In-situ Oxygen Gas Analyzer Applications

In-situ Oxygen Gas Analyzer Applications

Smelting process

1. Optimize production process: such as blast furnace gas analysis system,
converter/ electric furnace gas analysis system, and etc.
2. Recycle of fuel gas: such as converter gas recycling and analysis system, coke oven gas recycle and analysis system, and etc.
3. Environment protection & energy saving: such as flue gas analysis system after hot-blast stove, sintering/ lime burner flue gas analysis system, thermoelectric flue gas analysis system, and etc. 
4. Safety control & analysis, such as blast furnace coal blowing analysis system, electrostatic tar filtering safety analysis system, electrostatic filtering safety analysis system, and etc.
Gas safety analysis system
Coal gas is a very flammable gas. When mixed with certain amount of O2, it will explode when heated to a certain degree. It is thus necessary to inspect O2 concentration to avoid explosion. By analyzing O2 concentration before/after gas tank and before electrostatic filter, O2 concentration in the coal gas can be calculated, then gas quality can be known, and further operation, whether to bypass or not can be determined to avoid explosion. 
Gas and environment parameters, measurement requirements required by steel making process
Coal blowing system safety analysis
Blast furnace coal blowing analysis system is a typical safety control device. By
analyzing O2 concentration at the inlet of coal mill, outlet of coal mill and outlet of bag, it helps controlling the O2 concentration entering the coal mill and coal powder barn. When O2 concentration exceeds 10%, blow N2 to dilute it, to avoid explosion in the coal mill. As the gas in the coal powder barn is the off gas lead from the flue after hot-blast stove, high concentration of CO and O2 will cause explosion. Therefore, real time inspection of off gas in the coal powder barn is required, to make alarms and N2 dilution in time.
Gas and environment parameters, measurement requirements required by iron
making process

Online Electrochemical H2S Gas Analyzer for CEMS Application

Online Electrochemical H2S Gas Analyzer for CEMS Application
www.gasese.com

Online Electrochemical H2S Gas Analyzer can be used for measurement of the concentration of H2S in sample gases simultaneously . It is based on the fuel cell method (ECD) for H2S. This analyzer is designed with 19 inches 3U smaller physical dimensions .The general application is  for CEMS application with 0-100ppm range.

Operating Principle	3-electrode potentiostatic cell w/o potentiostat
Sensor Lifetime	~ 2 years
Measurement Range	0 to 100 ppm
Maximum Overload	up to 250 ppm
Sensitivity	500 to 1,000 nA/ppm
Response Time t90	< 25 s
Drift	< 30 % signal/year
Zero Offset Current	< ± 1 ppm
Bias Voltage	+ 300 mV
Warm-up Time	8 h, when connected to Bias
Operating Temperature	10 to 45 °C(increased response time below 0 °C)
Pressure Range	750 to 1250 hPa
Humidity Range	30 to 60 % RH
Interferences	(without filter) 2.000 ppm CO: < 1 nA/ppm 1.000 ppm SO2: < 40 nA/ppm 800 ppm NO: < 400 nA/ppm 100 vol. % H2: none

Output Interface	RS232
Analog output	4～20mA
Working Temperature	10～45℃
Relative Humidity	30～60%
Pressure	750 to 1250 hPa
Power supply	200V-240V AC / 50Hz-60Hz  (100-120V AC/ 50-60Hz optional)
Temperature control	55℃
Calibration	Zero and span calibration
Dimensions	435*450*135 mm (L*W*H)
Weight	About 12kg

What is NH3 and why should it be measured?

What is NH3 and why should it be measured?
NH3 commonly referred to as ammonia, is a gaseous compound and is used in products ranging from smelling salts to agricultural fertilizers.

High concentrations of ammonia in the environment can lead to extremely damaging effects. Due to ammonia's affinity for water, it's introduction into an aquatic environment causes adverse reactions to aquatic life. Elevated concentrations of NH3 effect fish growth, respiratory function, proliferation of gill tissue, organ weights and ultimately cause fish kill. The toxicity of ammonia increases with temperature.

For Selective Catalytic Reduction (SCR) and Selective Non-Catalytic Reduction (SNCR) technologies, not monitoring NH3 can lead to high ammonia slip which can potentially contribute to problems such as the formation of ammonium salts on air preheater and other downstream surfaces, Ammonium Chloride plume from the stack, ammonia odor in fly ash and the emission of gaseous ammonia. Monitoring NH3 can also help reduce the the need and costs associated with periodic air heater cleaning.

Extractive HCL laser gas analyzer

Extractive HCL laser gas analyzer

Principle ：

laser gas analyzer using a Tunable Diode Laser Absorption Spectroscopy (TDLAS), the realization of the non contact measurement in high temperature, high pressure, high dust and other harsh test conditions. High selective laser based on frequency, analyzer has good performance of anti interference. compared to the traditional analysis method, reducing the complex sampling system, flexible installation and easy to use, greatly reduce the manual installation and maintenance workload

Specifications

Gas	HCL
Working principle	Tunable Dioxide Laser Absorption Spectroscopy (TDLAS)
Measurement Range	0 to 50 ppm
Accuracy	+/- 2%FS
Repeatability	+/- 1%FS
Resolution	0.01ppm
Response Time t90	< 15 s
Refresh frequency	2s
Ambient Temperature	-20 to 55 °C
HCL gas sensor module heating temperature	190 °C
Sample gas max humidity	20%. abs
Sample gas flow	1.5L-3.0L/min
Input sample gas temperature	>=190℃

Output Interface	RS232
Analog output	4～20mA
Power supply	200V-240V AC / 50Hz-60Hz  (100-120V AC/ 50-60Hz optional)
Temperature control	190℃
Inlet and outlet connector	Ø6 mm
Dimensions	485*450*175mm(L*W*H)
Weight	About 10kgs