EFFECTS OF TEMPERATURE AND ADDITIVES ON ASH TRANSFORMATION AND MELTING OF HIGH-ALKALI-CHLORINE COAL

Jingbin ZI; Daoyang MA; Zia ur RAHMAN; Xuebin WANG; Hao LI; Shengming LIAO

doi:10.2298/TSCI200313271Z

EFFECTS OF TEMPERATURE AND ADDITIVES ON ASH TRANSFORMATION AND MELTING OF HIGH-ALKALI-CHLORINE COAL

Jingbin ZI, Daoyang MA, Zia ur RAHMAN, Xuebin WANG^*, Hao LI, Shengming LIAO

^*Corresponding author for this work

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

13 Scopus citations

Abstract

The high contents of sodium and chlorine in Shaerhu coal aggravate severe slagging ash deposition and corrosion in boilers. Adding proper additives is an effective way to reduce slagging ash deposition and corrosion. Based on the experimental study, this paper investigated the effect of combustion temperature, types of additives, and its amount on the ash transformation and melting of high sodium chloride Shaerhu coal. The ash melting characteristics, elemented compositions and mineral compositions of the ash produced under different conditions were characterized. Results showed that the contents of calcium, magnesium, and sulphur in the coal ash varied slightly with the temperature increasing. Chlorine and sodium released rapidly from coal at 550–815 °C and 550–700 °C, respectively. At 1050 °C, calcium silicate was observed as the main component of the ash. The addition of different additives had no significant effect on chlorine and sodium capture. The addition of silicon species lowered the ash fusion temperatures, while the aluminum had an opposite effect. To prevent the furnace from slagging, a high aluminum additive is proposed to be adopted.

Original language	English
Pages (from-to)	3501-3510
Number of pages	10
Journal	Thermal Science
Volume	24
Issue number	6 PART A
DOIs	https://doi.org/10.2298/TSCI200313271Z
State	Published - 2020
Externally published	Yes

Bibliographical note

Publisher Copyright:
©2020 Society of Thermal Engineers of Serbia.

Keywords

additives
ash deposition
ash melting
high chlorine coal
high sodium coal
mineral transformation

ASJC Scopus subject areas

Renewable Energy, Sustainability and the Environment

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10.2298/TSCI200313271Z

Cite this

@article{eb13cc22d64c42b69ef3c9bbe44dac3f,

title = "EFFECTS OF TEMPERATURE AND ADDITIVES ON ASH TRANSFORMATION AND MELTING OF HIGH-ALKALI-CHLORINE COAL",

abstract = "The high contents of sodium and chlorine in Shaerhu coal aggravate severe slagging ash deposition and corrosion in boilers. Adding proper additives is an effective way to reduce slagging ash deposition and corrosion. Based on the experimental study, this paper investigated the effect of combustion temperature, types of additives, and its amount on the ash transformation and melting of high sodium chloride Shaerhu coal. The ash melting characteristics, elemented compositions and mineral compositions of the ash produced under different conditions were characterized. Results showed that the contents of calcium, magnesium, and sulphur in the coal ash varied slightly with the temperature increasing. Chlorine and sodium released rapidly from coal at 550–815 °C and 550–700 °C, respectively. At 1050 °C, calcium silicate was observed as the main component of the ash. The addition of different additives had no significant effect on chlorine and sodium capture. The addition of silicon species lowered the ash fusion temperatures, while the aluminum had an opposite effect. To prevent the furnace from slagging, a high aluminum additive is proposed to be adopted.",

keywords = "additives, ash deposition, ash melting, high chlorine coal, high sodium coal, mineral transformation",

author = "Jingbin ZI and Daoyang MA and \{ur RAHMAN\}, Zia and Xuebin WANG and Hao LI and Shengming LIAO",

note = "Publisher Copyright: {\textcopyright}2020 Society of Thermal Engineers of Serbia.",

year = "2020",

doi = "10.2298/TSCI200313271Z",

language = "English",

volume = "24",

pages = "3501--3510",

journal = "Thermal Science",

issn = "0354-9836",

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}

TY - JOUR

T1 - EFFECTS OF TEMPERATURE AND ADDITIVES ON ASH TRANSFORMATION AND MELTING OF HIGH-ALKALI-CHLORINE COAL

AU - ZI, Jingbin

AU - MA, Daoyang

AU - ur RAHMAN, Zia

AU - WANG, Xuebin

AU - LI, Hao

AU - LIAO, Shengming

PY - 2020

Y1 - 2020

N2 - The high contents of sodium and chlorine in Shaerhu coal aggravate severe slagging ash deposition and corrosion in boilers. Adding proper additives is an effective way to reduce slagging ash deposition and corrosion. Based on the experimental study, this paper investigated the effect of combustion temperature, types of additives, and its amount on the ash transformation and melting of high sodium chloride Shaerhu coal. The ash melting characteristics, elemented compositions and mineral compositions of the ash produced under different conditions were characterized. Results showed that the contents of calcium, magnesium, and sulphur in the coal ash varied slightly with the temperature increasing. Chlorine and sodium released rapidly from coal at 550–815 °C and 550–700 °C, respectively. At 1050 °C, calcium silicate was observed as the main component of the ash. The addition of different additives had no significant effect on chlorine and sodium capture. The addition of silicon species lowered the ash fusion temperatures, while the aluminum had an opposite effect. To prevent the furnace from slagging, a high aluminum additive is proposed to be adopted.

AB - The high contents of sodium and chlorine in Shaerhu coal aggravate severe slagging ash deposition and corrosion in boilers. Adding proper additives is an effective way to reduce slagging ash deposition and corrosion. Based on the experimental study, this paper investigated the effect of combustion temperature, types of additives, and its amount on the ash transformation and melting of high sodium chloride Shaerhu coal. The ash melting characteristics, elemented compositions and mineral compositions of the ash produced under different conditions were characterized. Results showed that the contents of calcium, magnesium, and sulphur in the coal ash varied slightly with the temperature increasing. Chlorine and sodium released rapidly from coal at 550–815 °C and 550–700 °C, respectively. At 1050 °C, calcium silicate was observed as the main component of the ash. The addition of different additives had no significant effect on chlorine and sodium capture. The addition of silicon species lowered the ash fusion temperatures, while the aluminum had an opposite effect. To prevent the furnace from slagging, a high aluminum additive is proposed to be adopted.

KW - additives

KW - ash deposition

KW - ash melting

KW - high chlorine coal

KW - high sodium coal

KW - mineral transformation

UR - https://www.scopus.com/pages/publications/85099016041

U2 - 10.2298/TSCI200313271Z

DO - 10.2298/TSCI200313271Z

M3 - Article

AN - SCOPUS:85099016041

SN - 0354-9836

VL - 24

SP - 3501

EP - 3510

JO - Thermal Science

JF - Thermal Science

IS - 6 PART A

ER -

EFFECTS OF TEMPERATURE AND ADDITIVES ON ASH TRANSFORMATION AND MELTING OF HIGH-ALKALI-CHLORINE COAL

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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