Effect of calcium precursors on pelletized property and cyclic CO2 capture performance

Effect of calcium precursors on pelletized property and cyclic CO2 capture performance

CaO is widely used for capturing CO2 in large scale application however the work on the manufacture of CaO based pellets for the application of CO2 capture is relatively limited. In this research investigated the effect of calcium precursors (Ca(OH)2, Ca(NO3)2 and Ca(CH3COO)2) and their synthesis me...

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Main Authors: Wongsakulphasatch Suwimol, Sukchoknamchai Krasanai, Suthapot Natthapong, Praikaew Wanichaya, Chaisuk Choowong, Kiatkittipong Worapon, Laosiripojana Navadol, Assabumrungrat Suttichai
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201819203057
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spelling doaj-101ad53446db4a7897e9e893817040ee2021-02-02T02:01:51ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-011920305710.1051/matecconf/201819203057matecconf_iceast2018_03057Effect of calcium precursors on pelletized property and cyclic CO2 capture performanceWongsakulphasatch SuwimolSukchoknamchai KrasanaiSuthapot NatthapongPraikaew WanichayaChaisuk ChoowongKiatkittipong WoraponLaosiripojana NavadolAssabumrungrat SuttichaiCaO is widely used for capturing CO2 in large scale application however the work on the manufacture of CaO based pellets for the application of CO2 capture is relatively limited. In this research investigated the effect of calcium precursors (Ca(OH)2, Ca(NO3)2 and Ca(CH3COO)2) and their synthesis method (sol-mixing and wet-mixing) on pelletization. Adsorbent synthesized from Ca(CH3COO)2 as a precursor using sol-mixing pelletize to porous spherical provide the best mechanical strength and CO2 adsorption capacity 0.51 and 0.41 g CO2/ g CaO at first cycle and tenth cycle respectively. The outstanding cyclic performance of Ca(CH3COO)2 sol-mixing can be ascribed to the presence of inert support material i.e. Ca9Al6O18 and Ca12Al14O33 with suitable pore volume to prevent sintering of CaO and structure collapsing at high temperature.https://doi.org/10.1051/matecconf/201819203057
collection DOAJ
language English
format Article
sources DOAJ
author Wongsakulphasatch Suwimol
Sukchoknamchai Krasanai
Suthapot Natthapong
Praikaew Wanichaya
Chaisuk Choowong
Kiatkittipong Worapon
Laosiripojana Navadol
Assabumrungrat Suttichai
spellingShingle Wongsakulphasatch Suwimol
Sukchoknamchai Krasanai
Suthapot Natthapong
Praikaew Wanichaya
Chaisuk Choowong
Kiatkittipong Worapon
Laosiripojana Navadol
Assabumrungrat Suttichai
Effect of calcium precursors on pelletized property and cyclic CO2 capture performance
MATEC Web of Conferences
author_facet Wongsakulphasatch Suwimol
Sukchoknamchai Krasanai
Suthapot Natthapong
Praikaew Wanichaya
Chaisuk Choowong
Kiatkittipong Worapon
Laosiripojana Navadol
Assabumrungrat Suttichai
author_sort Wongsakulphasatch Suwimol
title Effect of calcium precursors on pelletized property and cyclic CO2 capture performance
title_short Effect of calcium precursors on pelletized property and cyclic CO2 capture performance
title_full Effect of calcium precursors on pelletized property and cyclic CO2 capture performance
title_fullStr Effect of calcium precursors on pelletized property and cyclic CO2 capture performance
title_full_unstemmed Effect of calcium precursors on pelletized property and cyclic CO2 capture performance
title_sort effect of calcium precursors on pelletized property and cyclic co2 capture performance
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description CaO is widely used for capturing CO2 in large scale application however the work on the manufacture of CaO based pellets for the application of CO2 capture is relatively limited. In this research investigated the effect of calcium precursors (Ca(OH)2, Ca(NO3)2 and Ca(CH3COO)2) and their synthesis method (sol-mixing and wet-mixing) on pelletization. Adsorbent synthesized from Ca(CH3COO)2 as a precursor using sol-mixing pelletize to porous spherical provide the best mechanical strength and CO2 adsorption capacity 0.51 and 0.41 g CO2/ g CaO at first cycle and tenth cycle respectively. The outstanding cyclic performance of Ca(CH3COO)2 sol-mixing can be ascribed to the presence of inert support material i.e. Ca9Al6O18 and Ca12Al14O33 with suitable pore volume to prevent sintering of CaO and structure collapsing at high temperature.
url https://doi.org/10.1051/matecconf/201819203057
work_keys_str_mv AT wongsakulphasatchsuwimol effectofcalciumprecursorsonpelletizedpropertyandcyclicco2captureperformance
AT sukchoknamchaikrasanai effectofcalciumprecursorsonpelletizedpropertyandcyclicco2captureperformance
AT suthapotnatthapong effectofcalciumprecursorsonpelletizedpropertyandcyclicco2captureperformance
AT praikaewwanichaya effectofcalciumprecursorsonpelletizedpropertyandcyclicco2captureperformance
AT chaisukchoowong effectofcalciumprecursorsonpelletizedpropertyandcyclicco2captureperformance
AT kiatkittipongworapon effectofcalciumprecursorsonpelletizedpropertyandcyclicco2captureperformance
AT laosiripojananavadol effectofcalciumprecursorsonpelletizedpropertyandcyclicco2captureperformance
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