TY - JOUR
T1 - The effects of marine sediments and NaCl as impurities on the calcination of oyster shells
AU - Ha, Su Hyeon
AU - Kim, Kangjoo
AU - Kim, Seok Hwi
AU - Kim, Yeongkyoo
N1 - Publisher Copyright:
© 2019 Korean Society of Economic and Environmental Geology. All rights reserved.
PY - 2019
Y1 - 2019
N2 - The calcination of oyster shells have been studied as the possible substitute for the limestone used as an absorbent of SO2 gas. However, since pure shells can not be used in calcination process, some impurities are contained and the changes in the characteristics of the calcination products are expected. In this study, the surface characteristics of the calcination products are investigated by mineralogical analysis according to the contents of NaCl, which can be derived from sea water, and sediments on the surface of the shell as impurities. The marine sediments on the shells were mainly composed of quartz, albite, calcite, small amounts of amphibole and clay minerals such as ilite, chlorite and smectite. After calcination of oyster shells mixed with 0.2-4.0 wt% sediments at 900 oC for 2 hours, regardless of the dehydration, dehydroxylation, and phase change of these minerals at the lower temperature than this experiment, no noticeable changes were observed on the specific surface area of the calcined product. However, when mixed with 0.1 to 2.0 wt% NaCl, the specific surface area generally increases as compared with the shell sample before calcination. The specific surface area increases with increasing amount of salt, and then decreases again. This is closely related to the changes of surface morphology. As the amount of NaCl increases, the morphology of the surface is similar to that of gel. It changes into a slightly angular, smaller particle and again looks like gel with increasing amount of NaCl. Our results show that NaCl affects morphological changes probably caused by melting of some oyster shells, but may have different effects on the specific surface area of calcination product depending on the NaCl contents.
AB - The calcination of oyster shells have been studied as the possible substitute for the limestone used as an absorbent of SO2 gas. However, since pure shells can not be used in calcination process, some impurities are contained and the changes in the characteristics of the calcination products are expected. In this study, the surface characteristics of the calcination products are investigated by mineralogical analysis according to the contents of NaCl, which can be derived from sea water, and sediments on the surface of the shell as impurities. The marine sediments on the shells were mainly composed of quartz, albite, calcite, small amounts of amphibole and clay minerals such as ilite, chlorite and smectite. After calcination of oyster shells mixed with 0.2-4.0 wt% sediments at 900 oC for 2 hours, regardless of the dehydration, dehydroxylation, and phase change of these minerals at the lower temperature than this experiment, no noticeable changes were observed on the specific surface area of the calcined product. However, when mixed with 0.1 to 2.0 wt% NaCl, the specific surface area generally increases as compared with the shell sample before calcination. The specific surface area increases with increasing amount of salt, and then decreases again. This is closely related to the changes of surface morphology. As the amount of NaCl increases, the morphology of the surface is similar to that of gel. It changes into a slightly angular, smaller particle and again looks like gel with increasing amount of NaCl. Our results show that NaCl affects morphological changes probably caused by melting of some oyster shells, but may have different effects on the specific surface area of calcination product depending on the NaCl contents.
KW - Calcination
KW - Impurity
KW - NaCl
KW - Oyeter shell
KW - Sediment
UR - http://www.scopus.com/inward/record.url?scp=85070227974&partnerID=8YFLogxK
U2 - 10.9719/EEG.2019.52.3.223
DO - 10.9719/EEG.2019.52.3.223
M3 - Article
AN - SCOPUS:85070227974
SN - 1225-7281
VL - 52
SP - 223
EP - 230
JO - Economic and Environmental Geology
JF - Economic and Environmental Geology
IS - 3
ER -