Attached-Culture Systems Trickling Filter Rotating Biological Contactors Bio-Towers 11/18/2018

Trickling Filter Biofilm or bacterial film or biomass is grown or developed on solid medium. Such as rocks, stone trieces, synthetic medium etc. This media is randomly pocked in reactor. Wastewater is applied on the top through a rotating arm and it trickles down of the bottom. In its travel to the bottom of TF, wastewater is brought into the centure of biofilm attached to the medium. The process may be depicted as shown below. 11/18/2018

Oxidized organics are transferred to moving after layers by diffusion. How does it work? O2 and Nutrients (BOD etc ) are transferred to the fixed film by diffusion Oxidized organics are transferred to moving after layers by diffusion. 11/18/2018

Continue…..How does it work? Bacteria metabiological contents of the fixed film. Biofilm grows or get thickened. As it’s thickness increases, inner layer become anaerobic.   11/18/2018

Continue…..How does it work? Outer biolayer remains aerobic. With more thickining of biological layer , cells in inner layer die and lyses It causes break in the content between film and medias. 11/18/2018

Continue…..How does it work? Thus, slim layer gets slough off and is being carried away by the wastewater. In SST, biofilm material (----- half) is separated. 11/18/2018

Each area ------- the does at least at 5 min ntervals. Parameter Low Rate Filter (LRF) Intermediate Rate Filter (IRF) High rate Filter (HRF) H--- Hydraulic loading m3/m2 -d 1 – 4 4 – 10 10 – 40 Uol. loading kg/m3 – d 0.08 – 0.32 0.28 – 0.48 0.32 – 1.0 Depth, m 1.5 –3.0 1.25 – 2.5 1.0 – 2.0 Recirculation Ratio 0 – 1 1 – 3 Power Requirements kw/103 m3 2 – 4 2 – 8 6 – 10 Each area ------- the does at least at 5 min ntervals. 11/18/2018

Design of Trickling filters: Generally Empirical Formula: NRC Formula S0 Incoming BOD Se Effluent BOD Q Flow in m3 / min Volume of filter in m3 r Recirculation ratio F Recirculation Factor, 11/18/2018

For the second stage 1. Volume of media 2. No. of stages 3.      Recirculation Ratio 11/18/2018

Eckenfelder Formula: Account for media characteristics, PFR, First order kinetics (i) No Ricirculation: K = Treatability constant, min-1(0.01 – 0.1 ) D = Depth, in m Domestic –0.06 at 200c N = Coefficient, characteristic of medium (0.35 – 0.80) rock = 0.408 asbestos = 0.75 Q = m3 / m2 – min KT = K20 (1.035) T – 20 11/18/2018

(ii) With Recirculation: 11/18/2018

Additional notes on Trickling Filter:   Sludge in Trickling Filter: Sludge in TF = 100 day (long c endogeous decay, low X, more stablised Sludge) Actual Biomass is difficult to analyse Overall yield coefficient is 60 – 80% of AST Process High rate TF produce more Sludge 11/18/2018

Air Supply in TF: Natural draft : Temperature difference in air & wastewater IIf wastewater temp. < Ambient temp. : downward flow of air , If Wastewater Temp. > Ambient Temp. : Upward Flow of Air. Under drains & collecting systems should be designed to flow no more than half to allow force air passing 1 m2 for every 250 m2 of filter area 11/18/2018

Hydraulics of Trickling Filter:   Ø      Rotating arm: ½ - 2 rpm Ø      Peripheral Speed: 0.5 – 3.7 m/min (two arm system) Ø      Arm length : 4.5 – 70m Ø      Ports : 95mm in dia. Ø      15cm above media. Ø      Flow velocity in arms > 0.3 – 0.6 m/s to prevent deposition of particulates Ø      Size of parts is generally same. 11/18/2018

Spacing : Step discharge -----graph--------     Ø      Area serviced increases square of the distance from the center of the filter. For even distribution of flow over filter: Flow rate in area ------image------- Ql (flow in pipe at l ) = 11/18/2018

1. Draw Q versus l, get spacing 2.      Determine q for each part & h near--- spacing. 11/18/2018

Application of Trickling Filter Onsite Treatment House Hold 11/18/2018