Application Scenarios
Make combustion cleaner, more efficient and safer
Precise Insights, Optimized Combustion | TempVision 1600 Will Help Vinh Tan 4 Thermal Power Plant in Vietnam Achieve Boiler Operation Optimization.
Project Background
Vinh Tan 4 Thermal Power Plant in Vietnam
Number of units: 3
Single-unit capacity: 600 MW
Boiler manufacturer: Doosan Heavy Industries
Product Model: TempVision 1600 Portable Multi-Probe Temperature Field Measurement Device
Product Information
TempVision1600 is a portable multi-probe temperature field measurement system consisting of multiple temperature field probes, an industrial laptop, and associated accessories. While ensuring measurement accuracy, it also makes the entire testing process more efficient and convenient.
The temperature field probe used by TempVision1600 features high measurement accuracy, resistance to dust interference, and high-temperature tolerance.
TempVision1600 can be configured with up to 6 probes, meeting customers’ needs for simultaneous measurements across multiple burners.
TempVision1600 provides an industrial-grade laptop equipped with Rodin Q, a professional software independently developed by Safe-Fire. It is designed to meet the demands of data acquisition and analysis in harsh on-site operating conditions.
Thanks to its outstanding performance and flexible configuration, the TempVision1600 system is widely used in large-scale coal-fired power units and is well-suited for temperature measurement needs in square-cut circular boilers, front-and-back wall opposed-flow boilers, and W-flame boilers. This device is a user-friendly, high-performance measurement instrument.
Product Features
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Up to six probes can simultaneously perform temperature field measurements.
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High measurement accuracy
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Strong adaptability to testing environments
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Powerful analytical tools
Application effectiveness
By deploying TempVision 1600, the power plant’s boiler operations and optimization team has gained an unprecedentedly clear view:
By intuitively comparing the flame temperature field data at the outlets of various pulverized-coal burners, we can quickly identify burners with poor combustion performance or operational deviations, providing direct evidence for timely adjustments to air and coal distribution.
By clearly understanding the macroscopic temperature distribution inside the furnace, we can effectively avoid risks such as local slagging and high-temperature corrosion, thereby enhancing the operational safety of the boiler.
The system has helped establish the correlation between different types of coal and the temperature distribution in pulverized-coal burners, providing crucial data support for power plants to implement co-firing of coals and optimize costs.
Based on accurate temperature field data, operators can make more targeted combustion adjustments, thereby improving boiler combustion efficiency and reducing emissions of pollutants such as nitrogen oxides (NOx).
Contact
Room 703, Building 2, 525 Yuanjiang Road, Minhang District, Shanghai
021-64425576
info@safe-fire.com.cn
www.safe-fire.com.cn
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