Dubai
Dubai
Abu dhabi
+971 4 3247500 Sun - Thu 08:00 - 5:30 No: FZJOA1517, JAFZA ONE PO BOX 18410, DXB
+971 2 6765979 Sun - Thu 08:00 - 5:30 P.O. Box : 33719, Abu Dhabi, UAE
Dubai
Dubai
Abu dhabi
+971 4 3247500 Sun - Thu 08:00 - 5:30 No: FZJOA1517, JAFZA ONE PO BOX 18410, DXB
+971 2 6765979 Sun - Thu 08:00 - 5:30 P.O. Box : 33719, Abu Dhabi, UAE
Leading Provider
Of Industrial Solutions
Number #1
Supplier in Middle East
Get A QuoteCatalogue

MCS100FT – CEMS Solutions

The FTIR measuring principle allows the simultaneous determination of more than 12 measuring components – tailor-made for the particular requirements of the customer.

Description

The MCS100FT FTIR analyzer system with its heated measuring cell enables the monitoring of hydrogen fluoride limits as requested by legislation.

The MCS100FT is equipped with an oxygen sensor as standard and can be supplemented with a total hydrocarbon analyzer. With its reliable measuring technology, its easy operation and low maintenance requirements, the MCS100FT provides a solution that offers unequalled opportunities.

Overview
Technical Specifications
Applications

MCS100FT Features

  • Lowest approved HF measuring range: 0 … 3 mg/m³
  • Automatic spectrum adjustment via AutoVAL for reliable measuring values
  • Operation via touchscreen
  • Sample gas transport by an ejector without moving parts
  • Approved according to EN 15267
  • Remote control and diagnosis via software SOPAS ET
  • Automatic adjustment of analyzer
  • Automatic backflushing and filter cleaning of sampling unit
Benefits
  • Genuine HF threshold value monitoring
  • Only one analyzer for more than 12 measuring components
  • Easy integration into the customer network environment
  • Long maintenance interval of 6 months for many components
  • Type approved measurement of greenhouse gases such as N2O, CH4, and CO2
  • Low maintenance requirements save time

Measured valuesCH4, CO, CO2, Corg, HCl, HF, H2O, NH3, NO, NO2, N2O, O2, SO2, NOx, C3H8, C2H6
Performance-tested measurandsCH4, CO, CO2, Corg, HCl, HF, H2O, NH3, NO, NO2, N2O, O2, SO2
Measurement principlesFTIR spectroscopy, flame ionisation detection, Zirconium dioxide sensor
Gas flow rate
≤ 300 l/h
Measuring ranges
CH40 … 70 ppm / 0 … 210 ppm
CO0 … 60 ppm / 0 … 1,200 ppm
CO20 … 25 Vol.-%
Corg0 … 7.5 ppm / 0 … 75 ppm
HCl0 … 10 ppm / 0 … 100 ppm
HF0 … 3 ppm / 0 … 10 ppm
H2O0 … 40 Vol.-%
NH30 … 13 ppm / 0 … 65 ppm
NO0 … 150 ppm / 0 … 1,500 ppm
NO20 … 25 ppm / 0 … 250 ppm
N2O0 … 25 ppm / 0 … 250 ppm
O20 … 21 Vol.-%
SO20 … 25 ppm / 0 … 525 ppm
NOx0 … 100 ppm / 0 … 1,000 ppm
C3H80 … 25 ppm
C2H60 … 40 ppm
Other measuring ranges and components on request
Certified measuring ranges
CH40 … 50 mg/m³ / 0 … 150 mg/m³
CO0 … 75 mg/m³ / 0 … 300 mg/m³ / 0 … 1,500 mg/m³
CO20 … 25 Vol.-%
Corg0 … 15 mg/m³ / 0 … 50 mg/m³ / 0 … 150 mg/m³ / 0 … 500 mg/m³
HCl0 … 15 mg/m³ / 0 … 90 mg/m³ / 0 … 150 mg/m³
HF0 … 3 mg/m³ / 0 … 10 mg/m³
H2O0 … 40 Vol.-%
NH30 … 10 mg/m³ / 0 … 50 mg/m³
NO0 … 200 mg/m³ / 0 … 400 mg/m³ / 0 … 2,000 mg/m³
NO20 … 100 mg/m³ / 0 … 500 mg/m³
N2O0 … 50 mg/m³ / 0 … 500 mg/m³
O20 … 21 Vol.-%
SO20 … 75 mg/m³ / 0 … 300 mg/m³ / 0 … 1,500 mg/m³
Response time (t90)
≤ 200 s
FID≤ 45 s
Sensitivity drift
< 3 %: of the measuring range full scale value per maintenance interval
FID< 2 %: of measuring range full scale per week
Zero point drift
< 3 %: of the measuring range full scale value per maintenance interval
FID< 2 %: of measuring range full scale per week
Detection limit
< 2 %: of measuring range full scale
Process temperature
≤ +1,300 °C
Sample gas temperature
≤ +220 °C
Process pressure
900 hPa … 1,100 hPa
Ambient temperature
+5 °C … +35 °C
With cooling device+5 °C … +50 °C
Storage temperature
–20 °C … +60 °C
Ambient pressure
900 hPa … 1,100 hPa
Ambient humidity
≤ 80 %
Non-condensing
ConformitiesApproved for plants requiring approval

2001/80/EC (13. BImSchV)

2000/76/EC (17. BImSchV)

27.BImSchV

TA-Luft (Prevention of Air Pollution)

EN 15267

EN 14181

MCERTS

Electrical safetyCE
Enclosure rating
IP43
OptionalIP54
Analog outputs0/4 … 22 mA, 500 Ω
Number depends on system configuration, electrically isolated, max. 32 outputs
Analog inputs0/4 … 22 mA, 100 Ω
Number depends on system configuration, electrically isolated, max. 32 inputs
Digital outputs+ 48 V AC, 0.5 A, 35 W / 48 V DC, 0.5 A, 24 W
Number depends on system configuration, electrically isolated, max. 64 outputs
Digital inputs+ 3.9 V, 4.5 mA, 0.55 W
Number depends on system configuration, max. 64 inputs
Modbus
Type of fieldbus integrationTCP

RTU RS-485

PROFIBUS DP
RemarkOption
Ethernet
FunctionConnection to SOPAS ET software or OPC server
Indication
LC display
Status LEDs: “Power”, “Maintenance” and “Failure”
InputTouchscreen
OperationVia LC-display or software SOPAS ET

Several operating levels, password-protected

Dimensions (W x H x D)
With cooling device
806 mm x 2,165 mm x 605 mm

1,096 mm x 2,165 mm x 605 mm

Weight
≤ 260 kg
Power supply
Power consumptionAnalyzer cabinet: ≤ < 1,000 W
Without cooling deviceSample gas line, heated: ≤ 95 W/mGas sampling probe: ≤ 450 WHeated probe tube: ≤ 450 W
Auxiliaries
Zero gas (FTIR/FID)≤ 300 l/h … ≤ 350 l/h
Instrument air, 3±0.2 bar, particle size max. 1 µm, oil content max. 0.1 mg/m³, pressure dew point max. –30 °C
Zero gas (O2)≤ 350 l/h
O2 in N2: 1 … 4 Vol.-%, accuracy ±2%, 3 ±0.2 bar
Reference gas (FTIR)≤ 350 l/h
Measuring component in N2, 70% of measuring range full scale, 3 ±0.2 bar
Reference gas (O2)≤ 350 l/h
Ambient air
Reference gas (FID)≤ 450 l/h
Propane in synthetic air: 75% of measuring range full scale value
Instrument air≤ 2,000 l/h
Instrument air: 5 … 7 bar, particle size max. 1 µm, oil content max. 0.1 mg/m³, pressure dew point max. –30 °C
Fuel gas≤ 4.8 l/h
Hydrogen: 5.0 or higher, 3 ±0.2 bar
Combustion air≤ 30 l/h
Instrument air, 3±0.2 bar, particle size max. 1 µm, oil content max. 0.1 mg/m³, pressure dew point max. –30 °C
Sample gas connections
Sample gas inletDN 4/6
Exhaust gas outletDN 8/10
Auxiliary gas connections
Test gasDN 4/6
Fuel gasDN 4/6
Instrument airDN 6/8
Corrective functionsInternal adjustment unit (option)
Test functionsInternal zero point check
OptionsIntegrated total hydrocarbon analyzer

Fields of applications

  • Emission monitoring in waste incineration plants
  • Effective HF limit value monitoring, e. g., in aluminum production
  • Monitoring of gaseous emissions in cement plants or power stations