2021/6/1/ · A pilot-scale anaerobic membrane bioreactor (AnMBR) was designed and optimized for the treatment of real distillery wastewater. A low hydraulic retention time of 3.5 days was reached after only 3 weeks. The AnMBR could treat up to 3.97 g COD /L/day with high biogas production at 1.36 NL biogas /L bioreactor /day. The performances of an
2013/12/1/ · Membrane bioreactor technology utilizing pseudomonas fluorescens was used for effective treatment of distillery waste by Manyuchi and Ketiwa [19]. During the investigation 99.2 percentage of
2006/6/1/ · A calefactive aerobic membrane bioreactor (MBR) equipped with a stainless steel membrane, 0.2 μm pore size, was used to treat simulated distillery wastewater of about 1000 mg·L−1 COD at 30
This work presents preliminary results for distillery wastewater treatment in a MBR equipped with filters prepared from waste fly ash. The system was fabricated locally and employed submerged membranes in the 2-8 microm pore-size range. Distillery wastewater, after anaerobic digestion, was used as the feed and the bioreactor was inoculated with
2021/6/1/ · A pilot-scale anaerobic membrane bioreactor (AnMBR) was designed and optimized for the treatment of real distillery wastewater. A low hydraulic retention time of 3.5 days was reached after only 3 weeks.
heavy metals from as urban wastewater (Tercero et al., 2014), domestic wastewater (Aziz and Ng, 1992), textile wastewater (Chu et al., 2009), and piggery wastewater (Ji et al., 2012). However, little is known about cultivation of Chlorella in membrane-treated distillery wastewater (MTDW) for nutrient recovery and biomass production, and its
2013/10/15/ · The photocatalytic reactor was packed with the TiO 2 /zeolite (TZ) composite catalyst, 15 W UV-C was used as source of irradiation. The TZ composite catalyst used was prepared by solid dispersion method [19] with a TiO 2 composition of 15%. The bioreactor was packed with zeolite of 2 mm particle size.Peristaltic pumps were used to
2009/10/15/ · This work investigated the effect of powdered activated carbon (PAC) addition on the operation of a membrane bioreactor (MBR) treating sugarcane molasses based distillery wastewater (spentwash). The 8 L reactor was equipped with a submerged 30 μm nylon mesh filter with 0.05 m 2 filtration area. Detailed characterization of the
2015/8/1/ · This work investigates two schemes incorporating MF for molasses distillery wastewater (a) chemical coagulation followed by treatment in a membrane bioreactor (MBR) using MF and (b) electrocoagulation followed by MF. The performance was assessed in terms of COD and color reduction; the conversion of the generated sludge into a zeolite desiccant
MBR-Membrane Bio-Reactor. ₹ 7,50,000 Get Latest Price. This technology is a combination of membrane process like microfiltration, nanofiltration, ultrafiltration with biological waste water treatment process i.e. ASP (ACTIVATED SLUDGE PROCESS). It is one of the most important innovation in waste water treatment as it overcome the drawbacks of
1994/6/15/ · The aim of this work was to carry out a kinetic study on the anaerobic diges- tion of wine distillery wastewater (WDW) in a bioreactor containing micro- organisms immobilized on sepiolite, and to determine the product yield coef- ficient, Yp, which is a measure of the extent of transformation of the biodegradable substrate into methane.
2021/6/1/ · A pilot-scale anaerobic membrane bioreactor (AnMBR) was designed and optimized for the treatment of real distillery wastewater. A low hydraulic retention time of 3.5 days was reached after only 3
Distillery wastewater is usually composed of a high volume of acidic matter which presents many disposal and treatment problems. Waste streams of distillery wastewater generally contain high levels of both dissolved organic and inorganic materials. There has been increasing interest in the use of ethanol from biomass as a liquid fuel alternative.
2023/12/1/ · Anaerobic digestion of distillery waste is analyzed in relation to selected process factors. • Response optimization models predict optimal conditions for maximum biogas production. • Biogas production and methane yield are primarily influenced by retention time. • Methane composition experimentally and predicted differed by 1.57 %.