Carbon deposition using various solid fuels for ironmaking applications
In this paper, we describe an innovative process involving iron reduction through chemical vapor deposition for applications in the ironmaking industry. In our experiment, we produced tar vapors from pyrolysis of various solid fuels, including high-grade bituminous coal (HGC), low-grade lignite co...
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2013
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my.iium.irep.324362013-10-29T07:30:07Z http://irep.iium.edu.my/32436/ Carbon deposition using various solid fuels for ironmaking applications Cahyono, Rochim B. Rozhan, Alya Naili Yasuda, Naoto Nomura, Takahiro Purwanto, Hadi Akiyama, Tomohiro TN600 Metallurgy TP315 Fuel In this paper, we describe an innovative process involving iron reduction through chemical vapor deposition for applications in the ironmaking industry. In our experiment, we produced tar vapors from pyrolysis of various solid fuels, including high-grade bituminous coal (HGC), low-grade lignite coal (LGC), and biomass palm kernel shell (PKS), and decomposed these vapors into gases, carbon, and light hydrocarbon. Carbon was deposited within the pores of pisolite ore (low-grade ore), which became porous during the dehydration process at 450 °C. We determined that the amount of tar produced during pyrolysis strongly affected carbon deposition, and HGC produced the highest carbon deposition because of its large tar product. In addition to tar amount, surface area and pore volume also played important roles in this process. PKS had the highest ratio of deposited carbon because it produced the smallest quantities of reacted tar and, consequently, the largest numbers of vacant pores. The amount of carbon deposition decreased at higher temperatures because tar was easily converted to a gaseous phase. The deposited carbon within iron ore showed potential as a reducing agent because it was highly reactive and reduced at lower temperatures. Carbon deposited within iron pores dramatically reduced the contact distance between the iron ore and carbon. Thus, these results show that our proposed methodology could have important applications as an alternative low-energy approach for producing metallic iron using low-grade materials. American Chemical Society (ACS Publications) 2013-04-11 Article REM application/pdf en http://irep.iium.edu.my/32436/1/Carbon_Deposition_Using_Various_Solid_Fuels_for_Ironmaking.pdf Cahyono, Rochim B. and Rozhan, Alya Naili and Yasuda, Naoto and Nomura, Takahiro and Purwanto, Hadi and Akiyama, Tomohiro (2013) Carbon deposition using various solid fuels for ironmaking applications. Energy & Fuels, 27 (5). pp. 2687-2692. ISSN 0887-0624 http://pubs.acs.org/doi/abs/10.1021/ef400322w 10.1021/ef400322w |
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TN600 Metallurgy TP315 Fuel Cahyono, Rochim B. Rozhan, Alya Naili Yasuda, Naoto Nomura, Takahiro Purwanto, Hadi Akiyama, Tomohiro Carbon deposition using various solid fuels for ironmaking applications |
| description |
In this paper, we describe an innovative process involving iron reduction through chemical vapor deposition for
applications in the ironmaking industry. In our experiment, we produced tar vapors from pyrolysis of various solid fuels, including
high-grade bituminous coal (HGC), low-grade lignite coal (LGC), and biomass palm kernel shell (PKS), and decomposed these
vapors into gases, carbon, and light hydrocarbon. Carbon was deposited within the pores of pisolite ore (low-grade ore), which
became porous during the dehydration process at 450 °C. We determined that the amount of tar produced during pyrolysis
strongly affected carbon deposition, and HGC produced the highest carbon deposition because of its large tar product. In
addition to tar amount, surface area and pore volume also played important roles in this process. PKS had the highest ratio of
deposited carbon because it produced the smallest quantities of reacted tar and, consequently, the largest numbers of vacant
pores. The amount of carbon deposition decreased at higher temperatures because tar was easily converted to a gaseous phase.
The deposited carbon within iron ore showed potential as a reducing agent because it was highly reactive and reduced at lower
temperatures. Carbon deposited within iron pores dramatically reduced the contact distance between the iron ore and carbon.
Thus, these results show that our proposed methodology could have important applications as an alternative low-energy
approach for producing metallic iron using low-grade materials. |
| format |
Article |
| author |
Cahyono, Rochim B. Rozhan, Alya Naili Yasuda, Naoto Nomura, Takahiro Purwanto, Hadi Akiyama, Tomohiro |
| author_facet |
Cahyono, Rochim B. Rozhan, Alya Naili Yasuda, Naoto Nomura, Takahiro Purwanto, Hadi Akiyama, Tomohiro |
| author_sort |
Cahyono, Rochim B. |
| title |
Carbon deposition using various solid fuels for ironmaking
applications |
| title_short |
Carbon deposition using various solid fuels for ironmaking
applications |
| title_full |
Carbon deposition using various solid fuels for ironmaking
applications |
| title_fullStr |
Carbon deposition using various solid fuels for ironmaking
applications |
| title_full_unstemmed |
Carbon deposition using various solid fuels for ironmaking
applications |
| title_sort |
carbon deposition using various solid fuels for ironmaking
applications |
| publisher |
American Chemical Society (ACS Publications) |
| publishDate |
2013 |
| url |
http://irep.iium.edu.my/32436/1/Carbon_Deposition_Using_Various_Solid_Fuels_for_Ironmaking.pdf http://irep.iium.edu.my/32436/ http://pubs.acs.org/doi/abs/10.1021/ef400322w |
| _version_ |
1643610222851260416 |