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      LANGUAGE:CN/EN

      CONTACT:MR ZHANG

      186 2630 8316

      E-MAIL:

      zhang2008haitao@outlook.com

      Plasma scrubber washing dedicated power supply


      Product usage
      ● A plasma scrubber is a device that uses low-temperature plasma technology to treat industrial waste gas. This technology generates high-energy electrons, ions, free radicals and other active particles through high-voltage discharge, and decomposes harmful pollutants in exhaust gas into harmless or low-risk substances under normal temperature and pressure conditions, achieving purification.
      ● Compared with traditional exhaust gas treatment technologies such as thermal combustion, catalytic oxidation, and activated carbon adsorption, plasma scrubbers have the advantages of low energy consumption, high efficiency, wide applicability, and no secondary pollution. They have become an important technological choice in the field of VOCs (volatile organic compounds) treatment.

      Features
      ● High processing efficiency, VOCs removal rate can reach over 90%
      ● Low energy consumption, with operating costs only 1/5-1/10 of thermal combustion
      ● Operating at room temperature, no preheating required, fast startup
      ● Compact equipment with small footprint
      ● No secondary pollution, the main products are CO ₂ and H ₂ O


      Working principle
      Plasma generation mechanism
      The core of a plasma scrubber is to generate low-temperature plasma through dielectric barrier discharge (DBD) or corona discharge technology. When a sufficiently high AC voltage (usually 5-30kV, frequency 50Hz-100kHz) is applied, the gas in the electrode gap is broken down, forming a large number of micro discharge channels.
      During the discharge process, electrons obtain energy from the electric field (with an average energy of 1-10 eV), and these high-energy electrons collide with gas molecules, triggering the following main reactions:
      • Electron collision excitation: e+M → M *+e
      • Electron collision ionization: e+M → M ⁺+2e
      • Electron dissociation: e+AB → A+B+e
      • Attachment reaction: e+AB → AB ⁻
      Degradation process of pollutants
      Organic pollutants in exhaust gases undergo complex physicochemical processes and are degraded in plasma environments. The main degradation pathways include:
      1. Direct electron collision: High energy electrons collide directly with pollutant molecules, causing them to excite, ionize, or dissociate.
      2. Free radical reaction: Active free radicals such as · OH, · O, · N generated by discharge react with pollutants.
      3. Ozone oxidation: The O3 generated by discharge undergoes an oxidation reaction with pollutants.
      4. UV photolysis: The UV radiation generated during the discharge process causes pollutants to undergo photolysis.

      Technical features
      Compared to traditional exhaust gas treatment technologies, plasma scrubbers have the following characteristics:
      Comparison items Plasma Thermal combustion Activated carbon adsorption
      Processing temperature Room temperature 700-800℃ Room temperature
      Energy consumption Low Tall Middle
      Remove efficiency 85-99% 95-99% 60-90%
      Secondary pollution Nothing NOx Waste activated carbon
      Floor area Small Big Middle
      Comparison between plasma scrubbers and traditional technologies
      Core technological advantages:
      1. Broad spectrum: It can simultaneously handle multiple types of VOCs, including alkanes, alkenes, aromatic hydrocarbons, oxygen-containing organic compounds, etc.
      2. Adaptability: Strong adaptability to fluctuations in exhaust gas concentration, capable of treating low concentration (<100ppm) exhaust gas.
      3. Safety: Operated at room temperature, with no risk of fire or explosion.
      4. Modularization: It can be flexibly combined according to processing capacity, making it easy to expand.

      Technical indicators
      Performance parameters
      Parameter name Numerical range Remark
      Handling air volume 1000-50000 m³/h Customizable
      VOCs removal rate ≥90% Depending on the composition
      Odor removal rate ≥95% NH₃、H₂S, etc
      Input voltage AC 380V ± 10% Three-phase five-wire
      Discharge voltage 5-30 kV Adjustable
      Discharge frequency 50 Hz - 100 kHz Adjustable
      Power density 5-50 W/L Depending on concentration
      Equipment resistance <500 Pa Low resistance
      Structural parameters
      Parameter name Specifications Material
      Reactor shell Carbon steel/stainless steel Q235/SUS304
      Discharge electrode Stainless steel needle/wire SUS316
      Grounding electrode Stainless steel plate SUS304
      Dielectric layer Ceramic/Quartz Al₂O₃/SiO₂
      Insulating material Polytetrafluoroethylene PTFE
      High voltage power supply High frequency inverter IGBT module
      Control system PLC automatic control Siemens/Mitsubishi

      Application field
      Plasma scrubbers are used for exhaust gas treatment in the following industries:
      Printing and packaging industry
      The main components of ink waste gas generated during printing, lamination, and coating processes are toluene, xylene, ethyl acetate, etc.
      Painting and spraying industry
      Dealing with paint mist and organic solvent waste gas generated during the painting and baking process, including alcohols, ketones, esters, etc.
      Chemical and pharmaceutical industry
      The process exhaust gases emitted from reaction vessels, distillation towers, drying equipment, etc. are complex and diverse in composition.
      Electronic semiconductor industry
      Process special gases and organic waste gases generated by photolithography, etching, cleaning, and other processes.
      Food processing industry
      Dealing with oil fumes and odors generated during processes such as frying, baking, and fermentation.

      Equipment selection
      According to the processing air volume and pollutant concentration, plasma scrubbers are divided into the following standard models:
      Model Handling air volume Installed capacity Dimensions (mm)
      PS-1000 1000 m³/h 3 kW 1200×800×1500
      PS-3000 3000 m³/h 8 kW 1800×1000×1800
      PS-5000 5000 m³/h 12 kW 2200×1200×2000
      PS-10000 10000 m³/h 22 kW 2800×1500×2200
      PS-20000 20000 m³/h 40 kW 3600×2000×2500
      PS-50000 50000 m³/h 90 kW 5000×2800×3000
      Selection precautions:
      • The particulate matter content in the exhaust gas should be less than 5mg/m ³, and if it is too high, pre-treatment is required
      • The relative humidity should be less than 80%. If it is too high, dehumidification treatment is required
      • The exhaust gas temperature should be less than 60 ℃. If it is too high, it needs to be cooled down
      • Halogen containing exhaust gas requires special design to prevent corrosion
      • Explosion proof measures must be taken for flammable and explosive exhaust gases

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      CONTACT US

      Contact: Mr. Zhang 186 2630 8316

      phones: 0510-83489568

      Fax: 0510-83489568

      Web: www.hiwintbi.com

      E-mail: zhang2008haitao@outlook.com

      Add:No. 380 Jincheng East Road, Xinwu District,
      Wuxi City, Jiangsu Province


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