On the Geoelectrical Characterization of an Old Landfill Cover

Landfills are one of the major sources of methane (CH4) emission which is a very potent greenhouse gas. The use of a natural process for microbial CH4 oxidation through biocovers provides a source reduction of CH4 emission. Previous studies have mostly focused on biochemical properties, and limited research has been conducted with regards to the geotechnical characterization of biochar based biocovers. This paper presents the results of a comprehensive laboratory investigation on laterite, Igbokoda sand and their mixtures with biochar at 2%, 4%, 8%, 10% and 20% to determine the compaction properties of biochar based biocovers. From the result, it was shown that the laterite has medium plasticity while the Igbokoda sand is non-plastic. Also, Addition of biochar to landfill cover soil increased the particle sizes, and consequently the porosity of the soil is increased which can promote the air flow through the landfill cover. Thus, greater O2 diffusion within the landfill cover will result, leading to higher microbial oxidation/degradation of CH4. Maximum dry unit weight decreased and the optimum water content partly increased as the biochar content increased with the two samples. Compaction test results show that when biochar content varied from 0 to 20% for the laterite, the maximum dry unit weight decreased from 1660kg/m3 to 1330kg/m3 and decreased from 1590kg/m3 to 1390kg/m3 for Igbokoda Sand. Thus, the results presented in this paper will contribute to a better understanding of the geotechnical behaviour of biochar based biocover.

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Characterization of adsorption removal of hydrogen sulfide by waste biocover soil, an alternative landfill cover

Journal of Hazardous Materials ◽

10.1016/j.jhazmat.2010.11.062 ◽

2011 ◽

Vol 186 (1) ◽

pp. 773-778 ◽

Cited By ~ 30

Author(s):

Ruo He ◽

Fang-Fang Xia ◽

Jing Wang ◽

Chang-Liang Pan ◽

Cheng-Ran Fang

Keyword(s):

Hydrogen Sulfide ◽

Landfill Cover ◽

Adsorption Removal

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Geotechnical characterization of peat-based landfill cover materials

Journal of Rock Mechanics and Geotechnical Engineering ◽

10.1016/j.jrmge.2016.05.007 ◽

2016 ◽

Vol 8 (5) ◽

pp. 596-604 ◽

Cited By ~ 5

Author(s):

Afshin Khoshand ◽

Mamadou Fall

Keyword(s):

Landfill Cover ◽

Geotechnical Characterization

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Effect of nutrient and selective inhibitor amendments on methane oxidation, nitrous oxide production, and key gene presence and expression in landfill cover soils: characterization of the role of methanotrophs, nitrifiers, and denitrifiers

Applied Microbiology and Biotechnology ◽

10.1007/s00253-009-2238-7 ◽

2009 ◽

Vol 85 (2) ◽

pp. 389-403 ◽

Cited By ~ 39

Author(s):

Sung-Woo Lee ◽

Jeongdae Im ◽

Alan A. DiSpirito ◽

Levente Bodrossy ◽

Michael J. Barcelona ◽

...

Keyword(s):

Nitrous Oxide ◽

Methane Oxidation ◽

Selective Inhibitor ◽

Landfill Cover ◽

Oxide Production ◽

Nitrous Oxide Production

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Morphological Characterization of Mycobacteriophage R1

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100051281 ◽

1974 ◽

Vol 32 ◽

pp. 254-255

Author(s):

B. L. Soloff ◽

T. A. Rado

Keyword(s):

Carbon Source ◽

Stationary Phase ◽

Growth Phase ◽

Minimal Medium ◽

Morphological Characterization ◽

Logarithmic Growth Phase ◽

Complete Lysis ◽

Lysogenic Culture ◽

Logarithmic Growth

Mycobacteriophage R1 was originally isolated from a lysogenic culture of M. butyricum. The virus was propagated on a leucine-requiring derivative of M. smegmatis, 607 leu−, isolated by nitrosoguanidine mutagenesis of typestrain ATCC 607. Growth was accomplished in a minimal medium containing glycerol and glucose as carbon source and enriched by the addition of 80 μg/ ml L-leucine. Bacteria in early logarithmic growth phase were infected with virus at a multiplicity of 5, and incubated with aeration for 8 hours. The partially lysed suspension was diluted 1:10 in growth medium and incubated for a further 8 hours. This permitted stationary phase cells to re-enter logarithmic growth and resulted in complete lysis of the culture.

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AEM analysis of crystallization in Ti-based amorphous alloys

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100075142 ◽

1983 ◽

Vol 41 ◽

pp. 270-271

Author(s):

A.R. Pelton ◽

A.F. Marshall ◽

Y.S. Lee

Keyword(s):

Magnetic Properties ◽

Amorphous Alloys ◽

Amorphous Materials ◽

Isothermal Annealing ◽

Amorphous Matrix ◽

Nucleation And Growth ◽

Current Interest ◽

Amorphous Films ◽

Electrical And Magnetic Properties

Amorphous materials are of current interest due to their desirable mechanical, electrical and magnetic properties. Furthermore, crystallizing amorphous alloys provides an avenue for discerning sequential and competitive phases thus allowing access to otherwise inaccessible crystalline structures. Previous studies have shown the benefits of using AEM to determine crystal structures and compositions of partially crystallized alloys. The present paper will discuss the AEM characterization of crystallized Cu-Ti and Ni-Ti amorphous films.Cu60Ti40: The amorphous alloy Cu60Ti40, when continuously heated, forms a simple intermediate, macrocrystalline phase which then transforms to the ordered, equilibrium Cu3Ti2 phase. However, contrary to what one would expect from kinetic considerations, isothermal annealing below the isochronal crystallization temperature results in direct nucleation and growth of Cu3Ti2 from the amorphous matrix.

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