Petrology and minor element chemistry of combustion by-products from the co-combustion of coal, tire-derived fuel, and petroleum coke at a western Kentucky cyclone-fired unit

James C. Hower; J. David Robertson; James M. Roberts

doi:10.1016/S0378-3820(01)00224-7

Petrology and minor element chemistry of combustion by-products from the co-combustion of coal, tire-derived fuel, and petroleum coke at a western Kentucky cyclone-fired unit

James C. Hower, J. David Robertson, James M. Roberts

Earth and Environmental Sciences

Research output: Contribution to journal › Article › peer-review

30 Scopus citations

Abstract

A western Kentucky power plant conducted a series of test burns with coal+tire-derived fuel (tdf) and coal+tire-derived fuel+petroleum coke blends. Collections of fuel, fly ash, and bottom ash/slag were made from the cyclone-fired unit under four fuel combinations: coal, coal+ca. 1% tdf, coal+ca. 3% tdf, and coal+ca. 3% tdf+petroleum coke. Fly ash carbons derived from the three fuel types can be distinguished, allowing an assessment of the impact of co-combustion on fly ash quality. While certain aspects of the ash chemistry are distinctive, Zn increasing in tdf-derived fly ash and Ni and V increasing in petroleum coke-derived fly ash, changes in the coal source between sampling dates complicate the assessment of the chemistry.

Original language	English
Pages (from-to)	125-142
Number of pages	18
Journal	Fuel Processing Technology
Volume	74
Issue number	2
DOIs	https://doi.org/10.1016/S0378-3820(01)00224-7
State	Published - Dec 12 2001

Keywords

Coal
Fly ash
Kentucky
Petroleum coke
Tire-derived fuel

ASJC Scopus subject areas

General Chemical Engineering
Fuel Technology
Energy Engineering and Power Technology

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10.1016/S0378-3820(01)00224-7

Cite this

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title = "Petrology and minor element chemistry of combustion by-products from the co-combustion of coal, tire-derived fuel, and petroleum coke at a western Kentucky cyclone-fired unit",

abstract = "A western Kentucky power plant conducted a series of test burns with coal+tire-derived fuel (tdf) and coal+tire-derived fuel+petroleum coke blends. Collections of fuel, fly ash, and bottom ash/slag were made from the cyclone-fired unit under four fuel combinations: coal, coal+ca. 1% tdf, coal+ca. 3% tdf, and coal+ca. 3% tdf+petroleum coke. Fly ash carbons derived from the three fuel types can be distinguished, allowing an assessment of the impact of co-combustion on fly ash quality. While certain aspects of the ash chemistry are distinctive, Zn increasing in tdf-derived fly ash and Ni and V increasing in petroleum coke-derived fly ash, changes in the coal source between sampling dates complicate the assessment of the chemistry.",

keywords = "Coal, Fly ash, Kentucky, Petroleum coke, Tire-derived fuel",

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Petrology and minor element chemistry of combustion by-products from the co-combustion of coal, tire-derived fuel, and petroleum coke at a western Kentucky cyclone-fired unit. / Hower, James C.; Robertson, J. David; Roberts, James M.
In: Fuel Processing Technology, Vol. 74, No. 2, 12.12.2001, p. 125-142.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Petrology and minor element chemistry of combustion by-products from the co-combustion of coal, tire-derived fuel, and petroleum coke at a western Kentucky cyclone-fired unit

AU - Hower, James C.

AU - Robertson, J. David

AU - Roberts, James M.

PY - 2001/12/12

Y1 - 2001/12/12

N2 - A western Kentucky power plant conducted a series of test burns with coal+tire-derived fuel (tdf) and coal+tire-derived fuel+petroleum coke blends. Collections of fuel, fly ash, and bottom ash/slag were made from the cyclone-fired unit under four fuel combinations: coal, coal+ca. 1% tdf, coal+ca. 3% tdf, and coal+ca. 3% tdf+petroleum coke. Fly ash carbons derived from the three fuel types can be distinguished, allowing an assessment of the impact of co-combustion on fly ash quality. While certain aspects of the ash chemistry are distinctive, Zn increasing in tdf-derived fly ash and Ni and V increasing in petroleum coke-derived fly ash, changes in the coal source between sampling dates complicate the assessment of the chemistry.

AB - A western Kentucky power plant conducted a series of test burns with coal+tire-derived fuel (tdf) and coal+tire-derived fuel+petroleum coke blends. Collections of fuel, fly ash, and bottom ash/slag were made from the cyclone-fired unit under four fuel combinations: coal, coal+ca. 1% tdf, coal+ca. 3% tdf, and coal+ca. 3% tdf+petroleum coke. Fly ash carbons derived from the three fuel types can be distinguished, allowing an assessment of the impact of co-combustion on fly ash quality. While certain aspects of the ash chemistry are distinctive, Zn increasing in tdf-derived fly ash and Ni and V increasing in petroleum coke-derived fly ash, changes in the coal source between sampling dates complicate the assessment of the chemistry.

KW - Coal

KW - Fly ash

KW - Kentucky

KW - Petroleum coke

KW - Tire-derived fuel

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Petrology and minor element chemistry of combustion by-products from the co-combustion of coal, tire-derived fuel, and petroleum coke at a western Kentucky cyclone-fired unit

Abstract

Keywords

ASJC Scopus subject areas

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