In concrete and masonry structures, countless tiny capillary pores and micro-gaps exist throughout the material. These microscopic channels allow water to penetrate into the structure by utilizing both gravity and capillary action—similar to how plants absorb and transport water from roots to leaves. This natural process of moisture movement is essential for the functioning of MPS dehumidification technology. Without these pores, the system would not be able to effectively remove moisture from the structure.
The principle behind MPS waterproof dehumidification technology involves a control unit that generates low-voltage electrical pulses. These pulses create an electromagnetic field between two electrodes—one positive and one negative. As a result, water molecules within the pores and gaps become ionized and are attracted to the negative electrode, which is positioned on the exterior of the structure. This causes the moisture inside the building to gradually move outward and be drained away. Once the system is activated, the water will continue to flow out, never re-entering the structure. This ensures that the building remains permanently dry, preventing issues like dampness, mold growth, and structural damage.
MPS technology not only stops water from seeping through surfaces but also helps reduce indoor humidity levels. It prevents condensation, improves thermal insulation, and enhances the overall durability of the structure. Additionally, it allows moisture from the air to escape through the walls, significantly lowering the relative humidity inside. This is especially beneficial in environments where sensitive equipment or valuable items are stored, as it protects them from moisture-related damage.
Engineering tests have shown that the force driving water molecules through the structure is far stronger than the gravitational pull acting on the water itself. This has been proven in real-world applications, such as in Norway’s Tonstad hydropower plant, where the technology successfully prevented water infiltration from a pressure head of nearly 600 meters. Similarly, in China’s Guizhou Light Power Station, the system was used in deep underground shafts and permanent observation rooms, where it effectively managed moisture under a water head of almost 200 meters. These examples highlight the effectiveness and reliability of MPS technology in extreme conditions.
Check Valve
The check valve is used in the piping system, its main function is to prevent the backflow of the medium, prevent the pump and its driving motor from reversing, as well as the release of the medium in the container.
Check valves can also be used to feed pipes where the pressure may rise to exceed the pressure of the main system. Check valve according to the different material, can be applied to a variety of media pipeline.
The check valve is installed on the pipeline, which becomes one of the fluid components of the complete pipeline. The opening and closing process of the valve disc is affected by the transient flow state of the system in which it is located. In turn, the closing characteristics of the disc have an effect on the fluid flow state.
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