This paper focuses on the effects of biodiscs rotation in terms of biomass detachment in a prototype of a new Rotating Bed Biofilm Reactor (RBBR). The prototype was implemented as pretreatment before chemical scrubbers in the actual gas treatment train of a tannery wastewater treatment plant (WWTP). The RBBR treats an average of 8000 m3 h-1 of gaseous effluent (20% of the total gaseous flow rate treated in the plant) with variable hydrogen sulphide concentrations (10-400 mg S m-3) in the influent. The prototype was able to remove up to 20 Kg d-1 of H2S, and about 80% of the total load, allowing to save a corresponding dosing of chemicals (NaOH) of about 600 Kg d-1. A characterization of the biomass in the biodiscs was performed through bio-molecular analysis. Among the different operating conditions tested, the biodiscs rotation frequency was demonstrated to be a fundamental parameter for biofilm thickness, pH in the solution and solids retention time control and, thus, to optimise hydrogen sulphide removal as well as mitigation of pressure head loss increase.
The effects of biodiscs rotation in a new Rotating Bed Biofilm Reactor for the removal of Hydrogen Sulphide / Spennati, Francesco; Rossi, Simone; Giordano, Cesira; Vannini, Claudia; Bacchi, Daniele; Mori, Gualtiero; Munz, Giulio.. - ELETTRONICO. - (2016), pp. 1-4.
The effects of biodiscs rotation in a new Rotating Bed Biofilm Reactor for the removal of Hydrogen Sulphide
SPENNATI, FRANCESCO;MUNZ, GIULIO
2016
Abstract
This paper focuses on the effects of biodiscs rotation in terms of biomass detachment in a prototype of a new Rotating Bed Biofilm Reactor (RBBR). The prototype was implemented as pretreatment before chemical scrubbers in the actual gas treatment train of a tannery wastewater treatment plant (WWTP). The RBBR treats an average of 8000 m3 h-1 of gaseous effluent (20% of the total gaseous flow rate treated in the plant) with variable hydrogen sulphide concentrations (10-400 mg S m-3) in the influent. The prototype was able to remove up to 20 Kg d-1 of H2S, and about 80% of the total load, allowing to save a corresponding dosing of chemicals (NaOH) of about 600 Kg d-1. A characterization of the biomass in the biodiscs was performed through bio-molecular analysis. Among the different operating conditions tested, the biodiscs rotation frequency was demonstrated to be a fundamental parameter for biofilm thickness, pH in the solution and solids retention time control and, thus, to optimise hydrogen sulphide removal as well as mitigation of pressure head loss increase.I documenti in FLORE sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.