The construction of the laboratory ultra pure water system is mainly composed of various processing techniques, such as RO reverse osmosis, EDI purification technology, filtration technology, etc. Different processing techniques pose significant risks to the water quality, consumables, and reliability of the dismantling and replacement frequency of ultra pure water machines. Regarding the hazards in various fields, the EDI module laboratory's ultra pure water machine has great advantages, so why?

1. Firstly, the bottom ion water is divided into small molecular weight and charged organic matter, which can be effectively removed

EDI deionization technology includes a combination of multi-level ion removal processes, which can be upgraded from a variety of products such as ion exchange resins, filtration modules, organic chemistry, etc. Equivalent to ion deceitful epoxy resin, EDI applies a static electric field, which can quickly transfer ions in a fixed term. Based on the actual effect of sewage drainage, the equilibrium of adsorption and exchange between ions and exchange epoxy resin is eliminated throughout the entire process, thus achieving efficient removal.

For ion content and organic compounds, laboratory customers generally choose ultrapure water machines brought to the EDI module to ensure the accuracy of laboratory data information.

2. How EDI modules achieve continuous production of ultrapure water

Compared to the RO reverse osmosis method, the EDI module provides a more stable water quality for water production. The water quality produced by membrane separation technology relies more on the seepage water quality. When the RO membrane produces water that meets the third level water standards, it is necessary to meet the following standards: the permeability conductivity is below 200, the interception rate of the RO membrane can reach 98%, and EDI can not be affected by water quality, producing a more stable ultra pure water system.

Large and medium-sized sterilization pots, bottle washing machines, and other equipment require a large amount of water and have relatively high maintenance costs. If the water quality is poor due to seepage, it usually increases the equipment failure rate. Therefore, it is proposed to select the Aiko Laboratory ultra pure water machine as the water purification equipment, with a water production resistance of over 5 megaohms and a typical value of over 15 megaohms, in order to save assets and reduce the capital and labor costs of cleaning and maintenance from an overall operational perspective.

3. EDI maintenance is simpler

The ion exchange resin of the EDI module is sustainably rebuilt based on the current level, without the need for chemical reconstruction or disassembly of ion exchange resin. The automation technology system is high, and maintenance is more convenient.

The EDI module can be regarded as an ion exchange water quality with a regenerative effect. This type of reconstruction can be completed based on the entire process of ion transfer in the electrostatic field and the water ion. The electrostatic field of water serves as a hydrogen producing ion, and when they continuously regenerate the ion exchange resin, it facilitates the maintenance of the ion exchange resin in an ideal state.

4. EDI module has low operating costs for ultra pure water machines

The EDI module has lower functional loss, no other organic chemical waste and epoxy resin waste are discharged, and is low-carbon and environmentally friendly; Low discharge, no need to treat sewage; Long service life and low operating costs.

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