New materials refer to newly developed or under development materials with outstanding performance. The ultra pure water equipment produced by Hongsen Company meets various needs for new material technology, and the ultra pure water equipment used for new material processing is precisely applied to the water demand of this industry to ensure the quality of the equipment's effluent.

LCD display screens, PDP plasma display screens, high-quality fluorescent tubes, microelectronics industry, FPC/PCB circuit boards, circuit boards, large-scale and ultra large scale integrated circuits require a large amount of high-purity water and ultrapure water to clean semi-finished and finished products. The higher the integration level of integrated circuits, the higher the requirements for water quality, which also puts forward stricter requirements for the simplicity, automation level, production continuity, sustainability, and other aspects of ultrapure water treatment processes and products.

The water quality of the ultrapure water equipment produced by our company fully complies with the ASTM pure water quality standards in the United States, the electronic grade water quality technical standards of the Ministry of Electronics Industry of China (18M Ω· cm, 15M Ω· cm, 10M Ω· cm, 2M Ω· cm, 0.5M Ω· cm five level standards), the high-purity water quality trial standards of the Ministry of Electronics Industry of China, the pure water indicators for the semiconductor industry in the United States, the water quality standards for integrated circuits in Japan, and the water quality standards for large-scale integrated circuits at home and abroad.

Electrodeionization (EDI) system is a scientific water treatment technology that purifies water by directing the movement of dielectric ions in the water through a separator under the action of a direct current electric field, and utilizing the selective permeation of ions by an exchange membrane. Between a pair of electrodes in an electrodialysis device, there are usually multiple sets of alternating arrangements of cathode membrane, anode membrane, and separator (A, B), forming a concentration chamber and a depletion chamber (i.e. cations can pass through the anode membrane, anions can pass through the cathode membrane) Cations in the dilute water migrate to the negative electrode through the cation membrane and are intercepted by the anion membrane in the concentrated chamber; The anions in the water migrate towards the positive electrode direction and are intercepted by the positive membrane in the concentration chamber. As a result, the number of ions in the water passing through the dilution chamber gradually decreases, becoming fresh water. In the concentration chamber, due to the continuous influx of anions and cations, the concentration of dielectric ions continues to increase, becoming concentrated water, thus achieving the purpose of desalination, purification, concentration or refinement.

New materials and battery industry (3 tons per hour) ultra pure water equipment (as shown in the above picture)

Manufacturing industry:Automotive glass, steel, paper, textile, etc

Power industry:Boiler thermal power generation cooling cycle, etc

Electroplating industry:Coated lighting, cooling, metal plating, LED lights, etc

Optoelectronic industry:Photovoltaic photovoltaic lighting, new energy LED lights, etc

Electronic industry:Electrical chips, circuit boards, microcontrollers, electronic components, etc

Energy industry:Oxide semiconductor silicon material, polycrystalline silicon metal extraction, etc

Reverse osmosis equipment+EDI device:

How much does it cost for a 3-ton/hour secondary reverse osmosis+EDI device in the new materials and battery industry

(Specifications we can offer: 0.25T/H, 0.5T/H, 1T/H... 1000T/H, etc.)

Call the national free inquiry hotline：400-9969-506