Design study of leak detection system and the protection of crude oil pipelines
Joint Authors
Muhammad, Iyad Zwain
Mahdi, B. R.
Ajlan, A. H.
Source
Engineering and Technology Journal
Publisher
Publication Date
2017-09-30
Country of Publication
Iraq
No. of Pages
4
Main Subjects
Engineering & Technology Sciences (Multidisciplinary)
English Abstract
In this paper, the Oil leakage sensor utilized photonics crystal fiber interferometer (PCFI) is proposed and experimentally investigated.
The principle of operation of this sensor is detected the gas emission from pipe.
This sensor is operate in transmission mode which designed by splicing the LAM-10 PCF with single mode fiber (SM) with two side.
To increase the sensitivity of this sensor the splice region is coated by special polymer doping by nano sliver silver particles to increase the sensitivity.
The experimental result s shows the sensitivity of fabricated sensor is high, and the response time is very short reach to 2min the max sensitivity is equal to (62 Co./sec ).
Due to the low fiber loss, the sensing range can be as high as 1 km.
Data Type
Conference Papers
Record ID
BIM-808894
American Psychological Association (APA)
Muhammad, Iyad Zwain& Mahdi, B. R.& Ajlan, A. H.. 2017-09-30. Design study of leak detection system and the protection of crude oil pipelines. Conference of Nanotechnology and Advanced Materials in the Petroleum and Gas (1st : 2017 : Baghdad, Iraq). . Vol. 35, no. 9A (2017), pp.899-902.Baghdad Iraq : University of Technology.
https://search.emarefa.net/detail/BIM-808894
Modern Language Association (MLA)
Muhammad, Iyad Zwain…[et al.]. Design study of leak detection system and the protection of crude oil pipelines. . Baghdad Iraq : University of Technology. 2017-09-30.
https://search.emarefa.net/detail/BIM-808894
American Medical Association (AMA)
Muhammad, Iyad Zwain& Mahdi, B. R.& Ajlan, A. H.. Design study of leak detection system and the protection of crude oil pipelines. . Conference of Nanotechnology and Advanced Materials in the Petroleum and Gas (1st : 2017 : Baghdad, Iraq).
https://search.emarefa.net/detail/BIM-808894