GS-GMS1700 online monitoring system for high temperature gas at kiln tail
GS-GMS1700 kiln tail high-temperature gas online monitoring system is a continuous gas detection system evolved from traditional high-temperature gas analyzer sampling device that is characterizd by high failure rate and massive maintenance. Particularly, it is suitable to detect gas in the kiln environment above 1000 ℃. As it effectively controls the flow of air and coal, and the amount of material, it could achieve accurate and reliable operation by optimizing control of the combustion process and high quality and low energy consumed production.
GS-GTN02 Ammonia Online Monitoring System
The GS-GTN02 ammonia online monitoring system is an integrated product based on tunable semiconductor laser absorption spectroscopy technology (TDLAS). It is suitable for continuous ammonia in various industrial environments such as thermal power, building materials, chemical industry, metallurgy, and garbage disposal. Online extraction monitoring provides accurate and reliable operation basis for process optimization control, energy saving and emission reduction, etc.
GS-GMS1100 multi-component gas online monitoring system
GS-GMS1100 multi-component gas online monitoring system is applied to industrial process gas concentration monitoring. This series of products develop advanced pretreatment technology and analysis instruments for the harsh working conditions of industrial process flue gas such as high temperature, high pressure, high humidity, high dust, high corrosion, etc., to realize continuous automatic online monitoring of flue gas, and intelligent control of the process. Provide reliable technical support. The system combines programmable logic control technology, with on-site data real-time transmission, remote fault diagnosis, graphic data analysis and other functions, to achieve unattended work site. The whole system has a simple structure, wide dynamic range, strong real-time performance, and low operating cost. At the same time, the system adopts a modular structure and is easy to combine. It can fully meet the requirements of communication with the internal DCS system of the enterprise and can effectively promote the improvement of production technology and management level. And improve.
GS-GMS1400 multi-component gas online monitoring system
GS-GMS1400 multi-component gas online monitoring system is applied to industrial process gas concentration monitoring. This series of products is aimed at the flue gas under the harsh working conditions of the industrial process, using cold-dry pretreatment technology to purify the sample gas; combining non-dispersive infrared technology (NDIR) and imported electrochemical gas sensor solutions to achieve real-time online multi-component gas monitor. The system has the functions of real-time transmission of field data, remote fault diagnosis, graphic data analysis, etc., which realizes the unattended work site.
GS-GMS1500 Hazardous Gas Online Monitoring System
The GS-GMS1500 hazardous gas online monitoring system is used in the detection of gas concentration in hazardous areas such as toxic, hazardous, flammable and explosive, alarms for excessive gas, guides on-site personnel to evacuate safely, and protects personal and production safety. The system adopts a continuous extraction method. The dangerous area gas is introduced into the safe area integrated control cabinet through a vacuum pump, and the concentration of methane, hydrogen sulfide, carbon monoxide, and oxygen in the sampled gas is monitored in turn by using the measurement principles of electrochemistry and catalytic combustion. , To achieve local alarm for exceeding the standard and transmit relevant information to the control room.
GS-TZPS1200 endpoint determination system of matte converting period for converter blowing process
The GS-TZPS1200 copper converter end point judgment system is applied to the process control of copper metallurgical blowing process to improve the use efficiency and operation level of the converter. The system integrates optics, machinery, electronics, algorithms, and software. It uses "spectral feature detection-mathematical modeling-model learning" as the technical route to convert spectral features, sulfur dioxide concentration and its rate of change, and melting through sulfide and oxide content. Parameters such as body temperature, flue gas temperature, air volume (flow rate), oxygen content, etc., realize the end point judgment and prediction function of copper converter, so as to ensure the quality of blister copper production, improve the efficiency of converter use, and reduce energy consumption and labor intensity.