Fluorescent X-ray sulfur meter (old type)
Achieved easy operation and high precision sulfur analysis from low concentration to high concentration.
■ Streamlined operation panel. The number of switches is minimized, making operation easier. The interactive method allows even beginners to start measuring immediately. ■ An open rack-type sample changer is used, and only the measurement section employs a locally fully shielded method. Sample entry and exit are free even during measurement. Up to 12 measurement samples can be set. ■ Automatic PHA control is performed before measurement. This world-class technology has significantly improved accuracy. ■ Automation of two-point calibration and simplification of measurement conditions enable a swift transition from calibration to measurement, achieving both speed and high precision simultaneously. Additionally, automatic multipoint calibration allows for calibration of the calibration curve with up to 12 points. ■ The sample cell detection system prevents operational errors. ■ The temperature and atmospheric pressure of the measurement section are automatically corrected. This dramatically improves intra-day reproducibility and allows for the measurement of high-temperature samples of around 55°C. ■ The printer is a traditional wired dot type, ensuring excellent data storage reliability.
basic information
This is a high-performance device that surpasses the previous standards of sulfur analyzers all at once. It has been nurtured in the soil of Japan, known for having the most stringent pollution regulations in the world, and has carved out a unique niche. Furthermore, it has undergone new evolution to enable easy operation for analysis even in low sulfur concentration areas. Now, we aim to serve as a compass for protecting our invaluable global environment.
Price information
-
Delivery Time
Model number/Brand name
RX-610SA model
Applications/Examples of results
This is a sulfur analyzer that applies energy-dispersive X-ray analysis (excitation method) using a small X-ray tube as the radiation source. It was developed by gathering new knowledge with the aim of rapidly and accurately measuring the sulfur content in kerosene, diesel, crude oil, heavy oil, and petroleum products in a non-destructive manner.
