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The product series includes: TXET-1, TXET-2 and TXET-E.
The TXET series equipment primarily removes impurities, ions and other contaminants from raw water through a series of filtration, adsorption and membrane separation processes, enabling verification of filtration component performance parameters and establishing customized treatment processes for specific water quality requirements.
The TXET-1 reverse osmosis testing unit is a versatile pilot-scale experimental system for water treatment applications. It can not only validate the performance of RO membrane elements and related filtration technologies, but also provide reference data for complex water treatment processes, offering strong support for both scientific research and large-scale production.
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Model Parameter |
TXET-1 | TXET-2 | TXET-E |
| Feed water type | Target water quality or product for the process or performance to be validated. | ||
| Equipment type | Reverse osmosis membrane testing device | Pilot test device | Non-standard testing machine |
| Feed water requirement |
≤120bar, 0-40℃ |
≤120bar, 0-40℃ |
≤120bar, 0-40℃ |
| Feed water capacity | 0.01-20m³/h | 1-20m³/h | >1m³/h |
| Equipment area | 2-20㎡ | 5-30㎡ | >2㎡ |
| Equipment weight(kg) | 300-3500kg | 300-6000kg | >200kg |
| Control & Data acquisition | PLC+HMI+SCADA | PLC+HMI+SCADA | PLC+HMI+SCADA |
| Power | 3-12kw | 3-20kw | >3kw |
n The reverse osmosis experimental system typically consists of a raw water tank, feed pump, regulating valve, flow meter, filter, activated carbon adsorption column, reverse osmosis membrane, RO booster pump, purified water tank, instrumentation, and control panel.
n These components work together to complete the entire process from raw water intake to treated water production. Online instruments monitor and record the entire treatment process, enabling systematic analysis.
n The primary experimental objectives of the reverse osmosis test system are to perform separation and purification through microfiltration (MF), ultrafiltration (UF), and reverse osmosis (RO). It can also be used for filtration, decolorization, desalination, purification, and concentration of water-based solutions.
n Through experiments, users can master advanced treatment processes for tap water, perform actual treatment of different water samples, and evaluate their treatment efficiency.
n The reverse osmosis experimental system is widely used in electronics, pharmaceuticals, food processing, light Industry, chemical engineering, and power generation. It is an optimal solution for high-purity water production, brackish water desalination, and wastewater treatment.
n It is also commonly employed in research institutions and laboratories for water treatment-related studies and educational purposes.
