
Hacer coincidir el extremo superior que alcanzó la columna coloreada con una de
las líneas que aparece en la carta y que es la que indica la concentración
encontrada. Durante el desplazamiento mantener siempre el extremo inferior de la
columna coloreada sobre el 00 de la carta
En caso que ninguna línea coincida exactamente con el extremo
superior de la columna coloreada del tubo la lectura se obtiene por
extrapolación entre las dos líneas de concentración
3)
Corregir la lectura en función a la temperatura ambiente usando la tabla
de correcciones de temperatura
IMPORTANTE:
Las mediciones son
válidas para temperaturas ambientes de 0 a 40oC
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A R G E N T I N A IyE