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Principle of LIBS Technology

LIBS, an acronym for Laser-Induced Breakdown Spectroscopy, is a technique where a high-energy pulsed laser is focused to ablate the sample surface, generating plasma. The emitted

spectra from the plasma are then analyzed to determine the material composition and content of the sample. This method is characterized by no sampling required, no sample preparation, non-contact operation, and no radiation involved

描述
描述
Enhance Sinter Quality

Improving sinter quality effectively

reduces the return ore rate and lowers

material costs

Closed loop control of alkalinity in mixed materials (Regarding the addition of flux)
1.Sintering Online Intelligent Batching System

By utilizing GS-LIBS (Gas-Solid Laser-Induced Breakdown Spectroscopy) for real-time composition detection, the system predicts the basicity index of sinter ore in advance. Through a

proportional control algorithm, it automatically adjusts the realtime discharge rate of flux silos, addressing the challenge of significant time lag in sinter production control. This achieves

closed-loop automatic control of sinter basicity and enhances the

stability rate of sinter basicity

system value
Improve Sinter Basicity Stability Rate

By implementing intelligent proportioning

and optimized basicity control for

sintering, the fluctuation in finished sinter

basicity can be effectively reduced,

thereby increasing the achievement rate of

target basicity values.

Support Smooth Blast Furnace Operation

Production practices demonstrate that for

every 10% increase in sinter basicity

stability rate, the blast furnace coke rate

decreases by 1%, while production output

increases by 1.5%.

Principle of LIBS Technology

LIBS, an acronym for Laser-Induced Breakdown Spectroscopy, is a technique where a high-energy pulsed laser is focused to ablate the sample surface, generating plasma. The emitted

spectra from the plasma are then analyzed to determine the material composition and content of the sample. This method is characterized by no sampling required, no sample preparation, non-contact operation, and no radiation involved

描述
Iron-to-Steel Interface Upgrade

Enhances composition and temperature

data integration between iron and steel

processes, advances intelligent iron-tosteel coordination, and achieves dual

improvements in quality control and

operational efficiency

system value
Ironmaking - Advanced Smart Blast Furnace

Optimize molten iron scheduling to meet

intelligent requirements for digitalization

and standardized process control, driving

the upgrade of smart blast furnace systems.

Steelmaking - Enhanced One-Click Steelmaking

Replaces traditional sampling and testing

by directly transmitting molten iron

composition data to the steelmaking

process. Through feedforward control, it

improves production stability and refines

the "One-Click Steelmaking" system.

· Sonding ultrafiltration membranes are applied in industries such as steel, power, chemical,coal chemical, municipal wastewater, drinking water, food, and electronics.
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描述
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