Vaccum Filtration Unit

  • Specification Vacuum filtration unit with jar Vacuum filtration unit
    Material of construction Big Glass Cylindrical Jar

    ● It is made of transparent borosil,

    ● Approx. capacity: 5 lits,

    ● Height / length : 35 cm,

    ● Inner dia            : 25 cm,

    ● Thickness          : 2 cm,

    Feeding Small Cylindrical Jars :

    ● It is made of transparent borosil,

    ● Capacity – 2 lits,

    ● Height -20cm

    ● Inner dia-20cm,

    ● thickness-1cm,

     

    Ceramic Funnel Inner Dia -10mm

    capacity-250ml

    Moisture Trap Present Detachable
    Capacity approx. maximum size-75 μm

    minimum size-25 μm ,

    max 1 Lits

    Capable of treating approx 25 Its per batch
    Feeding material Extraction gold, copper, silver, lithium Iron, Graphite, Limestone, clay
    Vacuum Pump Motor rate-1.5 HP

    Suction Capacity – 15 m3/h or better

    Operating Speed rpm 1440 or more

    Pressure Gauges. – Dial Gauges

    Peristatic feed pump assembly with Drive motor, VFD

     

    Collection Chamber :ID 250mm OD 265mm

    Height 60mm

     

    Material Of construction of Pump Particular : SS-304 Impeller

    Body (Casing) CI – IS 210 FG 260

    Side Covers CI – IS 210 FG 260

    Control Plates CI – IS 210 FG 260

     

    Electrical Details 230V , Single Phase , 50 Hz

     

    Motor 1.5 HP , 1440 RPM

     

Know More

Key feature

 

Key feature –

  • Adjustable Vacuum Pressure Control: Optimizes filtration rates based on material requirements.
  • High Filtration Efficiency: Produces low-moisture filter cakes for improved handling.
  • Versatile Filter Medium: Compatible with various filter materials for different applications.
  • Continuous Operation: Enables high throughput with minimal downtime.
  • Automated Control Systems: Ensures consistent performance and efficiency.

 

  • Compact Design: Suitable for installation in limited spaces often found in mining facilities.
  • Easy Maintenance: Simplified access for cleaning and maintenance, minimizing operational interruptions.
  • Environmentally Friendly: Features for waste management and water recycling, promoting sustainability.
  • Customizable Options: Tailored to meet specific industry requirements and processing needs.

Description

Description:

A vacuum filtration unit is an efficient solid-liquid separation system featuring adjustable vacuum pressure control for optimized filtration rates. It delivers high filtration efficiency, producing low-moisture filter cakes for better handling. The unit can use various filter mediums, operates continuously for high throughput, and often includes automated control systems for consistent performance. Its robust construction withstands harsh conditions, while its compact design is suitable for limited spaces. Additionally, vacuum filtration units are easy to maintain, environmentally friendly, and customizable to meet specific industrial needs, making them essential in mining and processing applications.

A vacuum filtration unit is an efficient solid-liquid separation system featuring adjustable vacuum pressure control for optimized filtration rates. It delivers high filtration efficiency, producing low-moisture filter cakes for better handling. The unit can use various filter mediums, operates continuously for high throughput, and often includes automated control systems for consistent performance. Its robust construction withstands harsh conditions, while its compact design is suitable for limited spaces. Additionally, vacuum filtration units are easy to maintain, environmentally friendly, and customizable to meet specific industrial needs, making them essential in mining and processing applications.

Function Principle

The function principle of a vacuum filtration unit involves the separation of solids from liquids using the application of vacuum pressure.

  1. Feed Introduction: The slurry, which contains a mixture of solids and liquids, is introduced into the vacuum filtration unit.
  2. Vacuum Generation: A vacuum pump creates a negative pressure inside the filtration chamber. This vacuum draws air out of the chamber, lowering the pressure and causing the liquid phase of the slurry to be pulled through the filter medium.
  3. Filtration Process:
    • Liquid Flow: As the vacuum is applied, the liquid in the slurry is drawn through the porous filter medium (such as cloth or paper) while the solid particles are retained on the surface.
    • Formation of Filter Cake: The retained solids accumulate on the filter medium, forming a filter cake. This cake acts as a secondary filter, enhancing the filtration process over time.
  4. Filtrate Collection: The liquid that passes through the filter medium (known as the filtrate) is collected in a designated tray or reservoir, separating it from the solids.
  5. Pressure Equalization: Once the filtration process is complete, the vacuum is released, allowing for the removal of the filter cake.
  6. Cake Removal and Cleaning: The filter cake is removed for further processing or disposal, and the filter medium is cleaned for reuse, if necessary.
  7. Recycling and Sustainability: The collected filtrate can often be recycled back into the process, promoting efficient resource use and reducing waste.

This principle of operation enables vacuum filtration units to achieve efficient solid-liquid separation, making them valuable in various industrial applications, especially in mining and mineral processing.