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SDIC Beibuwan Power Plant Desulfurization wastewater project

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SDIC Beibuwan Power Plant Desulfurization wastewater project

SDIC Beibuwan Power Plant Desulfurization wastewater project

Water Quality

Desulfurization wastewater have the characteristics of high suspended substance, high hardness, high salt content, are unstable and large fluctuation range of water quality and quantity and low acidity.

Treatment Purpose

Desulfurization Wastewater is the terminal wastewater of the power plant with the worst water quality and most difficult for treatment. Real zero liquid discharge of whole plant’s circulating water is only possible if the zero liquid discharge of desulfurization wastewater can be realized.

Process Flow Diagram (Featured Process)


工艺流程图 电力_页面_4_副本eng.jpg


Process Description

² Tube Microfiltration (TMF): adopts unique composite membrane tube: The PVDF membrane could crosslink or embedded into the inner surface of PE supporting tube with PVDF supporting tube inner surface, allowing high particle removal efficiency and membrane flux of membrane tube under a high operating pressure or backwashing pressure, thus reducing the footprint area of the system. The system could remove hardness, silica and turbidity from water, with silica removal rate of more than 90%.

² Nanofiltration (SCNF): SCNF is a type of membrane separation technique uses pressure difference as the driving force, intercepting nanoscale particles in the water which is between reverse osmosis and ultrafiltration. Compared with ultrafiltration and reverse osmosis, the removal rate of monovalent ions and organics which the molecular weight is less than 200 is poorer for nanofiltration, but the removal rate of divalent or polyvalent ions and organics which the molecular weight is between 200 to 500 is higher. The system could remove divalent ions and separate salt from raw water, with divalent ions removal rate of more than 95%.

² High-Pressure Anti-Pollution Reverse Osmosis (SCRO): Reverse osmosis, a membrane separation operation that uses pressure difference as driving force to separate a solvent from a solution. Pressure is applied to the liquid on one side of the membrane. When the pressure exceeds its osmotic pressure, the solvent reversely penetrates against the direction of natural permeation. Thus, permeate is obtained on the low-pressure side of the membrane and concentrate is obtained on the high-pressure side. The system could desalinate raw water and reduce the quantity of concentrate, the desalination rate could reach more than 95%.

² Ultrahigh-Pressure Disk Tube Reverse Osmosis (DTRO): DTRO membrane is the core components of realizing the separation of fresh water and impurities. It is made of polymer materials; aromatic polyamide has excellent chemical properties and is selected as the material of the disc diaphragm. Wastewater is pressurized by the inlet pump to obtain initial pressure and filtered by cartridge filter, then pressurized by high-pressure pump to provide pressure difference. The circulation pump provides large flow rate to meet the flow rate requirement of DTRO membrane surface, the liquid flow “S” shape in the disk channel, small molecular particles, dissolved ions, and the like in the liquid are trapped on the concentrated water side, and the permeated fresh water is collected to become a clean filtrate. The system could reduce the concentration quantity from last stage, the TDS of concentrate could reach 12%.

Process Advantages

(1)Full Membrane Technology: Adopts microfiltration, nanofiltration, reverse osmosis and ultrahigh-pressure reverse osmosis technology, the whole process is a physical process, no phase change and secondary pollution;

(2)Wide range of adaptation: The technology could treat 15000 mg/L to 70000 mg/L high salination wastewater, especially desulphurization wastewater from power plants with large fluctuations in water quality;

(3)Ultra-flexible Design: The system is divided into pre-treatment softening module, salt separation module, concentration module and evaporative crystallization module, which can be operated separately, and flexibly assembled according to inlet water quality.

(4)Short Construction Period: Using modular design, individual module is integrated in the factory, reducing on-site work, realizing containers assembly, reducing civil construction period, thus reducing construction period.

(5)Low Operating Cost: Membrane concentrate reduction module added between pre-treatment and evaporative crystallization, can greatly reduce the amount of evaporation, save operating costs, and invest cost-effectively;

(6)Zero Wastewater Discharge: Using MVR evaporative crystallization, to obtain a high purity refined salt and achieve zero discharge of waste water, thus make zero liquid discharge of power plant’s circulating water possible.

Case Introduction

Desulfurization wastewater project of a power plant in Guangxi

Project Name

10 m3/h Desulfurization Zero Wastewater Discharge Membrane Treatment System




SDIC Beibuwan Power Plant

Raw Water

Desulfurization Wastewater Triple Tank Effluent


2×10 m3/hr

Installed Power


Process Flow

Softening + Coagulation Sedimentation + Ultrafilration + Reverse Osmosis + Fume Evaporation

Membrane System Recover Rate


Product Water Quality




≤500 mg/L


≤20 mg/L


≤15 mg/L


≤6 mg/L


≤1000 mg/L

Project Characteristics and Highlights

1. Hollow fiber ultrafiltration and seawater reverse osmosis are used for concentration reduction after pre-treatment;

2. The core components of the system are imported brands with excellent equipment quality.

3. The system adopts fully automatic setting, without excessive manual control, saving customers' manual investment, facilitating management and ensuring stable operation of the system;

4. The system uses high standards to design and manufacture standard to manufacture systems with excellent equipment and excellent quality;

Total Duration

3 Months

Construction Time

March 2017

Completion Time

June 2017


In Operation

Related tags:废水零排放

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