2)Establish a flowrate in the sample line of from 0.2 to 5 liters/min. Allow the sample to flow long enough to allow a stable low reading to be achieved.

When disconnecting the instrument, reverse the procedure: source fitting first, and then vent fitting.

The objective of the connection -- disconnection procedure is to obviate the possibility of pressurizing the manifold. IF A FLOWING SAMPLE WERE CONNECTED TO THE

MANIFOLD WITHOUT THE VENT FITTING IN PLACE, THE PRESSURE IN THE MANIFOLD WOULD RISE AND BE EQUAL TO THE SAMPLE PRESSURE ALMOST IMMEDIATELY. In such a situation, depending on the magnitude of the sample pressure, leaks in the manifold might result.

3.4Atmospheric Pressure Sampling. If the sample is at atmospheric pressure (or slightly negative), a sample pump will be required downstream from the analyzer. The inlet side of the pump should also be equipped with a throttle valve -- so that sample flow can be reduced to between 0.2 and 5 liters/min. If pump loading is a consideration, the inlet side of the pump will have to include a bypass path that is open to the atmosphere through a second throttle valve. The sample path and bypass path may then be balanced by manipulating the two valves, so that the sample flow is within the prescribed limits.

UNDER NO CIRCUMSTANCES SHOULD THERE BE ANY RESTRICTIONS IN THE LINE BETWEEN THE SAMPLE POINT AND THE ANALYZER -- as a partial vacuum would then be drawn on the cell. Since the cell is a partial pressure sensitive device, any oxygen readings taken under these conditions would be erroneous and vacuums in excess of one-third of an atmosphere may damage the cell.

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4.MAINTENANCE

4.1Battery Power intrinsically safe, and therefore TAI suggests

Supply Service. The Model 311XL is designed to be is for use ONLY when it is not connected to the AC power line.

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Teledyne ECO#02-0227 instruction manual Maintenance

ECO#02-0227 specifications

Teledyne ECO#02-0227 represents an advancement in environmental monitoring technologies, specifically designed to address the ever-evolving requirements of water quality analysis. This innovative device is equipped with cutting-edge features that enhance its functionality, providing users with reliable data for a variety of applications ranging from academic research to industrial processes.

One of the standout features of the Teledyne ECO#02-0227 is its ability to measure multiple parameters simultaneously. It offers real-time monitoring of critical water quality indicators, including dissolved oxygen, turbidity, pH levels, and chlorophyll concentrations. The simultaneous data collection capability accelerates decision-making processes, allowing for timely interventions in environmental management.

The device leverages advanced sensor technology, ensuring high accuracy and precision in measurements. The sensors are designed to minimize interference and provide consistent data across a range of conditions. This is particularly important for applications where water quality can fluctuate significantly, such as in rivers, lakes, and wastewater treatment facilities.

Another notable characteristic of the ECO#02-0227 is its rugged design, which makes it suitable for deployment in harsh environments. It features waterproof housing and is resistant to corrosion, ensuring durability and longevity even under extreme conditions. This robustness makes the device an ideal choice for field applications, where reliability is paramount.

Moreover, the Teledyne ECO#02-0227 utilizes smart connectivity options, enabling seamless data transfer and remote monitoring capabilities. Users can easily access real-time data via wireless networks, integrating the data into broader environmental monitoring systems. This connectivity facilitates collaboration among researchers and regulators, promoting more effective management of water resources.

In addition to its technical specifications, the device is user-friendly, with a straightforward interface that allows for easy navigation through settings and data retrieval. Comprehensive documentation and support resources ensure that users can maximize the device's potential without extensive training.

Overall, the Teledyne ECO#02-0227 stands out in the field of water quality monitoring. Its multi-parameter capabilities, advanced sensor technology, robust design, smart connectivity, and user-friendly interface make it an invaluable tool for environmental professionals seeking reliable and accurate data to support their initiatives. With this device, users can monitor and protect water quality more effectively, contributing to healthier ecosystems and communities.