A. Chandra scite author profile

Leachate and groundwater samples were collected from Gazipur landfill-site and its adjacent area to study the possible impact of leachate percolation on groundwater quality. Concentration of various physico-chemical parameters including heavy metal (Cd, Cr, Cu, Fe, Ni, Pb and Zn) and microbiological parameters (total coliform (TC) and faecal coliform (FC)) were determined in groundwater and leachate samples. The moderately high concentrations of Cl-, NO3(-), SO4(2-), NH4(+), Phenol, Fe, Zn and COD in groundwater, likely indicate that groundwater quality is being significantly affected by leachate percolation. Further they proved to be as tracers for groundwater contamination. The effect of depth and distance of the well from the pollution source was also investigated. The presence of TC and FC in groundwater warns for the groundwater quality and thus renders the associated aquifer unreliable for domestic water supply and other uses. Although some remedial measures are suggested to reduce further groundwater contamination via leachate percolation, the present study demand for the proper management of waste in Delhi.

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Municipal solid waste characterization and its assessment for potential methane generation: A case study

Mor

Ravindra

Visscher

et al. 2006

Science of The Total Environment

235

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There has been a significant increase in municipal solid waste (MSW) generation in India during the last few decades and its management has become a major issue because the poor waste management practices affect the health and amenity of the cities. In the present study, various physico-chemical parameters of the MSW were analyzed to characterize the waste dumped at Gazipur landfill site in Delhi, India, which shows that it contains a high fraction of degradable organic components. The decomposition of organic components produces methane, a significant contributor to global warming. Based on the waste composition, waste age and the total amount dumped, a first-order decay model (FOD) was applied to estimate the methane generation potential of the Gazipur landfill site, which yields an estimate of 15.3 Gg/year. This value accounts to about 1-3% of existing Indian landfill methane emission estimates. Based on the investigation of Gazipur landfill, we estimate Indian landfill methane emissions at 1.25 Tg/year or 1.68 Tg/year of methane generation potential. These values are within the range of existing estimates. A comparison of FOD with a recently proposed triangular model was also performed and it shows that both models can be used for the estimation of methane generation. However, the decrease of the emission after closure is more gradual in the case of the first-order model, leading to larger gas production predictions after more than 10 years of closure. The regional and global implications of national landfill methane emission are also discussed.

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Induction of enhanced methane oxidation in compost: Temperature and moisture response

et al. 2006

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Landfilling is one of the most common ways of municipal solid waste disposal. Degradation of organic waste produces CH(4) and other landfill gases that significantly contribute to global warming. However, before entering the atmosphere, part of the produced CH(4) can be oxidised while passing through the landfill cover. In the present study, the oxidation rate of CH(4) was studied with various types of compost as possible landfill cover. The influence of incubation time, moisture content and temperature on the CH(4) oxidation capacity of different types of compost was examined. It was observed that the influence of moisture content and temperature on methane oxidation is time-dependent. Maximum oxidation rates were observed at moisture contents ranging from 45% to 110% (dry weight basis), while the optimum temperature ranged from 15 to 30 degrees C.

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Application of Enzyme-Induced Carbonate Precipitation (EICP) to Improve the Shear Strength of Different Type of Soils

Chandra

Ravi

2020

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Influence of Biochar Particle Size Fractions on Thermal and Mechanical Properties of Biochar-Amended Soil

Patwa

Chandra

Ravi

et al. 2021

J. Mater. Civ. Eng.

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Performance evaluation of biogas burners

Chandra

Tiwari

Srivastava

et al. 1991

Energy Conversion and Management

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Performance characteristic of a greenhouse integrated biogas system

Usmani

Tiwari

Chandra

1996

Energy Conversion and Management

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Determination of period for biogas production

Tiwari

Usmani

Chandra

1996

Energy Conversion and Management

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12 3

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A. Chandra

Leachate Characterization and Assessment of Groundwater Pollution Near Municipal Solid Waste Landfill Site

Municipal solid waste characterization and its assessment for potential methane generation: A case study

Induction of enhanced methane oxidation in compost: Temperature and moisture response

Application of Enzyme-Induced Carbonate Precipitation (EICP) to Improve the Shear Strength of Different Type of Soils

Influence of Biochar Particle Size Fractions on Thermal and Mechanical Properties of Biochar-Amended Soil

Performance evaluation of biogas burners

Performance characteristic of a greenhouse integrated biogas system

Determination of period for biogas production

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