Hydrogen Analysis System for Toxic and Corrosive Gases

Product Details
Customization: Available
After-sales Service: Whole Life Technical Support
Warranty: One Year
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Basic Info.

Model NO.
KE360-Ex
Brand
J&X
Customized
Customized
Portable
Non Portable
Gas
H2
Type
Hydrogen Analysis System
Protection Grade
IP54
System Cabinet Material
Stainless Steel
Front Door Material
Transparent Glass
Applications
Petrochemical, Fertilizer Production,etc.
Transport Package
Wooden Case
Trademark
J&X
Origin
China
HS Code
9027100090
Production Capacity
300pieces/Month

Product Description

Hydrogen analysis system

Hydrogen Analysis System for Toxic and Corrosive Gases
Brief description: 
Hydrogen analysis system centrifuges, reactors, hydrogen production equipment, etc. are widely used in industries such as fertilizers, chemicals, oil refining, pharmaceuticals, food and national defense. Since centrifuges and reactors process a wide variety of materials, many of which are flammable and explosive, combustion and explosion accidents are likely to occur.
hydrogen analyzer system use imported special materials to effectively absorb the toxic and corrosive gases in the sample gas and send them to the explosion-proof analyzer for detection, thereby ensuring the service life and the accuracy of the measurement. Users can collect the hydrogen and oxygen concentration values measured by the system to control the corresponding gas supply equipment to reduce the concentration of combustible and explosive gases in centrifuges, reactors, hydrogen production equipment, etc., thereby providing protection for safe production.


Features:
  1. system cabinet is made of stainless steel, and the front door is a transparent glass window
  2. The deoxygenation analyzer in the  system adopts an explosion-proof housing design, and the components are all pre-treatment components and pipe valve components, which can meet the requirements of explosion-proof occasions;
  3.  Protection grade: IP54 ;
  4. The pretreatment components in the cabinet are made of stainless steel 316L , the sampling pipeline is made of  seamless stainless steel pipe, the material is 316L, and the connecting ferrules and joints are made of corrosion-resistant ferrules from Yuanheng, Taiwan, China;
  5. can design corresponding sampling systems and positive pressure, micro positive pressure and micro negative pressure sampling systems according to different sites.

Applications:
It is widely used in online real-time analysis of hydrogen and oxygen concentration in petrochemical, fertilizer production, pharmaceutical, air separation , semiconductor industry and other explosion-proof places .
 

The hydrogen analysis system is a device used to detect the concentration of hydrogen in the gas. It is widely used in petrochemical, electric power, manufacturing and other industries. By accurately monitoring the concentration of hydrogen in the measured gas, it can help companies discover potential risk problems and improve production efficiency and quality control. Let's take a closer look at the composition of the hydrogen analysis system.

1. Composition of hydrogen analysis system
The hydrogen analysis system is mainly composed of four parts: sampling part, sensor, signal processor and display screen. The sampling part is responsible for collecting hydrogen samples from the gas being measured, the sensor converts the collected hydrogen samples into electrical signals for output, the signal processor processes and analyzes the signals, and finally the results are displayed on the display screen.
Sampling part. The sampling part of the hydrogen analysis system usually consists of a gas inlet, a collection pipeline, a filter, a regulating valve, and a needle valve. The gas inlet is responsible for introducing hydrogen samples, the collection pipeline is responsible for transporting the collected hydrogen samples to the analyzer, the filter filters out impurities and dirt in the gas through the filter, the regulating valve is used to adjust the gas flow rate, and the needle valve is used to control the gas in and out.
Sensors. Commonly used sensors in hydrogen analysis systems include electrochemical sensors, thermal conductivity sensors, semiconductor sensors, and infrared sensors. Among them, electrochemical sensors mainly use chemical catalysis to detect hydrogen, thermal conductivity sensors detect by measuring the thermal disturbance caused by hydrogen, semiconductor sensors detect by the adsorption of hydrogen on the semiconductor surface, and infrared sensors detect by the absorption of infrared by hydrogen.
Signal processor. The signal processor inside the hydrogen analyzer will receive the electrical signal sent by the sensor module and perform amplification, conversion, filtering and other processing on it. In addition, functions such as data storage and transmission can also be realized through program design.
Finally, according to the test results, the hydrogen analyzer will intuitively display the corresponding test results through the LCD screen. The device can be controlled through the parameter adjustment keys on the screen to achieve more accurate testing.
2. Working Principle of Hydrogen Analysis System
The working principle of the hydrogen analysis system is based on sensor technology, using physical, chemical and other methods to detect hydrogen components.
Sampling. The hydrogen analyzer samples the gas being tested through a collection pipeline and delivers the hydrogen sample to the analyzer. During the sampling process, care must be taken to prevent the entry of pollutants to avoid affecting the accuracy of the test results.
Gas analysis. After the hydrogen sample enters the analyzer, it is processed by the sensor module and converted into an electrical signal output, which is synthesized, analyzed and calculated by the signal processor. Depending on the difference in the physical properties of hydrogen in the sampled gas, its concentration can be detected by different sensor technologies.
Data processing. The circuit board inside the analyzer receives the electrical signals sent by each sensor module and processes them. In addition, data storage and transmission functions can also be realized through program design.
Results display. Finally, based on the test results, the hydrogen analyzer will intuitively display the corresponding test results through the LCD screen. Users can control the device through the parameter adjustment keys on the screen to achieve more accurate testing.
3. Application scope of hydrogen analysis system
Hydrogen analysis systems are widely used in petrochemical, electric power, manufacturing and other industries. For example, in the petrochemical industry, hydrogen analyzers can detect the hydrogen content in catalytic hydrogenation devices to determine problems in the reaction process; in the electric power industry, hydrogen analyzers can detect the concentration of hydrogen in the insulating oil inside the generator to determine whether there are potential risks in the equipment; in the manufacturing industry, hydrogen analyzers can be used to detect the concentration of various hydrogen gases in the production process to ensure product quality and production safety.
4. Precautions for Hydrogen Analysis System
A pure gas source needs to be used during the test to avoid contamination of the test results.
The accuracy of the test instruments should be calibrated regularly to ensure the reliability of the test results.
Before use, you need to perform correct settings according to the relevant operating manual to ensure the normal operation of the test instrument.
After the test, the sampling pipeline and other parts must be cleaned in time, and the test instruments must be properly kept.
V. Conclusion
The hydrogen analysis system is a device that analyzes gas composition based on sensor technology, with the characteristics of high accuracy, fast response, and easy use. Through the rational use of the hydrogen analysis system, more accurate data support can be provided for various industries, providing a strong guarantee for the production and safety control of enterprises.


 

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