Modification of Vacuum Residue by Heat Treatment Aided by Hydrogen Donor to Obtain Needle Coke through Cocarbonization with FCC-DO.

Isao Mochida; Yozo Korai; Kinya Sakanishi; Yoshio Todo; Takashi Ohyama

doi:10.1627/jpi1958.34.303

Modification of Vacuum Residue by Heat Treatment Aided by Hydrogen Donor to Obtain Needle Coke through Cocarbonization with FCC-DO.

Isao Mochida, Yozo Korai, Kinya Sakanishi, Yoshio Todo, Takashi Ohyama

先端素子材料部門

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

3 被引用数 (Scopus)

抄録

Pyrolytic depolymerization of asphaltene fraction in petroleum low sulfur vacuum residue (LSVR) was achieved at 480-500℃C with the aid of a hydrogen donor, tetrahydrofluoranthene (4HFL). Such depolymerization was effective for removing the bottom mosaic texture in the lump needle coke of excellent low coefficient of thermal expansion (CTE) produced through the cocarbonization of modified LSVR with fluid catalytic cracking decant oil (FCC-DO) of rather paraffinic structure in a tube bomb. The role of the hydrogen donor in such pyrolysis is discussed to clarify the scheme for reducing the molecular weight of the heaviest portion in the asphaltene without the formation of a benzene-insoluble coke precursor. The dealkylation accelerated with the donor may fission the methylene bonds which connect the aromatic nuclei in the asphaltene, increasing the aromaticity and enhancing the thermal stability of the heat-treated asphaltene.

本文言語	英語
ページ（範囲）	303-307
ページ数	5
ジャーナル	journal of the japan petroleum institute
巻	34
号	4
DOI	https://doi.org/10.1627/jpi1958.34.303
出版ステータス	出版済み - 1991

!!!All Science Journal Classification (ASJC) codes

燃料技術
エネルギー工学および電力技術

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10.1627/jpi1958.34.303

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引用スタイル

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title = "Modification of Vacuum Residue by Heat Treatment Aided by Hydrogen Donor to Obtain Needle Coke through Cocarbonization with FCC-DO.",

abstract = "Pyrolytic depolymerization of asphaltene fraction in petroleum low sulfur vacuum residue (LSVR) was achieved at 480-500℃C with the aid of a hydrogen donor, tetrahydrofluoranthene (4HFL). Such depolymerization was effective for removing the bottom mosaic texture in the lump needle coke of excellent low coefficient of thermal expansion (CTE) produced through the cocarbonization of modified LSVR with fluid catalytic cracking decant oil (FCC-DO) of rather paraffinic structure in a tube bomb. The role of the hydrogen donor in such pyrolysis is discussed to clarify the scheme for reducing the molecular weight of the heaviest portion in the asphaltene without the formation of a benzene-insoluble coke precursor. The dealkylation accelerated with the donor may fission the methylene bonds which connect the aromatic nuclei in the asphaltene, increasing the aromaticity and enhancing the thermal stability of the heat-treated asphaltene.",

author = "Isao Mochida and Yozo Korai and Kinya Sakanishi and Yoshio Todo and Takashi Ohyama",

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AU - Mochida, Isao

AU - Korai, Yozo

AU - Sakanishi, Kinya

AU - Todo, Yoshio

AU - Ohyama, Takashi

PY - 1991

Y1 - 1991

N2 - Pyrolytic depolymerization of asphaltene fraction in petroleum low sulfur vacuum residue (LSVR) was achieved at 480-500℃C with the aid of a hydrogen donor, tetrahydrofluoranthene (4HFL). Such depolymerization was effective for removing the bottom mosaic texture in the lump needle coke of excellent low coefficient of thermal expansion (CTE) produced through the cocarbonization of modified LSVR with fluid catalytic cracking decant oil (FCC-DO) of rather paraffinic structure in a tube bomb. The role of the hydrogen donor in such pyrolysis is discussed to clarify the scheme for reducing the molecular weight of the heaviest portion in the asphaltene without the formation of a benzene-insoluble coke precursor. The dealkylation accelerated with the donor may fission the methylene bonds which connect the aromatic nuclei in the asphaltene, increasing the aromaticity and enhancing the thermal stability of the heat-treated asphaltene.

AB - Pyrolytic depolymerization of asphaltene fraction in petroleum low sulfur vacuum residue (LSVR) was achieved at 480-500℃C with the aid of a hydrogen donor, tetrahydrofluoranthene (4HFL). Such depolymerization was effective for removing the bottom mosaic texture in the lump needle coke of excellent low coefficient of thermal expansion (CTE) produced through the cocarbonization of modified LSVR with fluid catalytic cracking decant oil (FCC-DO) of rather paraffinic structure in a tube bomb. The role of the hydrogen donor in such pyrolysis is discussed to clarify the scheme for reducing the molecular weight of the heaviest portion in the asphaltene without the formation of a benzene-insoluble coke precursor. The dealkylation accelerated with the donor may fission the methylene bonds which connect the aromatic nuclei in the asphaltene, increasing the aromaticity and enhancing the thermal stability of the heat-treated asphaltene.

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