HawkEye365 Online Inventory Asset and Monitoring Portal
Actualizado: 2024-01-02
The HawkEye365 Online Inventory Asset and Monitoring Portal has the ability to monitor multiple tanks and applications worldwide in real-time. The portal provides accessibility to critical data such as the ability to view volume, space, material height, historical trending, alarms and alerts, sensor setup and diagnostics. Plant level operator screens are customized to the company’s specifications to include control room level and operations level interface screens. The graphical user interface will be common throughout and permissions can be set for different tiers such as plant-level, finance or executive level. If any troubleshooting is required, the HawkEye365 will communicate to remote service technicians for off-site diagnostics, sensor health and re-configuration, without the need to climb a tank or enter the facility. Inventory asset management is becoming more critical throughout many process industries such as oil & gas, chemical & petrochemical, water & wastewater, energy, mining, and agriculture. It is imperative to implement reliable technologies to monitor and manage valuable commodities and inventory assets.AccuTank Ultrasonic Level Monitoring System
Actualizado: 2024-01-02
The ultrasonic technology allows the sensor to be located on top of the tank allowing for a non-contacting, precise read of liquid level. The AccuTank» Ultrasonic Level System includes a Level Transmitter, Level Monitor and Monitoring Software. To get the most out of the AccuTank system, add the eXmod» 4-relay expansion module for batch controlling, 4-relay output and 10 AMP AC / DC rated relays.AccuTank Radar Level Monitoring System
Actualizado: 2024-01-02
The AccuTank Radar Level System features revolutionary TDR (Time Domain Reflectometry) technology. TDR Technology is low-energy, high-frequency electromagnetic impulses, generated by the sensorÍs circuitry, which are propagated along the probe that is emerged in the liquid to be measured. When these impulses hit the surface of the liquid, part of the impulse energy is reflected back up the probe to the circuitry which then calculates the fluid level from the time difference between the impulses sent and the impulses reflected, resulting in the most accurate reads.