Your search keyword '"Sandeep N. Mudliar"' showing total 2 results

1. Treatment of mixtures of toluene andn-propanol vapours in a compost–woodchip-based biofilter

Author

Sharvari Deshmukh, Atul Narayanrao Vaidya, R.A. Pandey, Sandeep N. Mudliar, Rashmi M. Dixit, Abhijit Gadhe, Marc A. Deshusses, G. S. Kannade, and Satish K. Lokhande

Subjects

Environmental pollution, 1-Propanol, engineering.material, Dynamic modelling, chemistry.chemical_compound, Waste Management, Air Pollution, medicine, Environmental Chemistry, Computer Simulation, Volatile organic compound, Waste Management and Disposal, Water Science and Technology, N-Propanol, chemistry.chemical_classification, Air Pollutants, Volatile Organic Compounds, Chromatography, Compost, General Medicine, medicine.disease, Toluene, Models, Chemical, chemistry, Biofilter, engineering, Filtration, Vapours, Nuclear chemistry

Abstract

The present work describes the biofiltration of mixture of n-propanol (as a model hydrophilic volatile organic compound (VOC)) and toluene (as a model hydrophobic VOC) in a biofilter packed with a compost-woodchip mixture. Initially, the biofilter was fed with toluene vapours at loadings up to 175 g m(-3) h(-1) and removal efficiencies of 70%-99% were observed. The biofilter performance when removing mixtures of toluene and n-propanol reached elimination capacities of up to 67g(toluene) m(-3) h(-1) and 85 g(n-propanol) m(-3) h(-1) with removal efficiencies of 70%-100% for toluene and essentially 100% for n-propanol. The presence of high n-propanol loading negatively affected the toluene removal; however, n-propanol removal was not affected by the presence of toluene and was effectively removed in the biofilter despite high toluene loadings. A model for toluene and n-propanol biofiltration could predict the cross-inhibition effect of n-propanol on toluene removal.

Published

2012

2. Activated Sludge is a Potential Source for Production of Biodegradable Plastics from Wastewater

Author

Anshuman A. Khardenavis, M. S. Kumar, P. K. Guha, Sandeep N. Mudliar, and Tapan Chakrabarti

Subjects

chemistry.chemical_classification, Conservation of Natural Resources, Cost Control, Sewage, Waste management, chemistry.chemical_element, Environmental pollution, General Medicine, Polymer, Waste Disposal, Fluid, Nitrogen, Environmentally friendly, Biodegradation, Environmental, Activated sludge, chemistry, Wastewater, Materials Testing, Environmental Chemistry, Sewage treatment, Plastics, Waste Management and Disposal, Carbon, Water Science and Technology

Abstract

Increased utilization of synthetic plastics caused severe environmental pollution due to their non-biodegradable nature. In the search for environmentally friendly materials to substitute for conventional plastics, different biodegradable plastics have been developed by microbial fermentations. However, limitations of these materials still exist due to high cost. This study aims at minimization of cost for the production of biodegradable plastics P(3HB) and minimization of environmental pollution. The waste biological sludge generated at wastewater treatment plants is used for the production of P(3HB) and wastewater is used as carbon source. Activated sludge was induced by controlling the carbon: nitrogen ratio to accumulate storage polymer. Initially polymer accumulation was studied by using different carbon and nitrogen sources. Maximum accumulation of polymer was observed with carbon source acetic acid and diammonium hydrogen phosphate (DAHP) as nitrogen source. Further studies were carried out to optimize the carbon: nitrogen ratios using acetic acid and DAHP. A maximum of 65.84% (w/w) P(3HB) production was obtained at C/N ratio of 50 within 96 hours of incubation.

Published

2005