GROUNDWATER FLOW AND TRANSPORTATION OF SUSPENDED SUBSTANCE IN GRANULATED COAL ASH LAYER

Previous measurements of the spectral emissivity of coal ashes are converted to total absorptivities and emissivities. Below the temperature at which ash sinters, the total absorptivity of an ash layer—which is necessary for the estimation of radiative transfer in furnaces—is shown to depend on both the source (flame) temperature and the ash temperature. Synthetic mixtures of the oxides Al2O3, SiO2, and Fe2O3 are shown to give the same trends as those for ashes of the same Fe2O3 content.

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MODEL DEVELOPMENT FOR SIMULATING THE IMPROVEMENT EFFECTS OF SEDIMENT IN GRANULATED COAL ASH-LAYER

Journal of Japan Society of Civil Engineers Ser B3 (Ocean Engineering) ◽

10.2208/jscejoe.67.i_517 ◽

2011 ◽

Vol 67 (2) ◽

pp. I_517-I_522

Author(s):

Tadashi HIBINO ◽

Yugo MITO ◽

Tadashi SAITOH ◽

Michio KIMURA

Keyword(s):

Model Development ◽

Coal Ash ◽

Ash Layer

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Bioleaching kinetics of trace metals from coal ash using Pseudomonas spp.

MATEC Web of Conferences ◽

10.1051/matecconf/201926801010 ◽

2019 ◽

Vol 268 ◽

pp. 01010

Author(s):

Denvert Pangayao ◽

Michael Angelo Promentilla ◽

Susan Gallardo ◽

Eric van Hullebusch

Keyword(s):

Coal Ash ◽

Pseudomonas Spp ◽

Controlling Mechanism ◽

Ash Layer ◽

Copper Manganese ◽

Initial Ph ◽

Shrinking Core ◽

Linear Plot ◽

Kinetics Of ◽

Layer Control

The kinetics of bioleaching of chromium, copper, manganese and zinc from coal ash using Pseudomonas spp. isolated from coal ash pond was investigated. From the previous study, parameters used for bioleaching were 1% pulp density, 90 rpm, 37°C and 5 ml inoculum was placed in a 100 ml fresh medium with the ash. These conditions were used for bioleaching of coal ash for 30 days. Moreover, the initial pH of the solution is 8.20 and decreases to 8.61. After 30 days of bioleaching, the maximum metal leached were 13.77% Cr, 14.61% Cu, 6.33% Mn and 12.18% Zn. Assuming that the coal ash will shrink uniformly with respect to time using Shrinking Core Model, the kinetic data showed linear plot for percent metal leached versus time, suggested that diffusion through ash layer control was the rate controlling mechanism.

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Movement of Soil Water and Solute through Coal Ash Layer Packed in Large-Scale Lysimeter

PROCEEDINGS OF HYDRAULIC ENGINEERING ◽

10.2208/prohe.36.397 ◽

1992 ◽

Vol 36 ◽

pp. 397-402

Author(s):

Toshifumi IGARASHI ◽

Hisashi SHIMOGAKI

Keyword(s):

Soil Water ◽

Large Scale ◽

Coal Ash ◽

Ash Layer

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An Experimental Method for Making In Situ Spectral Emittance Measurements of Coal Ash Deposits

Volume 9: Heat Transfer, Fluid Flows, and Thermal Systems, Parts A, B and C ◽

10.1115/imece2009-13215 ◽

2009 ◽

Author(s):

Travis J. Moore ◽

Darron P. Cundick ◽

Matthew R. Jones ◽

Dale R. Tree ◽

R. Daniel Maynes ◽

...

Keyword(s):

Surface Temperature ◽

Flow Reactor ◽

Coal Ash ◽

Emissive Power ◽

Experimental Procedure ◽

Ash Layer ◽

Spectral Emittance ◽

Entrained Flow Reactor ◽

Ash Deposit

An experimental procedure has been developed to make in situ spectral emittance measurements of coal ash deposits. Pulverized coal is injected into a down-fired, entrained-flow reactor. Ash accumulates on a probe placed in the reactor effluent. The spectral emittance of the ash layer is calculated using measurements of the surface temperature and the spectral emissive power of the deposit. Measurements of the spectral emissive power and the surface temperature are obtained using a Fourier transform infrared (FTIR) spectrometer. The methods used to extract the spectral emissive power and surface temperature from measured infrared spectra were validated using a blackbody radiator at known temperatures. The experimental procedure was then used to find the spectral emittance of a coal ash deposit formed under oxidizing conditions.

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