Research on the inhibition behavior of imidazoline derivant in the oil/gas well containing H 2S/CO 2

Chengqiang Ren; Daoxin Liu; Zhenquan Bai; Tiehu Li

Research on the inhibition behavior of imidazoline derivant in the oil/gas well containing H ₂S/CO ₂

Chengqiang Ren, Daoxin Liu, Zhenquan Bai, Tiehu Li

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

3 Scopus citations

Abstract

Through simulating the corrosion Environment in one high-temperature and high pressure gas well containing H ₂S/CO ₂ by use of electrochemical method, the inhibition mechanism and behavior of imidazoline derivant on tubing steel N80 were studied by the authors. It is concluded that, together with the sulfide in medium, the imidazoline de rivant can coodinate the ferric atom into a steady adsorption film; it belongs in an anodic inhibitor and its inhibition mechanism is regarded as "negative catalytic effect"; and the desorption at strong anodic polarization obeys the desorption model of the concussion of the ionized dissolution of metallic atom on the inhibitor, which plays an important role in protecting the bare steel and eroded tubing steel and can restrain the local corrosion caused by H ₂S.

Original language	English
Pages (from-to)	53-55+8-9
Journal	Tianranqi Gongye/Natural Gas Industry
Volume	24
Issue number	8
State	Published - 25 Aug 2004

Keywords

Carbon dioxide
Electrochemistry
High pressure
High temperature
Hydrogen sulfide
Imidazoline derivant

Cite this

@article{abe5e04c627f400b80b2ba853e89a62a,

title = "Research on the inhibition behavior of imidazoline derivant in the oil/gas well containing H 2S/CO 2 ",

abstract = "Through simulating the corrosion Environment in one high-temperature and high pressure gas well containing H 2S/CO 2 by use of electrochemical method, the inhibition mechanism and behavior of imidazoline derivant on tubing steel N80 were studied by the authors. It is concluded that, together with the sulfide in medium, the imidazoline de rivant can coodinate the ferric atom into a steady adsorption film; it belongs in an anodic inhibitor and its inhibition mechanism is regarded as {"}negative catalytic effect{"}; and the desorption at strong anodic polarization obeys the desorption model of the concussion of the ionized dissolution of metallic atom on the inhibitor, which plays an important role in protecting the bare steel and eroded tubing steel and can restrain the local corrosion caused by H 2S.",

keywords = "Carbon dioxide, Electrochemistry, High pressure, High temperature, Hydrogen sulfide, Imidazoline derivant",

author = "Chengqiang Ren and Daoxin Liu and Zhenquan Bai and Tiehu Li",

year = "2004",

month = aug,

day = "25",

language = "英语",

volume = "24",

pages = "53--55+8--9",

journal = "Tianranqi Gongye/Natural Gas Industry",

issn = "1000-0976",

publisher = "Natural Gas Industry Journal Agency",

number = "8",

}

TY - JOUR

T1 - Research on the inhibition behavior of imidazoline derivant in the oil/gas well containing H 2S/CO 2

AU - Ren, Chengqiang

AU - Liu, Daoxin

AU - Bai, Zhenquan

AU - Li, Tiehu

PY - 2004/8/25

Y1 - 2004/8/25

N2 - Through simulating the corrosion Environment in one high-temperature and high pressure gas well containing H 2S/CO 2 by use of electrochemical method, the inhibition mechanism and behavior of imidazoline derivant on tubing steel N80 were studied by the authors. It is concluded that, together with the sulfide in medium, the imidazoline de rivant can coodinate the ferric atom into a steady adsorption film; it belongs in an anodic inhibitor and its inhibition mechanism is regarded as "negative catalytic effect"; and the desorption at strong anodic polarization obeys the desorption model of the concussion of the ionized dissolution of metallic atom on the inhibitor, which plays an important role in protecting the bare steel and eroded tubing steel and can restrain the local corrosion caused by H 2S.

AB - Through simulating the corrosion Environment in one high-temperature and high pressure gas well containing H 2S/CO 2 by use of electrochemical method, the inhibition mechanism and behavior of imidazoline derivant on tubing steel N80 were studied by the authors. It is concluded that, together with the sulfide in medium, the imidazoline de rivant can coodinate the ferric atom into a steady adsorption film; it belongs in an anodic inhibitor and its inhibition mechanism is regarded as "negative catalytic effect"; and the desorption at strong anodic polarization obeys the desorption model of the concussion of the ionized dissolution of metallic atom on the inhibitor, which plays an important role in protecting the bare steel and eroded tubing steel and can restrain the local corrosion caused by H 2S.

KW - Carbon dioxide

KW - Electrochemistry

KW - High pressure

KW - High temperature

KW - Hydrogen sulfide

KW - Imidazoline derivant

UR - http://www.scopus.com/inward/record.url?scp=19244366434&partnerID=8YFLogxK

M3 - 文章

AN - SCOPUS:19244366434

SN - 1000-0976

VL - 24

SP - 53-55+8-9

JO - Tianranqi Gongye/Natural Gas Industry

JF - Tianranqi Gongye/Natural Gas Industry

IS - 8

ER -

Research on the inhibition behavior of imidazoline derivant in the oil/gas well containing H ₂S/CO ₂

Abstract

Keywords

Other files and links

Fingerprint

Cite this