ZM8137A Flocculation Test Unit Educational Equipment Fluid Mechanics Experiment Equipment
Description It demonstrates the removal of dissolved substances by precipitation and flocculation with subsequent sedimentation.First, raw water is produced in a tank to contain dissolved metal (e.g. iron). A pump transports the raw water to the precipitation tank. Here the precipitant is added (e.g. caustic soda). Due to the reaction of the dissolved metal ions with the precipitant, insoluble metal hydroxides form (solids). From here the water flows into a flocculation tank divided into three chambers.
The purpose of flocculation is to improve the sedimentation properties of the solids. By adding a coagulant in the first chamber the repulsive forces between the solid particles are cancelled out. The solid particles aggregate into flocs (coagulation). To generate larger flocs, a flocculant is then added (flocculation). In the third chamber low flow velocities are present to prevent any turbulence. Turbulence would impede the formation of flocs. The now well sedimentable flocs are then separated from the treated water in a lamella separator. The treated water and the sedimented flocs (sludge) are collected in two tanks.
Flow rate, temperature and the pH value are measured. In addition, the pH value in the precipitation tank can be controlled. For measuring the conductivity an external meter is available. Samples can be taken at all relevant points. The cover of the tank is transparent for the inspection of the treated water.Analysis technology is required to analyse the experiments. The choice of analysis technology depends on the substances used. Trivalent metallic salts are usually well suited as coagulants. Common flocculants are organic polymers.
Specification
precipitation and flocculation of dissolved substances (e.g. iron)
separate supply unit with tank and pump for raw water
tank cover for raw water and treated water made of transparent material
precipitation tank with stirring machine
flocculation tank with 3 chambers and 4 stirring machines
3 metering pumps for chemicals
sedimentation of the flocs in the lamella separator
measurement of flow rate, temperature and pH value
control of the pH value in the precipitation tank
conductivity meter
Technical data Tanks raw water and treated water: each 300L precipitation tank: 10L flocculation tank: 45L sludge tank: 15L Lamella separator number of lamellas: 6 angle of inclination of lamellas: 60° Raw water pump max. flow rate: 180L/h max. head: 10m Metering pumps max. flow rate: each 2,1L/h max. head: each 160m Stirring machines max speed: each 600min-1