Your search keyword '"Dikshit, A.K."' showing total 5 results

1. Removal mechanism of endosulfan sorption onto wood charcoal

Author

Yedla, Sudhakar and Dikshit, A.K.

Subjects

Adsorption -- Usage, Charcoal -- Usage, Pesticides -- Contamination, Pesticides -- Control, Environmental services industry

Abstract

Byline: Sudhakar Yedla, A.K. Dikshit Endosulfan is among the most widely used pesticides in developing countries and other parts of the world and has been found to contaminate various parts of the environment, including drinking water sources. In an earlier study to find a suitable adsorbent to remove endosulfan, wood charcoal was found to give promising results. In the present study, the process controlling the rate of endosulfan sorption onto wood charcoal and the mechanism of removal were examined using various methodologies. Both film and pore diffusion coefficients were determined, and the linearity of the rate constants of adsorption with initial endosulfan concentrations revealed the process to be controlled by film diffusion. This was supported by the linear fit of the rate constants with the inverse of the diameter of adsorbent particles and the change in adsorption rates with agitation speed. Multiple interruption tests also revealed that endosulfan sorption onto wood charcoal is controlled by film diffusion. The increase in reaction rate constant with temperature and isosteric heat of adsorption in the range of -2.655 to 5.185 kcal/mol implied that the endosulfan removal process was endothermic in nature. The activation energy of 2.33 kcal/mol, which was less than 12 kcal/mol, revealed that the removal mechanism could be attributed to physisorption with a major contribution of van der Waals and electrostatic forces.

Published

2004

2. Removal of endosulfan using aerobic mixed bacterial culture

Author

Yedla, Sudhakar and Dikshit, A.K.

Subjects

Pesticides -- Environmental aspects, Pesticides -- Contamination, Acclimatization -- Influence, Environmental services industry

Abstract

Byline: Sudhakar Yedla, A.K. Dikshit With the increasing use of pesticides in modern agriculture, increased evidence of their disastrous effects on the environment has been noticed. Pesticides applied in various modes and places contaminate various parts of the environment, including groundwater sources. As pesticide problems are greater in the rural areas, the authors have developed a successful low-cost technology for rural areas with wood charcoal treated with nitric acid. As pesticides are classified as hazardous waste, the sludge resulting from their treatment has to be disposed off safely. This paper describes the removal of pesticides at a higher concentration of 24 mg/l, using a mixed culture of aerobic bacteria, and also a study of the inhibiting action of endosulfan on bacterial cells. It was found that bacteria without acclimatisation could remove 89.7% of endosulfan, and with prior acclimatisation the efficiency was 96%. It was found that removal in the initial phase is because of the hydrophobic nature of endosulfan and its affinity to sediments. The adsorbed endosulfan subsequently undergoes biotransformation, which has been confirmed by monitoring endosulfan concentrations in the bacterial sludge. Transformation was found to be significant in the acclimatised culture system. The fluctuation in bacterial performance was greater at lower concentrations of endosulfan, and overall inhibition was greater at higher concentrations.

Published

2004

3. Hybrid reactor system for wastewater treatment ' application and approach of modelling

Author

Mazumder, Debabrata and Dikshit, A.K.

Subjects

Sewage -- Purification, Sewage -- Methods, Environmental services industry

Abstract

Byline: Debabrata Mazumder, A.K. Dikshit Wastewater treatment by the hybrid reactor system has become wide-spread as it provides advantages of both the suspended and attached growth phase at the same time. It may be used to treat some rate-limiting substrate, priority pollutants, volatile organic compounds etc. as well as for nitrification. This versatile nature of hybrid reactor demands for a detailed investigation on the mechanism, mode of operation, different applications and major configurations available. The present article is devoted to explore these issues with respect to previous background and successive development in this area. Apart from the laboratory and pilot-scale study, some industrial applications have been overviewed to understand the performance of hybrid reactor in the concerned field. The approach of modelling for the hybrid reactor system is also demonstrated with the hypothetical data set. A comprehensive details about major hybrid processes is presented along with their schematic diagrams. The review on hybrid process revealed that it would be economic for upgradation of existing activated sludge system, ensuring carbonaceous oxidation and nitrification in a single reactor and treatment of slowly bio-degradable substances also.

Published

2004

4. Studies of air quality predictors based on neural networks

Author

Sharma, Sameer, Barai, S.V., and Dikshit, A.K.

Subjects

Air quality -- Management, Neural networks -- Usage, Software -- Usage, Neural network, Software quality, Company business management, Environmental services industry

Abstract

Byline: Sameer Sharma, S.V. Barai, A.K. Dikshit In recent years, urban air pollution has emerged as an acute problem because of its negative effect on health and living conditions. Regional air quality problems, in general, are linked to violations of specified air quality standards. The current study aims to find neural network based air quality predictors, which can work with a limited number of datasets and are robust enough to handle data with noise and errors. A number of available variations of neural network models, such as the Recurrent Network Model (RNM), the Change Point Detection Model with RNM (CPDM), the Sequential Network Construction Model (SNCM), the Self Organising Feature Model (SOFM), and the Moving Window Model (MWM), were implemented using MATLAB software for predicting air quality. Developed models were run to simulate and forecast based on the annual average data for 15 years from 1985 to 1999 for seven parameters, viz. VOC, NOx, CO, SO2, PM10, PM2.5 and NH3 for one county of California, USA. The models were fitted with first nine years of data to predict data for remaining six years. The models, in general, could predict air quality patterns with modest accuracy. However, the SOFM model performed extremely well in comparison with the other models for predicting long-term (annual) data.

Published

2004

5. Applications of the deep-shaft activated sludge process in wastewater treatment

Author

Mazumder, Debabrata and Dikshit, A.K.

Subjects

Biodegradation -- Research, Sewage -- Purification, Sewage -- Methods, Environmental services industry

Abstract

Byline: Debabrata Mazumder, A.K. Dikshit The deep-shaft activated sludge process is a unique modification of the activated sludge system. The main objective of this system is to increase the amount of dissolved oxygen available for biological activity. This can be achieved by increasing the rate of oxygen transfer from the gas phase to the liquid phase. The deep-shaft configuration increases the partial pressure of oxygen, thereby causing a high saturation concentration in the reactor. In the deep-shaft process, owing to high oxygen availability, a higher organic loading can be accommodated with a comparatively low air supply. This reduces the energy and area requirements and lowers the overall cost of treatment. This technology has been successfully applied for the high-rate treatment of strongly polluted wastewater, as well as for the treatment of wastewater containing toxic or slowly biodegradable pollutants. This paper presents different applications of the deep-shaft activated sludge process, along with their relative performances.

Published

2003