Ftir Continuous Emission Monitoring System for Coal Chemistry Flue Emission Monitoring

Product Details
Customization: Available
Warranty: 12 Months
Brand: Yuan Zheng
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Registered Capital
30000000 RMB
Plant Area
101~500 square meters
  • Ftir Continuous Emission Monitoring System for Coal Chemistry Flue Emission Monitoring
  • Ftir Continuous Emission Monitoring System for Coal Chemistry Flue Emission Monitoring
  • Ftir Continuous Emission Monitoring System for Coal Chemistry Flue Emission Monitoring
  • Ftir Continuous Emission Monitoring System for Coal Chemistry Flue Emission Monitoring
  • Ftir Continuous Emission Monitoring System for Coal Chemistry Flue Emission Monitoring
  • Ftir Continuous Emission Monitoring System for Coal Chemistry Flue Emission Monitoring
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Basic Info.

Model NO.
FTIR-CEMS
Customized
Customized
Portable
Non Portable
Gas
So2, Nox (No, No2) ,Co, CO2
Type
UV Analyzer
Measurement Technology
UV Differential Absorption Spectroscopy
Indication Error
≤±1% F.S.
Zero Drift
≤1%F.S./24hr
Span Drift
≤1%F.S./24hr
Communication Interface
RS485, RS232, 4~20mA
Working Temperature
-20ºC ~ 60ºC
Power
100VAC~240VAC,50Hz, 5000W
Transport Package
Wooden Box Packing
Specification
300Kg
Trademark
YUAN ZHENG
Origin
China
Production Capacity
1000

Product Description

FTIR-CEMS Continuous Emission Monitoring System

FTIR-CEMS
Continuous Emission Monitoring System is a kind of site extraction FTIR analyzer. With high temperature heating companion (heat and humidity method) during the whole process, FTIR-CEMS can measure a variety of flue gas components, including SO2, NOx (NO, NO2), HCl, CO, O2, humidity, temperature, pressure and flow rate.

Working principle:
  • SO2, NOx (NO, NO2), HCl, CO, humidity: FTIR spectroscopy
  • O2: zirconia method
  • Temperature(T): thermistor (PT 100)
  • Pressure(P): respectively pressure sensor
  • Flow rate(F): skin method

Technology:

FTIR (Fourier infrared spectroscopy) technology has a wide coverage, each gas has different absorption, so it is possible to measure the multiple components of the gas simultaneously.

After the infrared radiation enters the interferometer, two beams of coherent light are generated, and the gas sample in the gas room absorbs the energy of the coherent light at a specific wavelength. When the detector detects the interferogram containing the absorption information of the gas sample, the computer will obtain the infrared spectrum of the gas sample through Fourier transform.


When infrared radiation passes through the gas molecular sample, Some wavelengths cannot completely pass through the gas. In other words, different gases absorb infrared radiation at specific wavelengths.
Infrared radiation interacts with the gas molecules, which gain energy from the infrared radiation and begin to vibrate or rotate. All vibrations and revolutions can cause the absorption of specific wavelengths in infrared radiation. This energy transfer from the infrared radiation to the gas molecules can reduce intensity of some wavelengths in the infrared radiation.
Ftir Continuous Emission Monitoring System for Coal Chemistry Flue Emission Monitoring

The absorption spectra graphically show the degree of absorption of the sample in different infrared bands. The spectra show the transport of infrared radiation through the gas as a function of the wavelength.
For each wavelength, the instrument transmittance T is the infrared radiation intensity passing through the gas divided by the infrared radiation intensity entering the gas. When no absorption, the value of transmittance T is 1 or 100% which indicates the 100% excess sample gas of infrared radiation at this wavelength.

T=I / I0
Where: T= transmission I = the intensity into the sample I= the intensity through the sample

A= log (1 / T)
Where: T= transmission A= absorbance
Each gas has absorption at a specific position, and the concentration information of each gas can be predicted by the established model of absorbance and concentration of various gases.



Features:
 
  • Super anti-interference: in order to adapt to the analysis and measurement under complex working conditions such as waste incineration, different from the traditional algorithm, the nonlinear least squares iteration algorithm is adopted to effectively avoid the cross interference between components and the absorption influence of water vapor.
  • Outstanding technical principle: FTIR analysis technology, wide spectral range, can measure multiple chemical ingridents, wide measurement range, low lower detection limit, it is suitable for high sulfur and low nitrogen condition, organic interference and other working conditions.
  • Self-developed interferometer
  • High temperature heat tracing of the whole process: The whole process is 180ºC high temperature heat tracing, avoid flue gas condensation crystallization leading to inaccurate measurement.
  • Excellent structural design: The system has corrosion protection structure, and multistage filtration design, it can better avoid flue gas channel corrosion and blockage.
  • Wide application: the system is module design. The measurable parameters can be expanded according to the requirements.


Flow Principle:
  • The system flow path is composed of heat and humidity method, and the whole high temperature heat companion.
  • Reduce gas adsorption in the pipeline, and reduce the attachment of organic matter to the optical lens, improve the accuracy of measurement.
  • The sampling probe is responsible for flue gas sampling, and the built-in ceramic filter element or stainless steel filter element is used to filter the dust in the flue gas; the heat tracing pipeline to avoid the condensation of the water vapor in the flue gas; to the secondary filter to the electric high temperature ball valve into the gas chamber for measurement.
  • The system has the timing of automatic probe back, automatic zero, whole calibration and other functions.


Integrator Kits


1.  FT-3000 Fourier infrared gas analyzer


FT-3000 is an online continuous gas monitoring analyzer based on Fourier transform infrared spectroscopy, monitoring emission gas of SO2, NOx(NO, NO2), CH4, NH3, HCl, HF, CO, CO2, O2, H2O, and other components at the same time, and can extend to measure other components such as SO3, N2O, etc. according to user demand. The continuous gas analyzer has high measurement precision, high range dynamics, low detection limit, which is suitable for low emission monitoring.

This laser gas analyzer has a white cavity design, high signal-to-noise ratio, measuring optical path up to 13m, low detection limit, high range dynamics,  it is suitable for ultra-low emission monitoring; Using the least squares method and the PLS algorithm, selecting the appropriate wavelength range, can effectively eliminate the interference of H2O and other composition; Interior cavity mirror of gas cell is plated with gold, high reflectivity.
Protective gas purging, long maintenance intervals.


Ftir Continuous Emission Monitoring System for Coal Chemistry Flue Emission Monitoring
 
Working principle: SO2, SO3, NOx (NO, NO2), HCl, CH4, HF, CO, humidity: FTIR spectroscopy
O2: zirconia method
Measuring range: SO2: 0~1680ppm;
NO:0~4480ppm;
NO2:0~900ppm;
NOx:0~4480ppm;
CH4:0~450ppm;
NH3:0~220ppm;
HCl:0~330ppm;
HF:0~220ppm;
CO:0~1680ppm
CO2: (0~20) %
H2O: (0~40) %,
O2: (0~25) %
Zero Drift: ≤±2%F.S./7d
Span Drift: ≤±2%F.S./7d
Linearity Error: ≤±2%F.S.
Communication: interface: RS485, RS232 Working temperature: -10~35ºC
Communication protocol: Modbus,
can be customized
Humidity: ≤90%RH,
no condensation
Power supply: 220VAC, 50Hz, 1200w Net weight: 35Kg
 

2. TPF-100 Integrated Monitor of Temperature, Pressure & Velocity
Ftir Continuous Emission Monitoring System for Coal Chemistry Flue Emission Monitoring
TPF-100 is designed for low velocity (2m/s~5m/s) applications. The instrument uses precision micro-differential pressure/static press. sensor and unique pitot tube structural design, combined with auto. cal. and cleaning. It can be widely used for real-time and continuous measurements of flue gas temp, press, and velocity as well as flow quantity.
 
Velocity  0~15m/s 0~40m/s (Customizable)
Temperature  0~300ºC 0~800ºC
Pressure  -10kPa~+10kPa(Customizable)
Measuring Accuracy  ±2%F.S.
Response Time  <1s
Signal Output  3× 4-20mA,RS485/GPRS
 Material of Pitot Tube  316L steel, PTFE (Optional)
Power Supply of
Blowback Electromagnetic Valve
 220VAC 50Hz
Limit of Differential Press. Transmitter  4.0MPa
 
 
Ftir Continuous Emission Monitoring System for Coal Chemistry Flue Emission Monitoring
Ftir Continuous Emission Monitoring System for Coal Chemistry Flue Emission Monitoring
Ftir Continuous Emission Monitoring System for Coal Chemistry Flue Emission MonitoringFtir Continuous Emission Monitoring System for Coal Chemistry Flue Emission MonitoringFtir Continuous Emission Monitoring System for Coal Chemistry Flue Emission MonitoringFtir Continuous Emission Monitoring System for Coal Chemistry Flue Emission Monitoring
 

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