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Sedimentation Process Explained in Detail

Shubham Sakhareliya
Shubham Sakhareliya

This document provides an overview of sedimentation as a process for separating solids from liquids by gravity settling. It defines sedimentation and describes types such as plain sedimentation and sedimentation with coagulation. Batch sedimentation is explained through different settling zones. Rate of sedimentation and applications are discussed. Common equipment for batch sedimentation include thickeners and clarifiers. Thickeners are used to concentrate solids while clarifiers purify liquids. Circular and parallel plate clarifiers are described.

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NAME : SAKHARELIYA SHUBHAM A. ENROLLMENT NO. : 180470105047 BRANCH : CHEMICAL ENGINEERING SUBJECT : MECHANICAL OPERATION PRESENTATION REPORT SEDIMENTATION
OUTLINE • SEDIMENTATION  WHAT IS SEDIMENTATION?  TYPES OF SEDIMENTATION  TYPES OF SETTLING  BATCH SEDIMENTATION  RATE OF SEDIMENTATION  APPLICATIONS OF SEDIMENTATION  EQUIPMENTS USED FOR BATCH SEDIMENTATION  THICKENERS  CLARIFIERS
 WHAT IS SEDIMENTATION ?  SEDIMENTATION, OR CLARIFICATION, IS THE PROCESS OF LETTING SUSPENDED MATERIAL SETTLE BY GRAVITY.  SUSPENDED MATERIAL MAY BE PARTICLES, SUCH AS CLAY OR SALTS, ORIGINALLY PRESENT IN THE SOURCE WATER.  MORE COMMONLY, SUSPENDED MATERIAL IS CREATED FROM MATERIAL IN THE WATER AND THE CHEMICAL USED IN COAGULATION OR IN OTHER TREATMENT PROCESSES, SUCH AS LIME SOFTENING.  SEDIMENTATION IS ACCOMPLISHED BY DECREASING THE VELOCITY OF THE WATER BEING TREATED TO A POINT BELOW WHICH THE PARTICLES WILL NO LONGER REMAIN IN SUSPENSION.  WHEN THE VELOCITY NO LONGER SUPPORTS THE TRANSPORT OF THE PARTICLES, GRAVITY WILL REMOVE THEM FROM THE FLOW.
 TYPES OF SEDIMENTATION  PLAIN SEDIMENTATION :  WHEN IMPURITIES ARE SEPERATED FROM SUSPENDING FLUID BY ACTION OF NATURAL FORCE ALONE, WITHOUT AID OF ANY COAGULANT, IS CALLED PLAIN SEDIMENTATION.  SEDIMENTATION WITH COAGULATION :  A CHEMICAL PROCESS THAT INVOLVES A NEUTRALISING CHARGE ON THE PARTICLES.  THIS OCCURS WHEN A COAGULANT IS ADDED TO WATER TO DESTABILISE COLLOIDAL SUSPENSIONS.
 TYPES OF SETTLING DESCRETE FLOCCULANT HINDERED COMPRESSION
 TYPES OF SETTLING 1. DESCRETE SETTLING :  IN DISCRETE SETTLING INDIVIDUAL PARTICLES SETTLE INDEPENDENTLY.  IT OCCURS WHEN THERE IS A RELATIVELY LOW SOLIDS CONCENTRATION. 2. FLOCCULANT SETTLING :  IN FLOCCULANT SETTLING, INDIVIDUAL PARTICLES STICK TOGETHER INTO CLUMPS CALLED FLOES.  THIS OCCURS WHEN THERE IS A GREATER SOLIDS CONCENTRATION AND CHEMICAL OR BIOLOGICAL REACTIONS ALTER PARTICLE SURFACES TO ENHANCE ATTACHMENT.
 TYPES OF SETTLING 3. HINDERED SETTLING :  IN HINDERED SETTLING, PARTICLE CONCENTRATION IS GREAT ENOUGH TO INHIBIT WATER MOVEMENT.  WATER MUST MOVE IN SPACES BETWEEN PARTICLES. 4. COMPRESSION SETTLING :  COMPRESSION SETTLING OCCURS WHEN PARTICLES SETTLE BY COMPRESSING THE MASS BELOW.
 BATCH SEDIMENTATION 1 2 3 4 5
 BATCH SEDIMENTATION  THERE ARE MANY ZONES IN SEDIMENTATION PROCESS.  FIRST SOLID IS UNIFORMLY DISTRIBUTED IN THE LIQUID. THE TOTAL DEPTH OF THE SUSPENSION IS ZO.  AFTER A SHORT TIME THE SOLIDS HAVE SETTLED TO GIVE A ZONE OF CLEAR LIQUID, ZONE A AND ZONE D OF SETTLED SOLIDS.  ABOVE D IS A TRANSITION LAYER ZONE C, IN WHICH THE SOLIDS CONTENT VARIES FROM THAT IN THE ORIGINAL PULP TO THAT IN ZONE D.  IN ZONE B THE CONCENTRATION IS UNIFORM AND EQUAL TO THE ORIGINAL CONCENTRATION, SINCE THE SETTLING RATE IS THE SAME THROUGHOUT.  THE BOUNDARIES BETWEEN ZONES D AND C AND BETWEEN C AND B MAY NOT BE DISTINCT BUT THE BOUNDARY BETWEEN ZONES A AND B IS USUALLY SHARP. 1 2 3 4 5
 BATCH SEDIMENTATION  AS THE SETTLING CONTINUES, THE DEPTHS OF A AND D INCREASE. THE DEPTH OF C REMAINS CONSTANT AND OF B DECREASES.  EVENTUALLY ZONE B DISAPPEARS AND ALL THE SOLIDS ARE IN ZONES C AND D.  THE GRADUAL ACCUMULATION OF SOLIDS PUT STRESS ON THE MATERIAL AT THE BOTTOM, WHICH COMPRESSES SOLIDS IN LAYER D.  COMPRESSION BREAKS DOWNS THE STRUCTURE OF THE FLOCS OR AGGREGATES AND LIQUID IS EXPELLED INTO THE UPPER ZONES.  WHEN THE WEIGHT OF THE SOLID IS BALANCED BY THE COMPRESSIVE STRENGTH OF THE FLOCS, THE SETTLING PROCESS STOPS.  THE ENTIRE PROCESS IS CALLED BATCH SEDIMENTATION. 1 2 3 4 5
 RATE OF SEDIMENTATION  DURING EARLY STAGES OF SETTLING THE VELOCITY IS CONSTANT, AS SHOWN BY THE FIRST CURVE. WHEN ZONE B DISAPPEARS, THE RATE OF SETTLING STARTS TO DECREASE AND STEADILY DROPS UNTIL THE ULTIMATE HEIGHT IS REACHED.  THE INITIAL RATE IS A FUNCTION OF THE FEED CONCENTRATION BUT IN LATE STAGES THE SETTLING RATE ALSO DEPENDS UPON THE INITIAL HEIGHT, SINCE COMPRESSION EFFECTS ARE MORE IMPORTANT WITH THICKER SLUDGE LAYERS.  EXPERIMENTAL STUDIES OF THE SETTLING RATE FOR DIFFERENT INITIAL HEIGHTS AND CONCENTRATIONS ARE NEEDED TO DESIGN A THICKENER.
 APPLICATION OF SEDIMENTATION  APPLICATIONS IN WATER TREATMENT :  SETTLING OF COAGULATED AND FLOCCULATED WATERS PRIOR TO FILTRATION.  SETTLING OF COAGULATED AND FLOCCULATED WATERS IN A SOFTENING PLANT.  SETTLING OF TREATED WATERS IN AN IRON AND MANGANESE REMOVAL PLANT.  APPLICATIONS IN WASTE WATER TREATMENT :  IN THE PROCESS OF GRIT REMOVAL.  SUSPENDED SOLIDS REMOVAL IN PRIMARY CLARIFIER.  BIOLOGICAL FLOC REMOVAL IN ACTIVATED SLUDGE.
 EQUIPMENTS USED FOR BATCH SEDIMENTATION  THERE ARE TWO TYPES OF EQUIPMENTS WHICH ARE USED FOR SEDIMENTATION :  thickenerS  CLARIFIERS  THICKENERS AND CLARIFIERS ARE BOTH USED TO SEPARATE LIQUIDS AND SOLIDS BY SETTLING.  THICKENERS ARE USED TO CONCENTRATE SOLIDS, WHILE CLARIFIERS ARE USED TO PURIFY LIQUIDS.
 THICKENERS  IN THE TYPE OF THICKENER EQUIPMENT WE USE GRAVITY thickener.  THICKENING IS THE PROCESS BY WHICH BIO SOLIDS ARE CONDENSED TO PRODUCE A CONCENTRATED SOLID PRODUCTS.  THICKENING WASTEWATER SOLID REDUCES THE VOLUME OF RESIDUALS, IMPROVES OPERATION, AND REDUCES COST FOR SUBSEQUENT STORAGE, PROCESSING, TRANSFER, END USE, OR DISPOSAL.  GRAVITY THICKENING USES THE NATURAL TENDENCY OF HIGHER-DENSITY SOLIDS TO SETTLE OUT OF LIQUID TO CONCENTRATE THE SOLIDS.  GRAVITY THICKENERS CONSIST OF A CIRCULAR TANK (USUALLY WITH A CONICAL BOTTOM) THAT IS FITTED WITH COLLECTORS OR SCRAPERS AT THE BOTTOM.  PRIMARY AND/OR SECONDARY SOLIDS ARE FED INTO THE TANK THROUGH A CENTER WELL, WHICH RELEASES THE SOLIDS AT A LOW VELOCITY NEAR THE SURFACE OF THE TANK.
 THICKENERS  THE SOLIDS SETTLE TO THE BOTTOM OF THE TANK BY GRAVITY, AND THE SCRAPERS SLOWLY MOVE THE SETTLED, THICKENED SOLIDS TO A DISCHARGE PIPE AT THE BOTTOM OF THE TANK.  A V-NOTCH WEIR LOCATED AT THE TOP OF THE TANK ALLOWS THE SUPERNATANT TO RETURN TO A CLARIFIER.  GRAVITY SETTLING OCCURS WHEN SOLID PARTICLES TRAVEL DOWNWARD DUE TO THEIR WEIGHT.  SETTLEMENT CONTINUES AS SOLIDS BEGIN TO CONCENTRATE NEAR THE BOTTOM OF THE TANK, BUT THE SETTLEMENT RATE DECREASES AS THE SOLIDS CONCENTRATIONS INCREASE.
 THICKENERS G R A V I T Y T H I C K E N E R I N D U S T R I A L T H I C K E N E R S
 THICKENERS  SOLIDS AT THE BOTTOM OF THE TANK CAN REACH AS HIGH AS 15 PERCENT TOTAL SOLIDS(TS). A MORE TYPICAL RESULT IS 4 TO 6 PERCENT.  LIQUID AT THE SURFACE OF THE TANK IS NEARLY CLEAR, WITH SUSPENDED SOLIDS CONCENTRATIONS AS LOW AS 200 MG/L.
 CLARIFIERS  THERE ARE TWO TYPES OF CLARIFIERS : 1. CIRCULAR CLARIFIERS  2. PARALLEL PLATE CLARIFIER C I R C U L A R C L A R I F I E R S P A R A L L E L P L A T E C L A R I F I E R
 CLARIFIERS  CIRCULAR CLARIFIERS :  THICKENERS AND CLARIFIERS USE SLOWLY ROTATING RAKE ARMS TO SEPARATE SOLID PARTICULATE.  A LIQUID FEED WITH SUSPENDED SOLIDS IS FED INTO A TANK WITH A DIAMETER OF 5 TO 500 FEET. AS THE PARTICLES SETTLE, ANGLED RAKE ARMS MOVE THE CONCENTRATED SLURRY TOWARD THE CENTER OF THE TANK, WHERE IT IS REMOVED.  CLEAR LIQUID OVERFLOWS AT THE TOP OF THE TANK AND COLLECTED.  IN THE THICKENER SHOWN BELOW, CABLES CONTROLS THE HEIGHT OF THE RAKE ARMS.  WHEN HEAVY SLUDGE BUILDS UP AT THE BOTTOM, THE RAKES ARE RAISED SLIGHTLY.  ONCE THE BLOCKAGE HAS BEEN DISPERSED, THE RAKE ARMS ARE LOWERED BACK TO NORMAL POSITION.  ADJUSTABLE RAKE ARMS INCREASE OPERATING EFFICIENCY BY REDUCING MAINTENANCE DOWNTIME.
 CLARIFIERS  APPLICATIONS OF CIRCULAR CLARIFIERS :  CLARIFIERS IS OFTEN USED IN WATER AND WASTEWATER TREATMENT PLANTS TO REMOVE SOLIDS, CHEMICALS, MICROBES AND OTHER IMPURITIES.  CLARIFIERS IS ALSO USED IN THE PAPER INDUSTRY, THE URANIUM INDUSTRY, AND IN ALUMINA, COAL, COPPER, AND IRON ORE PRODUCTION.  ADVANTAGES :  EFFECTIVE SOLID-LIQUID SEPARATION.  CAN BE USED FOR A VARIETY OF LIQUID- SOLID SEPARATIONS.  DISADVANTAGES :  INEFFICIENT FOR SMALL SCALE OPERATION.  LARGE INITIAL INVESTMENT.  REQUIRES LARGE INSTALLATION AREA.
 CLARIFIERS  PARALLEL PLATE CLARIFIER :  PARALLEL PLATE CLARIFIERS ARE DESIGNED TO CREATE LAMINAR FLOW, ALLOWING GRAVITY TO SEPARATE HEAVIER ELEMENTS FROM THE REST OF THE FLUID, AS SHOWN IN FIGURE.  AS SHOWN IN FIGURE THE SOLID PARTICLES ARE MOVES TOWARD DOWN SIDE, OIL PARTICLE RISING ON THE SURFACE OF OUR LIQUID.
 CLARIFIERS  APPLICATIONS OF PARALLEL PLATE CLARIFIER :  PARALLEL PLATE CLARIFIERS ARE OFTEN USED TO SEPARATE SOLIDS AND LOW DENSITY LIQUIDS, SUCH AS OILS.  THEY CAN BE SUITABLE FOR MANY APPLICATIONS, INCLUDING CHEMICAL PROCESSING, COOLANT SYSTEMS, FOOD PROCESSING, OIL REFINERY, PAPER MAKING, AND INDUSTRIAL WASTE MANAGEMENT.  ADVANTAGES :  LOW SPACE REQUIREMENT.  NO MOVING PARTS IN SETTLING AREA.  NO FILTER MEDIA REQUIRED.  DISADVANTAGES :  Cannot be used operations larger than 2000 GPM.
Sedimentation Process Explained in Detail

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Sedimentation Process Explained in Detail

  • 1. NAME : SAKHARELIYA SHUBHAM A. ENROLLMENT NO. : 180470105047 BRANCH : CHEMICAL ENGINEERING SUBJECT : MECHANICAL OPERATION PRESENTATION REPORT SEDIMENTATION
  • 2. OUTLINE • SEDIMENTATION  WHAT IS SEDIMENTATION?  TYPES OF SEDIMENTATION  TYPES OF SETTLING  BATCH SEDIMENTATION  RATE OF SEDIMENTATION  APPLICATIONS OF SEDIMENTATION  EQUIPMENTS USED FOR BATCH SEDIMENTATION  THICKENERS  CLARIFIERS
  • 3.  WHAT IS SEDIMENTATION ?  SEDIMENTATION, OR CLARIFICATION, IS THE PROCESS OF LETTING SUSPENDED MATERIAL SETTLE BY GRAVITY.  SUSPENDED MATERIAL MAY BE PARTICLES, SUCH AS CLAY OR SALTS, ORIGINALLY PRESENT IN THE SOURCE WATER.  MORE COMMONLY, SUSPENDED MATERIAL IS CREATED FROM MATERIAL IN THE WATER AND THE CHEMICAL USED IN COAGULATION OR IN OTHER TREATMENT PROCESSES, SUCH AS LIME SOFTENING.  SEDIMENTATION IS ACCOMPLISHED BY DECREASING THE VELOCITY OF THE WATER BEING TREATED TO A POINT BELOW WHICH THE PARTICLES WILL NO LONGER REMAIN IN SUSPENSION.  WHEN THE VELOCITY NO LONGER SUPPORTS THE TRANSPORT OF THE PARTICLES, GRAVITY WILL REMOVE THEM FROM THE FLOW.
  • 4.  TYPES OF SEDIMENTATION  PLAIN SEDIMENTATION :  WHEN IMPURITIES ARE SEPERATED FROM SUSPENDING FLUID BY ACTION OF NATURAL FORCE ALONE, WITHOUT AID OF ANY COAGULANT, IS CALLED PLAIN SEDIMENTATION.  SEDIMENTATION WITH COAGULATION :  A CHEMICAL PROCESS THAT INVOLVES A NEUTRALISING CHARGE ON THE PARTICLES.  THIS OCCURS WHEN A COAGULANT IS ADDED TO WATER TO DESTABILISE COLLOIDAL SUSPENSIONS.
  • 5.  TYPES OF SETTLING DESCRETE FLOCCULANT HINDERED COMPRESSION
  • 6.  TYPES OF SETTLING 1. DESCRETE SETTLING :  IN DISCRETE SETTLING INDIVIDUAL PARTICLES SETTLE INDEPENDENTLY.  IT OCCURS WHEN THERE IS A RELATIVELY LOW SOLIDS CONCENTRATION. 2. FLOCCULANT SETTLING :  IN FLOCCULANT SETTLING, INDIVIDUAL PARTICLES STICK TOGETHER INTO CLUMPS CALLED FLOES.  THIS OCCURS WHEN THERE IS A GREATER SOLIDS CONCENTRATION AND CHEMICAL OR BIOLOGICAL REACTIONS ALTER PARTICLE SURFACES TO ENHANCE ATTACHMENT.
  • 7.  TYPES OF SETTLING 3. HINDERED SETTLING :  IN HINDERED SETTLING, PARTICLE CONCENTRATION IS GREAT ENOUGH TO INHIBIT WATER MOVEMENT.  WATER MUST MOVE IN SPACES BETWEEN PARTICLES. 4. COMPRESSION SETTLING :  COMPRESSION SETTLING OCCURS WHEN PARTICLES SETTLE BY COMPRESSING THE MASS BELOW.
  • 9.  BATCH SEDIMENTATION  THERE ARE MANY ZONES IN SEDIMENTATION PROCESS.  FIRST SOLID IS UNIFORMLY DISTRIBUTED IN THE LIQUID. THE TOTAL DEPTH OF THE SUSPENSION IS ZO.  AFTER A SHORT TIME THE SOLIDS HAVE SETTLED TO GIVE A ZONE OF CLEAR LIQUID, ZONE A AND ZONE D OF SETTLED SOLIDS.  ABOVE D IS A TRANSITION LAYER ZONE C, IN WHICH THE SOLIDS CONTENT VARIES FROM THAT IN THE ORIGINAL PULP TO THAT IN ZONE D.  IN ZONE B THE CONCENTRATION IS UNIFORM AND EQUAL TO THE ORIGINAL CONCENTRATION, SINCE THE SETTLING RATE IS THE SAME THROUGHOUT.  THE BOUNDARIES BETWEEN ZONES D AND C AND BETWEEN C AND B MAY NOT BE DISTINCT BUT THE BOUNDARY BETWEEN ZONES A AND B IS USUALLY SHARP. 1 2 3 4 5
  • 10.  BATCH SEDIMENTATION  AS THE SETTLING CONTINUES, THE DEPTHS OF A AND D INCREASE. THE DEPTH OF C REMAINS CONSTANT AND OF B DECREASES.  EVENTUALLY ZONE B DISAPPEARS AND ALL THE SOLIDS ARE IN ZONES C AND D.  THE GRADUAL ACCUMULATION OF SOLIDS PUT STRESS ON THE MATERIAL AT THE BOTTOM, WHICH COMPRESSES SOLIDS IN LAYER D.  COMPRESSION BREAKS DOWNS THE STRUCTURE OF THE FLOCS OR AGGREGATES AND LIQUID IS EXPELLED INTO THE UPPER ZONES.  WHEN THE WEIGHT OF THE SOLID IS BALANCED BY THE COMPRESSIVE STRENGTH OF THE FLOCS, THE SETTLING PROCESS STOPS.  THE ENTIRE PROCESS IS CALLED BATCH SEDIMENTATION. 1 2 3 4 5
  • 11.  RATE OF SEDIMENTATION  DURING EARLY STAGES OF SETTLING THE VELOCITY IS CONSTANT, AS SHOWN BY THE FIRST CURVE. WHEN ZONE B DISAPPEARS, THE RATE OF SETTLING STARTS TO DECREASE AND STEADILY DROPS UNTIL THE ULTIMATE HEIGHT IS REACHED.  THE INITIAL RATE IS A FUNCTION OF THE FEED CONCENTRATION BUT IN LATE STAGES THE SETTLING RATE ALSO DEPENDS UPON THE INITIAL HEIGHT, SINCE COMPRESSION EFFECTS ARE MORE IMPORTANT WITH THICKER SLUDGE LAYERS.  EXPERIMENTAL STUDIES OF THE SETTLING RATE FOR DIFFERENT INITIAL HEIGHTS AND CONCENTRATIONS ARE NEEDED TO DESIGN A THICKENER.
  • 12.  APPLICATION OF SEDIMENTATION  APPLICATIONS IN WATER TREATMENT :  SETTLING OF COAGULATED AND FLOCCULATED WATERS PRIOR TO FILTRATION.  SETTLING OF COAGULATED AND FLOCCULATED WATERS IN A SOFTENING PLANT.  SETTLING OF TREATED WATERS IN AN IRON AND MANGANESE REMOVAL PLANT.  APPLICATIONS IN WASTE WATER TREATMENT :  IN THE PROCESS OF GRIT REMOVAL.  SUSPENDED SOLIDS REMOVAL IN PRIMARY CLARIFIER.  BIOLOGICAL FLOC REMOVAL IN ACTIVATED SLUDGE.
  • 13.  EQUIPMENTS USED FOR BATCH SEDIMENTATION  THERE ARE TWO TYPES OF EQUIPMENTS WHICH ARE USED FOR SEDIMENTATION :  thickenerS  CLARIFIERS  THICKENERS AND CLARIFIERS ARE BOTH USED TO SEPARATE LIQUIDS AND SOLIDS BY SETTLING.  THICKENERS ARE USED TO CONCENTRATE SOLIDS, WHILE CLARIFIERS ARE USED TO PURIFY LIQUIDS.
  • 14.  THICKENERS  IN THE TYPE OF THICKENER EQUIPMENT WE USE GRAVITY thickener.  THICKENING IS THE PROCESS BY WHICH BIO SOLIDS ARE CONDENSED TO PRODUCE A CONCENTRATED SOLID PRODUCTS.  THICKENING WASTEWATER SOLID REDUCES THE VOLUME OF RESIDUALS, IMPROVES OPERATION, AND REDUCES COST FOR SUBSEQUENT STORAGE, PROCESSING, TRANSFER, END USE, OR DISPOSAL.  GRAVITY THICKENING USES THE NATURAL TENDENCY OF HIGHER-DENSITY SOLIDS TO SETTLE OUT OF LIQUID TO CONCENTRATE THE SOLIDS.  GRAVITY THICKENERS CONSIST OF A CIRCULAR TANK (USUALLY WITH A CONICAL BOTTOM) THAT IS FITTED WITH COLLECTORS OR SCRAPERS AT THE BOTTOM.  PRIMARY AND/OR SECONDARY SOLIDS ARE FED INTO THE TANK THROUGH A CENTER WELL, WHICH RELEASES THE SOLIDS AT A LOW VELOCITY NEAR THE SURFACE OF THE TANK.
  • 15.  THICKENERS  THE SOLIDS SETTLE TO THE BOTTOM OF THE TANK BY GRAVITY, AND THE SCRAPERS SLOWLY MOVE THE SETTLED, THICKENED SOLIDS TO A DISCHARGE PIPE AT THE BOTTOM OF THE TANK.  A V-NOTCH WEIR LOCATED AT THE TOP OF THE TANK ALLOWS THE SUPERNATANT TO RETURN TO A CLARIFIER.  GRAVITY SETTLING OCCURS WHEN SOLID PARTICLES TRAVEL DOWNWARD DUE TO THEIR WEIGHT.  SETTLEMENT CONTINUES AS SOLIDS BEGIN TO CONCENTRATE NEAR THE BOTTOM OF THE TANK, BUT THE SETTLEMENT RATE DECREASES AS THE SOLIDS CONCENTRATIONS INCREASE.
  • 17.  THICKENERS  SOLIDS AT THE BOTTOM OF THE TANK CAN REACH AS HIGH AS 15 PERCENT TOTAL SOLIDS(TS). A MORE TYPICAL RESULT IS 4 TO 6 PERCENT.  LIQUID AT THE SURFACE OF THE TANK IS NEARLY CLEAR, WITH SUSPENDED SOLIDS CONCENTRATIONS AS LOW AS 200 MG/L.
  • 18.  CLARIFIERS  THERE ARE TWO TYPES OF CLARIFIERS : 1. CIRCULAR CLARIFIERS  2. PARALLEL PLATE CLARIFIER C I R C U L A R C L A R I F I E R S P A R A L L E L P L A T E C L A R I F I E R
  • 19.  CLARIFIERS  CIRCULAR CLARIFIERS :  THICKENERS AND CLARIFIERS USE SLOWLY ROTATING RAKE ARMS TO SEPARATE SOLID PARTICULATE.  A LIQUID FEED WITH SUSPENDED SOLIDS IS FED INTO A TANK WITH A DIAMETER OF 5 TO 500 FEET. AS THE PARTICLES SETTLE, ANGLED RAKE ARMS MOVE THE CONCENTRATED SLURRY TOWARD THE CENTER OF THE TANK, WHERE IT IS REMOVED.  CLEAR LIQUID OVERFLOWS AT THE TOP OF THE TANK AND COLLECTED.  IN THE THICKENER SHOWN BELOW, CABLES CONTROLS THE HEIGHT OF THE RAKE ARMS.  WHEN HEAVY SLUDGE BUILDS UP AT THE BOTTOM, THE RAKES ARE RAISED SLIGHTLY.  ONCE THE BLOCKAGE HAS BEEN DISPERSED, THE RAKE ARMS ARE LOWERED BACK TO NORMAL POSITION.  ADJUSTABLE RAKE ARMS INCREASE OPERATING EFFICIENCY BY REDUCING MAINTENANCE DOWNTIME.
  • 20.  CLARIFIERS  APPLICATIONS OF CIRCULAR CLARIFIERS :  CLARIFIERS IS OFTEN USED IN WATER AND WASTEWATER TREATMENT PLANTS TO REMOVE SOLIDS, CHEMICALS, MICROBES AND OTHER IMPURITIES.  CLARIFIERS IS ALSO USED IN THE PAPER INDUSTRY, THE URANIUM INDUSTRY, AND IN ALUMINA, COAL, COPPER, AND IRON ORE PRODUCTION.  ADVANTAGES :  EFFECTIVE SOLID-LIQUID SEPARATION.  CAN BE USED FOR A VARIETY OF LIQUID- SOLID SEPARATIONS.  DISADVANTAGES :  INEFFICIENT FOR SMALL SCALE OPERATION.  LARGE INITIAL INVESTMENT.  REQUIRES LARGE INSTALLATION AREA.
  • 21.  CLARIFIERS  PARALLEL PLATE CLARIFIER :  PARALLEL PLATE CLARIFIERS ARE DESIGNED TO CREATE LAMINAR FLOW, ALLOWING GRAVITY TO SEPARATE HEAVIER ELEMENTS FROM THE REST OF THE FLUID, AS SHOWN IN FIGURE.  AS SHOWN IN FIGURE THE SOLID PARTICLES ARE MOVES TOWARD DOWN SIDE, OIL PARTICLE RISING ON THE SURFACE OF OUR LIQUID.
  • 22.  CLARIFIERS  APPLICATIONS OF PARALLEL PLATE CLARIFIER :  PARALLEL PLATE CLARIFIERS ARE OFTEN USED TO SEPARATE SOLIDS AND LOW DENSITY LIQUIDS, SUCH AS OILS.  THEY CAN BE SUITABLE FOR MANY APPLICATIONS, INCLUDING CHEMICAL PROCESSING, COOLANT SYSTEMS, FOOD PROCESSING, OIL REFINERY, PAPER MAKING, AND INDUSTRIAL WASTE MANAGEMENT.  ADVANTAGES :  LOW SPACE REQUIREMENT.  NO MOVING PARTS IN SETTLING AREA.  NO FILTER MEDIA REQUIRED.  DISADVANTAGES :  Cannot be used operations larger than 2000 GPM.