EE776 Insertion Type Mass Flow Meter for Pulp and Paper
Flow meter for non-corrosive gases to optimize steam management.
In the pulp and paper industry, the efficiency of steam supply and quality control are crucial. Steam leaks and unstable flow rates can lead to decreased production efficiency and deterioration of product quality. The EE776 accurately measures the flow of non-corrosive gases such as compressed air, nitrogen, and CO₂, contributing to the optimization of steam management. 【Usage Scenarios】 - Monitoring the flow rate of steam boilers - Managing steam usage in the drying process - Measuring flow rates in piping lines 【Benefits of Implementation】 - Cost reduction through visualization of steam usage - Prevention of issues through anomaly detection - Quality improvement through stable steam supply
basic information
**Features** - Backflow prevention function - Sealed O-ring - Probe positioning - Convection error cutoff function - Compatible with a wide range of pipe diameters from DN50 to DN700 (2 to 28 inches) **Our Strengths** As a domestic dew point meter manufacturer, we leverage the measurement technology and know-how we have cultivated over many years to provide optimal products tailored to our customers' needs. In addition to selling measuring instruments, we also offer calibration, inspection, and repair services, ensuring comprehensive support after installation.
Price information
Please consult with us.
Delivery Time
Model number/Brand name
EE776
Applications/Examples of results
● Compressed air ● Nitrogen ● CO₂ ● Other non-corrosive gases ● Non-flammable gases Monitoring, etc.
Distributors
We introduce various measuring instruments and devices related to moisture management, including the domestic capacitive dew point meter TK-100 series, mirror-type dew point meters, oxygen concentration meters, humidifiers, and moisture meters for corrosive gases. By organically combining these, as well as through piping, line creation, and unitization, we provide custom-made products and respond quickly to complex issues.