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Veolia MK-5 EDI Module 22 GPM for Boiler Feedwater
商品の詳細:
| Place of Origin: | China |
| ブランド名: | VEOLIA |
| 証明: | CE |
| Model Number: | MK-5 |
| ドキュメント: | Veolia EDI catalog.pdf |
お支払配送条件:
| Minimum Order Quantity: | 1 pc |
|---|---|
| 価格: | 交渉可能 |
| Packaging Details: | standard export packing |
| Payment Terms: | T/T |
| Supply Ability: | 60000 Units per Month |
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詳細情報 |
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| Minimum pressure difference between dilute outlet and concentrate inlet (bar): | 0.34 | Dilute inlet/outlet standard pressure drop (bar): | 1.4-2.8 |
|---|---|---|---|
| Inlet pressure (bar): | Counter-current: 4.1-6.9 Co-current: 3.1-6.9 | Amperage (ADC): | 0-5.2 |
| Voltage (VDC): | 0-400 | Recovery: | up to 97% |
| designed water production (m3 /hr): | 4.0-6.4 | Nominal Flow: | 5.0 m3/h (22 gpm) |
| MK-5 Application: | Boiler Feedwater In Power Plants | ||
| ハイライト: | Veolia MK-5 EDI module 22 GPM,EDI module for boiler feedwater,Suez EDI stack with warranty |
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製品の説明
22 Gpm Veolia MK-5 EDI Module Boiler Feedwater In Power Plants
Product Specifications
| Attribute | Value |
|---|---|
| Minimum pressure difference between dilute outlet and concentrate inlet (bar) | 0.34 |
| Dilute inlet/outlet standard pressure drop (bar) | 1.4-2.8 |
| Inlet pressure (bar) | Counter-current: 4.1-6.9 Co-current: 3.1-6.9 |
| Amperage (ADC) | 0-5.2 |
| Voltage (VDC) | 0-400 |
| Recovery | up to 97% |
| Designed water production (m3/hr) | 4.0-6.4 |
| Nominal Flow | 5.0 m3/h (22 gpm) |
| MK-5 Application | Boiler Feedwater In Power Plants |
Veolia EDI Technology - Advanced Electrodeionization for High-Purity Water
Veolia's E-Cell ® EDI (Electrodeionization) technology represents the gold standard in continuous demineralization, offering a chemical-free, high-efficiency alternative to traditional mixed-bed ion exchange. Designed for industries requiring ultra-pure water, Veolia EDI stacks combine ion-exchange resins and selective membranes with direct current to remove contaminants—including silica and boron—without regeneration chemicals.
Key Advantages:
- Zero Chemical Regeneration - Eliminates acid/caustic handling, reducing operational costs and safety risks.
- Consistent High Purity - Produces water with > 16 MΩ*cm resistivity and < 5 ppb silica, meeting stringent standards for semiconductor, pharmaceutical, and power industries.
- Energy-Efficient Design - Patented resin configuration and counter-current operation minimize power consumption and scaling risks.
- Modular & Scalable - Available in MK-3, MK-5, and MK-9 stacks, supporting flows from 1.6 to 10 m³/h with up to 97% recovery.
- Validated Reliability - CE, FDA, and Halal certified, manufactured in ISO 9001/14001 facilities with 85 °C hot-water sanitization options (PharmHT series).
Global Applications:
- Microelectronics: Ultrapure rinse water for semiconductor fabrication.
- Pharmaceutical: USP/EP-compliant purified water.
- Power Generation: High-purity boiler feedwater.
- Industrial Processes: Steel, chemical, and LNG plant demineralization.
Backed by Veolia's performance guarantees and global technical support, E-Cell EDI delivers sustainable, low-maintenance pure water solutions.
GE, Suez, and Veolia EDI Modules (all the same product: Veolia EDI Module)
Typical Applications
The water produced by the E-Cell-3X reliably meets today's most demanding ultrapure water applications, including but not limited to:
- Ultrapure water for rinsing semiconductor chips, solar panels, and other microelectronic devices.
- Demineralized feed water for high-pressure boilers in power plants and other heavy industrial sites.
- Ultrapure water for green hydrogen generation in electrolyzers.
To simplify design and enhance your confidence in EDI applications, we offer E-Cell performance predictions and guarantees, which are available through Winflows* software or by contacting us.
Technical Specifications
| Parameter | Value |
|---|---|
| Brand | Veolia EDI |
| Exchangeable ppm | 65.0 |
| Inlet Pressure bar | 6.9 |
| Inlet Pressure psi | 100 |
| Type of Stack | E-Cell 3X |
| Max Temperature °C | 40 |
| Max Temperature °F | 104 |
| Pressure drop bar | 1,4-2,8 |
| Pressure drop psi | 20-40 |
| Recovery % | up to 97 % |
| Flow m3/h | 2,3-6,4 |
| Flow rate gpm/ft2 | 10-28 |
| Power voltage V | 0-400 VDC |
| Shipping Weight kg | 165 |
| Shipping Weight lbs | 364 |
| Application | Ultrapure water, Boiler feed water |
E-Cell-3X Stack Specifications
| Parameter | Value |
|---|---|
| Nominal Flow | 5.0 m3/h (22 gpm) |
| Flow Rate Range | 2.3-6.4 m3/h (10-28 gpm) |
| Shipping Weight | 165 kg (364 lbs) |
| Dimensions (width x height x depth) | 30 cm x 61 cm x 72cm 12'' x 24" x 29" |
Product Water Quality
| Parameter | Value |
|---|---|
| Resistivity | ≥ 16 MOhm-cm |
| Sodium | ≤ 3 ppb |
| Silica (SiO2) | As low as 5 ppb |
| Boron | As low as 0.08 ppb |
Note 1: Actual performance may vary based on site conditions. Refer to Winflows Prediction Software to verify expected product water quality.
Typical Removal Efficiencies
| Parameter | Efficiency |
|---|---|
| Sodium | ≥ 99.9% removal |
| Silica (SiO2) | Up to 99% removal |
| Boron | Up to 96% removal |
Operating Parameters
| Parameter | Value |
|---|---|
| Recovery | Up to 97% |
| Voltage | 0-400 VDC |
| Amperage | 0-5.2 ADC |
| Inlet Pressure Note 2 | ≤ 6.9 bar (100 psi) |
| Pressure Drop Note 3 | 1.4-2.8 bar (20-40 psi) |
Note 2: Inlet pressure is determined by downstream pressure requirements for product and concentrate streams, choice of countercurrent or cocurrent operation, and stack pressure drop.
Note 3: At nominal flow and 25°C. Refer to Winflows Prediction Software to verify design conditions.
Feed Water Specifications
| Parameter | Value |
|---|---|
| Total Exchangeable Anions (TEA as CaCO3) Note 5 | ≤ 65 ppm |
| Conductivity Equivalent | ≤ 112 μS/cm |
| Temperature | 4.4-40˚C (40-104˚F) |
| Total Hardness (as CaCO3) Note 6 | ≤ 1.0 ppm |
| Silica (SiO2) Note 7 | ≤ 1.0 ppm |
| Total Organic Carbon (TOC as C) | ≤ 0.5 ppm |
| Total Chlorine | ≤ 0.05 ppm |
| Fe, Mn, H2S | ≤ 0.01 ppm |
| Boron Note 8 | ≤ 1.0 ppm |
| pH | 4 to 11 |
| Oil & Grease | None detectable |
| Particulate Note 9 | RO permeate |
| Oxidizing Agents | None detectable |
| Color Note 10 | ≤ 5 APHA |
Note 4: Refer to Winflows Prediction Software and the E-Cell Stack Operating Manual to verify feedwater specifications at design conditions.
Note 5: TEA (ppm as CaCO3) - Total Exchangeable Anions, this represents the concentration of all anions in the feedwater, including contributions from OH-, CO2 and SiO2. Winflows must be used to confirm that the feedwater TEA is acceptable at the given application operating conditions. Tabulated values are given at minimum flow and maximum temperature.
Note 6: The 1.0 ppm feedwater hardness limit as CaCO3 is for standard countercurrent operation only. Under co-current operation, the allowable feed water hardness is reduced to 0.1 ppm as CaCO3.
Note 7: At rates above nominal flow, the allowable silica limit is reduced. When feed water hardness exceeds 0.5 ppm as CaCO3, the allowable silica limit is reduced to 0.5 ppm.
Note 8: When a silica guarantee requirement exists or a resistivity guarantee requirement is above 10 MOhm-cm, the boron feed level is limited to 0.3 ppm as B, as higher boron levels may affect performance. In the absence of these requirements, the limit is 1.0 ppm boron.
Note 9: Reverse Osmosis (RO) or Equivalent Feed Water: RO provides feed water to the EDI that is essentially free of particulate matter, colloidal materials, and high molecular weight organic matter that could foul the ion exchange media. Because the EDI stack contains packed beds of ion exchange media that cannot be backwashed/fluidized to remove particulate matter, the quality of the RO permeate needs to be specified. Systems with an open system between the RO system (or other source) and the E-Cell (e.g., storage tank, decarbonator) must have a filter installed immediately before the E-Cell to protect the E-Cell from contamination by particulate matter. Generally, a 5µm absolute filter or 1µm nominal filter is acceptable.
Note 10: APHA - Color standard/scale named after the American Public Health Association and defined by ASTM.
Veolia E-Cell EDI Stack Models
| E-Cell EDI Stack | Nominal Stack Flow Rate | Typical New-Build Applications |
|---|---|---|
| MK-9 | 8.0 m3/h (35 gpm) |
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| MK-5 | 5.0 m3/h (22 gpm) |
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| MK-3 | 3.4 m3/h (15 gpm) |
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| MK-3PharmHT | 3.4 m3/h (15 gpm) |
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| MK-3MiniHT | 1.14 m3/h (5 gpm) |
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Quality Assurance
- CE, RoHS, CSA, and EAC Marks
- Made in an ISO 9001 and ISO 14001 compliant facility
- UKCA Certified
- E-Cell-3X Stacks are Halal certified by the Islamic Food and Nutrition Council of America (IFANCA®)
For more models, please visit: https://www.fgwater.com/Veolia-Electrodeionization-EDI-Stack-Module/389.html
E-Cell EDI Technology Performance Examples
E-Cell EDI technology has been successfully applied in various industries such as power, petroleum, chemical, steel, pharmaceutical, and electronics.
For application cases, please visit: https://www.fgwater.com/Industries/
About Us
FG水处理技术公司(www.fgwater.com)现为无锡芬尼格尔科技有限公司的有机组成部分,是一家集水处理设备设计,制造,贸易和运输为一体的高科技实体,服务于主要工业部门.
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我们的主要产品包括各种水净化及处理设备,例如海水反渗透(SWRO)系统,苦咸水反渗透(BWRO),超滤(UF)系统,电去离子/EDI设备,介质压力过滤器和离子交换软化器.目前,我公司已成为食品饮料,制药,化工,电力,城镇供水,市政及工业废水处理等行业的主要水处理设备供应商,并出口到亚洲,欧洲,美洲,非洲等20多个国家和地区.
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我们的生产体系由遍布全国的多家行业专业合作工厂组成.部分工厂占地面积超过10,000平方米,其中包括5,000平方米的厂房及仓库以及1,500平方米的办公楼.我们所有的技术人员均拥有超过10年的水处理系统设计经验,因此我们能够为各种水净化和污水处理应用提供完美的解决方案.
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