Aerosol Analyzer <ZSF>

Aerosol Analyzer <ZSF>
Measurement result screen
Measurement result screen

Real-time, quantitative measurement of aerosol (PM2.5) in the air

  • Real-time monitoring
    Takes only 15 minutes for quantitative analysis of each component, which used to take more than 8 hours by manual analysis.
  • Simultaneous and quantitative analysis of particle size, number of particles, and composition
    Combination of MEMS technology, laser technology, and particle concentrating technology enables real-time and quantitative analysis of particle size, number of particles, composition (sulfate, nitrate, black carbon) of aerosol in the air, thus delivering mass concentration measurement.
  • High accuracy ensured by a combination of multiple principles
    Light diffusion method (for particle size and number of particles), laser-induced incandescence method (for black carbon), quadrupole mass spectrometry with MEMS particle trap (for sulfate and nitrate) are used to provide accurate measurement.
  • Easy-to-use touch screen
    From the front touch screen you can perform major operations such as indication of measured value and alarms, monitoring of operating status, and so on.

General specifications

Power supply voltage 100 V AC ±10%, 50/60 Hz ±5% or
220 V AC ±10%, 50 Hz ±5%
Power consumption Approx. 1 kVA (Max. 1.5 kVA)
Ambient temperature 15–30°C
Ambient humidity 30–75% RH
Dimensions 640 (H) × 1,740 (W) × 828 (D) mm
Weight Approx. 350 kg
Cubicle structure Indoor installation (with casters), single-swing front/rear doors
Cubicle finish color Front cover: silver (dark), Mansell N6.7 equivalent
Rear cover and side panels: black, Mansell N1.5 equivalent
Sampling port Port connector SS-401-PC (Swagelok), on the top surface of the main body
Exhaust port KF16 flange (scroll pump DIS-90)

Measurement

Target ・Mass concentration of aerosol
・Mass concentration of black carbon in aerosol
・Mass concentration of sulfate in aerosol
・Mass concentration of nitrate in aerosol
Principle ・Light diffusion method : mass concentration of aerosol
・Laser-induced incandescence method : mass concentration of black carbon
・Quadrupole mass spectrometry : mass concentration of sulfate and nitrate
Measurement range ・Aerosol: 0–100 μg/m3 or 0–1,000 μg/m3
・Black carbon: 0–30 μg/m3 or 0–300 μg/m3
・Sulfate: 0–30 μg/m3 or 0–300 μg/m3
・Nitrate: 0–30 μg/m3 or 0–300 μg/m3
Particle detection range Light diffusion method: 0.12 to 2.5 µm (aerosol)
Laser-induced incandescence method: 0.08 to 0.5 µm (black carbon)
Sampling amount Approx. 2.0 L/min

Performance

Linearity ±5% FS for each component
Repeatability ±3% FS
Temperature characteristics ±10% FS (15–30°C)
Drift ±10% FS per month
Warm-up time 24 hours after starting power supply

Output

Analog output signal 4 points, 4–20 mA DC (insulated by photocoupler)
Allowable load resistance : 600Ω or less
① Mass concentration of aerosol
② Mass concentration of black carbon
③ Mass concentration of sulfate
④ Mass concentration of nitrate
Ethernet communication ・Number of channel : 1
・Connector : D-sub 9P × 1
・Transmission protocol : TCP/IP, ICPM, APP
・Data type : measured values (mass concentration of aerosol, black carbon, sulfate, and nitrate), error information
Alarm output ・1 point
・Contact output: open during error, close during normal
・Rated load and rated voltage current: 24 V DC, 2 A

Gas Analyzers

Flue Gas Analyzer System <ZSU>
NOx, SO2, CO, CO2, O2

Flue gas analyzer system <ZSU> NOx, SO2, CO, CO2, O2

• Double-beam NDIR sensor + O2 sensor
• Long-term stability
• Continuous measurement of up to 5 components

Flue Gas Analyzer System <ZSJ>
NOx, SO2, CO, CO2, O2

Flue gas analyzer system <ZSJ> NOx, SO2, CO, CO2, O2

• Single-beam NDIR sensor with sample switching system + O2 sensor
• Excellent zero-point stability
• Continuous measurement of up to 5 components

Flue Gas Analyzer System <ZSU-7>
NOx, SO2, CO, CO2, O2, HCl, dust

Flue gas analyzer system <ZSU-7> NOx, SO2, CO, CO2, O2, HCl, dust

• Monitors up to 7 gas concentrations
• Space-saving design

Cross Stack Laser Gas Analyzer <ZSS>
HCl, NH3, O2, CO, CO2, CH4

Cross stack laser gas analyzer <ZSS>HCl, NH3, O2, CO2, CH4

• Direct insertion type
• Continuous measurement of HCl, NH3, O2, CO, CO2, and CH4 in flue gas

Aerosol Analyzer <ZSF>

Aerosol analyzer <ZSF>

Real-time and quantitative analysis of particle size, number of particles, composition (sulfate, nitrate, black carbon) of aerosol (PM2.5) in the air

In-Situ Zirconia Oxygen Analyzer System <ZSB>

In-situ zirconia oxygen analyzer system <ZSB>

• Continuous measurement of O2 in combustible gas
• Ideal for combustion control

Double Beam NDIR Gas Analyzer <ZKJ>
NO, SO2, CO, CO2, N2O, CH4, O2

Double beam NDIR gas analyzer <ZKJ>NO, SO2, CO, CO2, O2, H2S, CH4

• Double-beam NDIR sensor
• Continuous measurement of up to 5 components

Single Beam NDIR Gas Analyzer <ZPA>
NO, SO2, CO, CO2, CH4, O2

Single beam NDIR gas analyzer <ZPA>NO, SO2, CO, CO2, O2

• Single-beam NDIR sensor
• Compact and light weight
• Continuous measurement of up to 5 components

Single Beam NDIR Gas Analyzer <ZPB>
NO, SO2, CO, CO2, O2

Single beam NDIR gas analyzer <ZPB>NO, SO2, CO, CO2, O2

• Single-beam NDIR sensor with sample-switching system
• Continuous measurement of up to 5 components

Single Beam NDIR Gas Analyzer <ZPG>
NO, SO2, CO, CO2, O2

Single beam NDIR gas analyzer <ZPG>NO, SO2, CO, CO2, O2

• Single-beam NDIR sensor with sample-switching system
• Continuously measures low concentration (0•5 ppm) gases

Single Beam NDIR Gas Analyzer <ZRE>
NO, SO2, CO, CO2, O2

Single beam NDIR gas analyzer <ZRE>NO, SO2, CO, CO2, O2

• Single-beam NDIR sensor
• Compact and light weight
• Continuous measurement of up to 5 components

Thermal Conductivity Gas Analyzer <ZAF>
H2, He, Ar

Thermal conductivity gas analyzer <ZAF> H2, He, Ar

Best suited for H2, He, and Ar measurement

Flameproof Thermal Conductivity Gas Analyzer <ZAFE>

Flameproof Thermal Conductivity Gas Analyzer <ZAFE>

Ideal for H2, Ar, and He measurement

Paramagnetic Oxygen Analyzer <ZAJ>

Paramagnetic oxygen analyzer <ZAJ>

• Fast response
• Communication function
• Ideal for measuring oxygen in combustible gas

In-Situ Zirconia Oxygen Analyzer <ZKM1, ZKM2, ZFK8>

In-situ zirconia oxygen analyzer <ZKM-1, ZFK8>

• Insertion type
• No need for gas sampling device
• Measures O2 in incombustible gas

In-Situ Zirconia Oxygen Analyzer (HART Communication) <ZKMA, ZKMB, ZFK8>

In-Situ Zirconia Oxygen Analyzer (HART communication) <ZKM-2/ZFK8>

In-situ oxygen analysis requires no gas sampling device
Ideal for combustion control in industrial boilers and furnaces

In-Situ Zirconia Oxygen Analyzer for Hazardous Location <ZKME, ZFKE>

In-situ zirconia oxygen analyzer for hazardous location  <ZKME, ZFKE>

• Insertion type
• No need for gas sampling device
• Measures O2 in incombustible gas

Compact NDIR Gas Analyzer System <ZSVF>

Compact NDIR gas analyzer system<ZSVF>

• Simultaneously measures up to 5 components among NOx, SO2, CO, CO2, CH4, and O2
• No need for gas sampling device

Portable NDIR Gas Analyzer <ZSVS>

Portable NDIR gas analyzer <ZSVS>

Simultaneously measures up to 4 components among CO, CO2, CH4, and O2

NDIR Gas Analyzer for Heat Treatment Furnaces <ZFG>

NDIR gas analyzer for heat treatment furnaces <ZFG>

Continuous measurement of CO, CO2, CH4 in heat treatment furnace

NDIR CO2 Controller <ZFP>

NDIR CO2 controller <ZFP>

• Measures CO2 in the air
• Analog output and alarm output

Biomass Gas Analyzer <ZPAF>

Biomass gas analyzer <ZPAF>

Measures H2S, CH4, CO2, and O2 generated in biogas plants

NDIR Gas Analyzer (Substitute for ZRG) <ZKJJ>

NDIR gas analyzer (substitute for ZRG) <ZKJJ>

• Double-beam NDIR sensor
• Compatible to obsoleted ZRG

NDIR Gas Analyzer (Substitute for ZRH) <ZPAH and ZPA1>

Gas sampling devices

• Single-beam NDIR sensor
• Compatible to obsolated ZRH

NDIR Gas Analyzer (Substitute for ZRJ) <ZPAJ>

NDIR Gas Analyzer (substitute for ZRJ) <ZPAJ>

• Single-beam NDIR sensor
• Compatible to obsolated ZRJ

Gas Sampling Devices <ZB□, ZDL>

Gas sampling devices

Gas extractor, pump, cooler, filter, converter, etc.