TRGF-8000B Fully Automatic Industrial Analyzer Introduction: TRGF-8000B fully automatic industrial analyzer achieves the completion of moisture, ash, and volatile matter experiments for 20 samples within 90 minutes Application areas: Determination and calculation of fixed carbon, hydrogen content, and calorific value of substances such as coal, coke, ore, carbon black, asphalt, and solid biomass fuels, as well as analysis of combustible content in fly ash and slag; Analysis of moisture, ash content, and volatile matter of calcined petroleum coke; Analysis of cement loss on ignition. characteristic: 1. Standardized process and accurate results: The testing process, conditions, and results for moisture, ash content, and volatile matter all meet the requirements and do not require calibration. They can be used for arbitration analysis. 2. Fast testing speed: The test can be carried out immediately after turning on the machine. It adopts a multi furnace dual balance structure with a constant temperature drying device. The three indicators of moisture, ash content, and volatile matter can be combined or measured separately. At the same time, the three indicators of 20 samples can be tested within 90 minutes. 3. High degree of automation: By using computer real-time communication technology and adaptive control technology, the electronic balance is integrated into the instrument, combined with an automatic weighing mechanism. Thermogravimetric analysis is used to automatically weigh, send, process data, calculate results, print and store reports, etc., achieving unmanned operation. 4. Easy to operate: During the experiment, there is no need to remove or place crucible covers, send samples, or take samples. At the same time, foreign cylinders are used to automatically control the switches on the water and ash covers, avoiding the risk of high temperature radiation and burns. 5. Accurate temperature control: The circular well shaped high-temperature furnace has a uniform temperature distribution, and the optimized process avoids the phenomenon of temperature field disturbance caused by frequent opening of the furnace door in the assembly line working mode. The PID temperature control algorithm ensures control accuracy of 1 ℃. 6. Adopting an insulation mechanism to ensure a stable and interference free working environment for the built-in balance. 7. Classic structural design: Weighing and sample delivery mechanism, improving weighing and sample delivery speed and shortening test time; There is no sliding mechanism such as a "robotic arm" to avoid accidents such as dropping, misplacement, or damaging the crucible during transportation. 8. Thermobalance weighing technology: With a single sample tray, there is no need to frequently move the sample back and forth between the combustion tray and the weighing tray. Calibration can be performed using a blank crucible in the same atmosphere environment to avoid weighing errors caused by inconsistent crucible temperatures in the assembly line mode; Multiple weighing methods are available for selection. 9. Strong adaptability: No need to rely on any bottled gas or air compressor to drive and assist combustion. Technical parameters: Sample weight: 0.5g~1.1g (customizable) Working temperature: Room temperature~1000 ℃ Temperature control accuracy: ± 2 ℃ Sample quantity: 1-20 water and ash fractions, 1-24 volatile fractions Test temperature: 105 ℃ (moisture), 815 ℃ (ash content), 900 ℃ (volatile matter) Testing time: 20 samples, three indicators testing time ≤ 90 minutes Precision: Complies with the requirements of GB/T212-2008 and ASTM D5142-2009 standards Accuracy: within the uncertainty range of the standard sample Analytical balance weighing accuracy: 0.0001g Power supply: 220V ± 22V, 50HZ ± 1HZ Power: Water ash part: 4kW Volatile fraction: 2.5kW Dimensions: 620x530x760mm 550x580x510mm Weight: 120kg
Introduction: TRGF-8000B fully automatic industrial analyzer achieves the completion of moisture, ash, and volatile matter experiments for 20 samples within 90 minutes Application areas: Determination and calculation of fixed carbon, hydrogen content, and calorific value of substances such as coal, coke, ore, carbon black, asphalt, and solid biomass fuels, as well as analysis of combustible content in fly ash and slag; Analysis of moisture, ash content, and volatile matter of calcined petroleum coke; Analysis of cement loss on ignition.
