Applications –Piezometer:

A piezometer for groundwater is a device used to measure groundwater pressure at a particular point. Because it consists of a perforated pipe or casing installed into the ground at a desired depth. The electric piezometer tip is usually open or covered with a porous material because it allows water to enter the pipe while preventing soil particles from clogging it. The water level inside the piezometer rises and falls with changes in the groundwater level.
Digital Water Level Recorder (DWLR): The DWLR is a digital device equipped with sensors and data logging capabilities to accurately measure and record the water level at the piezometer. It includes a pressure sensor or other technology to detect the water level changes. Because the DWLR can store data internally and may also have the capability to transmit data wireless to a central database or monitoring station.

Features :

• Waterproof stainless steel sensor.
• Compact size, Easy to install & also easy to Transport.
• No maintenance is require.
• Pressure Transducer not affected by Wind or Rain.
• Monitor the Level of groundwater and rivers.
• 4-20mA current output.
• Display the data on screen & also store it in excel format.
• High accuracy, reliability & Precise.
• Rust-proof & also corrosion-resistant.
• Shielded wire.

Guidelines for CCGWA-based Piezometer and DWLR.

Telemetry is the process of measuring remotely and sending data from one place to another. Telemetry systems are utilized in the context of electromagnetic flow meters to gather, transfer, and occasionally evaluate flow data from the meters remotely. These systems can transport data via a variety of communication channels, including cable connections, satellite links, and wireless networks.

When an electromagnetic flow meter and telemetry system are combined, real-time remote flow rate monitoring and control are possible.

Some of the benefits include:

Remote access: The operators can keep an eye on conditions and flow rates without physically being at the measurement location.

Data gathering and analysis: It is possible to gather data over longer periods of time, which makes analysis, trend detection, and performance optimization easier.

Rapid problem-solving: In case of any issues with the flow rates, real-time alerts can be delivered, enabling prompt problem-solving.

In many different industries, including water and wastewater management, chemical processing, irrigation, and utilities, telemetry systems linked to electromagnetic flow meters are frequently utilized to effectively manage and control the flow of liquids while facilitating remote monitoring and data-driven decision-making.