Kinetic model for desulphurization at low temperatures using hydrated sorbent

Nilgün Karatepe; Aysegül Ersoy-Meriçboyu; Reha Yavuz; Sadriye Küçükbayrak

doi:10.1016/S0040-6031(99)00175-6

Kinetic model for desulphurization at low temperatures using hydrated sorbent

Nilgün Karatepe^*, Aysegül Ersoy-Meriçboyu, Reha Yavuz, Sadriye Küçükbayrak

^*Corresponding author for this work

Istanbul Technical University

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

28 Citations (Scopus)

Abstract

The sulphation reaction of hydrated silica fume-Ca(OH)₂ sorbents were investigated and modelled. These experiments were conducted in a thermogravimetric analyzer under isothermal conditions and in a humidified gaseous atmosphere consisting of 5 vol% O₂, 10 vol% CO₂, 0.5 vol% SO₂ and the balance of nitrogen. The effect of the relative humidity on the reaction rate was determined by sulfating of hydrated sorbents in the gaseous atmospheres which have three different relative humidities: 25%, 55% and 90%. The unreacted shrinking core model was chosen to describe this non-catalytic solid/gas (hydrated sorbent/SO₂) reaction mechanism. The experimental results were found to be correlated successfully by this model. It was determined that chemical reaction is partly rate limiting especially at the beginning of sulphation, diffusion through the calcium sulphite hemihydrate product layer generally controls the reaction rate.

Original language	English
Pages (from-to)	127-134
Number of pages	8
Journal	Thermochimica Acta
Volume	335
Issue number	1-2
DOIs	https://doi.org/10.1016/S0040-6031(99)00175-6
Publication status	Published - 6 Sept 1999

Keywords

Hydrated sorbents
Modelling
Sulphation

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10.1016/S0040-6031(99)00175-6

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title = "Kinetic model for desulphurization at low temperatures using hydrated sorbent",

abstract = "The sulphation reaction of hydrated silica fume-Ca(OH)2 sorbents were investigated and modelled. These experiments were conducted in a thermogravimetric analyzer under isothermal conditions and in a humidified gaseous atmosphere consisting of 5 vol% O2, 10 vol% CO2, 0.5 vol% SO2 and the balance of nitrogen. The effect of the relative humidity on the reaction rate was determined by sulfating of hydrated sorbents in the gaseous atmospheres which have three different relative humidities: 25%, 55% and 90%. The unreacted shrinking core model was chosen to describe this non-catalytic solid/gas (hydrated sorbent/SO2) reaction mechanism. The experimental results were found to be correlated successfully by this model. It was determined that chemical reaction is partly rate limiting especially at the beginning of sulphation, diffusion through the calcium sulphite hemihydrate product layer generally controls the reaction rate.",

keywords = "Hydrated sorbents, Modelling, Sulphation",

author = "Nilg{\"u}n Karatepe and Ayseg{\"u}l Ersoy-Meri{\c c}boyu and Reha Yavuz and Sadriye K{\"u}{\c c}{\"u}kbayrak",

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T1 - Kinetic model for desulphurization at low temperatures using hydrated sorbent

AU - Karatepe, Nilgün

AU - Ersoy-Meriçboyu, Aysegül

AU - Yavuz, Reha

AU - Küçükbayrak, Sadriye

PY - 1999/9/6

Y1 - 1999/9/6

N2 - The sulphation reaction of hydrated silica fume-Ca(OH)2 sorbents were investigated and modelled. These experiments were conducted in a thermogravimetric analyzer under isothermal conditions and in a humidified gaseous atmosphere consisting of 5 vol% O2, 10 vol% CO2, 0.5 vol% SO2 and the balance of nitrogen. The effect of the relative humidity on the reaction rate was determined by sulfating of hydrated sorbents in the gaseous atmospheres which have three different relative humidities: 25%, 55% and 90%. The unreacted shrinking core model was chosen to describe this non-catalytic solid/gas (hydrated sorbent/SO2) reaction mechanism. The experimental results were found to be correlated successfully by this model. It was determined that chemical reaction is partly rate limiting especially at the beginning of sulphation, diffusion through the calcium sulphite hemihydrate product layer generally controls the reaction rate.

AB - The sulphation reaction of hydrated silica fume-Ca(OH)2 sorbents were investigated and modelled. These experiments were conducted in a thermogravimetric analyzer under isothermal conditions and in a humidified gaseous atmosphere consisting of 5 vol% O2, 10 vol% CO2, 0.5 vol% SO2 and the balance of nitrogen. The effect of the relative humidity on the reaction rate was determined by sulfating of hydrated sorbents in the gaseous atmospheres which have three different relative humidities: 25%, 55% and 90%. The unreacted shrinking core model was chosen to describe this non-catalytic solid/gas (hydrated sorbent/SO2) reaction mechanism. The experimental results were found to be correlated successfully by this model. It was determined that chemical reaction is partly rate limiting especially at the beginning of sulphation, diffusion through the calcium sulphite hemihydrate product layer generally controls the reaction rate.

KW - Hydrated sorbents

KW - Modelling

KW - Sulphation

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SN - 0040-6031

VL - 335

SP - 127

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JO - Thermochimica Acta

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IS - 1-2

ER -

Kinetic model for desulphurization at low temperatures using hydrated sorbent

Abstract

Keywords

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