Wuxi Fenigal Science & Technology Co., Ltd
Manufacturer and Supplier for Industrial & Lighting Products
Wuxi Fenigal Science & Technology Co., Ltd
Manufacturer and Supplier for Industrial & Lighting Products
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| Place of Origin: | China |
| Brand Name: | China brand |
| Certification: | CE |
| Model Number: | LX-500 |
| Minimum Order Quantity: | 1 pc |
|---|---|
| Price: | Negotiable |
| Packaging Details: | standard export packing |
| Delivery Time: | 5- 8 work days |
| Payment Terms: | T/T, Western Union |
| Supply Ability: | 60000 Units per Month |
| Stack Flow Range(m³/h): | 3.5-5.5 | Stack Standard Flow Rate(m³/h): | 5.0 |
|---|---|---|---|
| Stack Resistivity Of Produced Water (MO·cm): | >15 | Stack Silicon And Boron Removal Rate (%): | ≥99 |
| Stack Temperature Range (℃): | 15-35 | Turbidity (NTU): | <1 |
| Influent Conductivity (us/cm): | 1-10 | Total Carbon Dioxide (ppm): | <3 |
| Advantages: | High Current Efficiency | ||
| Highlight: | 3.5 m3/H EDI Modules,High Current Efficiency EDI Modules,5.5 m3/H EDI Modules |
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High Current Efficiency 3.5-5.5 m3/H China EDI Modules LX-500
Electrodeionization (EDI) is an advanced technology for water treatment, mainly used to remove ions and impurities from water. It combines the principles of electrodialysis and ion exchange and is widely used in the preparation of ultrapure water, especially in the semiconductor, pharmaceutical, chemical and other industries.
Working Principle
The basic principle of electrodeionization technology is to use the electric field to cause cations and anions in water to move to different electrodes respectively. The specific process is as follows:
Electrode setting: The EDI system contains anodes and cathodes, as well as alternating cation exchange membranes and anion exchange membranes.
Ion exchange: When water flows through the ion exchange membrane, cations (such as sodium, calcium, etc.) are adsorbed by the cation exchange membrane, while anions (such as chloride, sulfate, etc.) are adsorbed by the anion exchange membrane.
Electric field drive: After applying voltage, cations move to the cathode and anions move to the anode, forming a current flow, thereby accelerating the removal of ions.
Concentration and dilution: Ions are concentrated and diluted on both sides of the membrane, ultimately achieving water purification.
Advantages
Efficient deionization: EDI technology can effectively remove most of the ions in water and meet the standards of ultrapure water.
Energy saving and environmental protection: Compared with traditional ion exchange technology, EDI does not require frequent replacement of resins, reducing the use of chemicals and the generation of waste.
Continuous operation: The EDI system can achieve continuous operation, reducing downtime and improving production efficiency.
Easy operation: The system has a high degree of automation, and maintenance and operation are relatively simple.
Application areas
Electrodeionization technology is widely used in the following fields:
Semiconductor manufacturing: used to prepare ultrapure water to meet the strict requirements of water quality in the production process.
Pharmaceutical industry: used to prepare pure water that meets pharmacopoeia standards.
Power industry: used for boiler water treatment and cooling water treatment.
Food and beverage: used for water purification and treatment.
Summary
Electrodeionization technology is an efficient and environmentally friendly water treatment method suitable for various industries that require high water quality. With the continuous development of technology, EDI is expected to be applied in more fields.
| Water output | LX-50 | LX-100 | LX-200 | LX-300 | LX-500 | LX-700 |
| Water flow range(m³/h) | 0.5-0.7 | 0.7-1.2 | 1.5-2.5 | 2.0-3.5 | 3.5-5.5 | 5.5-7.5 |
| Standard water flow rate(m³/h) | 0.5 | 1.0 | 2.0 | 3.0 | 5.0 | 7.0 |
| Resistivity of produced water (MO·cm) | >15 | >15 | >15 | >15 | >15 | >15 |
| Silicon and boron removal rate (%) | ≥99 | ≥99 | ≥99 | ≥99 | ≥99 | ≥99 |
| Water inlet requirements | LX-50 | LX-100 | LX-200 | LX-300 | LX 500 | LX-700 |
| Temperature range (℃) | 15-35(Top 25) | 15-35(Top 25) | 15-35(Top 25) | 15-35(Top 25) | 15-35(Top 25) | 15-35(Top 25) |
| Influent pH | 6.5-9.0 | 6.5-9.0 | 6.5-9.0 | 6.5-9.0 | 6.5-9.0 | 6.5-9.0 |
| Influent conductivity (us/cm) | 1-10(optimal<3) | 1-10(optimal<3) | 1-10(optimal<3) | 1-10(optimal<3) | 1-10(optimal<3) | 1-10(optimal<3) |
| Total carbon dioxide (ppm) | <3(optimal<2) | <3(optimal<2) | <3(optimal<2) | <3(optimal<2) | <3(optimal<2) | <3(optimal<2) |
| Total hardness (ppm) | <1 | <1 | <1 | <1 | <1 | <1 |
| Silicon · Active silicon (ppm) | ≤0.5(optimal≤0.2) | ≤0.5(optimal≤0.2) | ≤0.5(optimal≤0.2) | ≤0.5(optimal≤0.2) | ≤0.5(optimal≤0.2) | ≤0.5(optimal≤0.21) |
| Total organic carbon (ppm) | ≤0.5 | E0.5 | E0.5 | E0.5 | E0.5 | E0.5 |
| Residual oxygen (ppm) | ≤0.01 | ≤0.01 | 60.01 | ≤0.01 | 60.01 | 60.01 |
| Ionic metal (Fe/Mn.ppm) | ≤0.01 | ≤0.01 | ≤0.01 | ≤0.01 | ≤0.01 | ≤0.01 |
| Turbidity (NTU) | <1 | <1 | <1 | <1 | <1 | <1 |
| Grease | Not detected | Not detected | Not detected | Not detected | Not detected | Not detected |
| Influent grains (um) | ≤1.0(optimal∈0.5) | ≤1.0(optimal≤0.5) | ≤1.0(optimal≤0.5) | ≤1.0(optimal≤0.5) | ≤1.0(optimal≤0.5) | ≤1.0(optimal≤0.5) |
| Oxidant | Not detected | Not detected | Not detected | Not detected | Not detected | Not detected |
| Item | L | W | H | φ1 | φ2 | φ3 | φ4 | φ5 | a | Mounting holes |
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| length | width | ||||||||||
| LX-50 | 310 | 320 | 610 |
Fresh water inlet
|
Concentrated water
|
Fresh water inlet |
Concentrated water |
M10 | 40 | 200 | 215 |
| LX-100 | 400 | 320 | 610 | 280 | 215 | ||||||
| LX-200 | 570 | 320 | 610 | 415 | 215 | ||||||
| LX-300 | 710 | 320 | 610 | 560 | 215 | ||||||
| LX-400 | 760 | 320 | 610 | 715 | 215 | ||||||
| LX-500 | 950 | 320 | 610 | 755 | 215 | ||||||
| LX-700 | 990 | 320 | 610 | 855 | 215 | ||||||
For application cases, please click:https://www.fgwater.com/Industries/
About Us
FG Water Technologies (www.fgwater.com) is now an organic part of Wuxi Fenigal Science and Technology Co. Ltd., which is a high-tech entity integrating water treatment quipment design, manufacturing, trading and shipment served for main industrial sectors.
HAFE-FG Water Technologies has focused on the research of water treatment technology, equipment development and manufacturing, testing and international shipment etc. We work with many leading large-scale or small-medium original equipment manufacturers in China High-tech Development Zones, and engaged ourselves in R&D, manufacturing, and quality testing.
Our main products include a variety of water purification and different treatment equipment, such as seawater reverse osmosis (SWRO) system, brackish water rever osmosis (BWRO), ultrafiltration (UF)system, Electrodeionization/EDI equipment, media pressure filters and ion exchanger softeners. So far, our company has become a major water treatment equipment supplier for food and beverage industry, pharmaceutical industry, chemical industry, electric power industry, urban water supply industry, municipal and industrial wastewater treatment and more industries, as well as being an exporter to more than 20 countries and regions in Asia, Europe, the Americas, Africa, etc.
Our production system consist of a list of industry-specialized partnership factories accross China. Some of them singularly cover an area of over 10,000 square meters, including 5,000 square meters of workshop and warehouse and 1,500 square meters of office buildings. All of our technical staff has more than 10 years of experience in the design of water treatment systems, so we are able to provide the perfect solution for all kinds of water purification and sewage treatment applications.
Since the establishment, the Company has always regarded quality as the life of our business. We choose the best components only for the production of various water treatment systems. Our systems are easy to use and maintain, and they stays highly reliable even under toughest conditions.
Contact Person: Mr. Harry
Tel: +86-13646187144
