TY  - JOUR
AU  - Pilić, Vladimir
AU  - Mihajlović, Višnja
AU  - Stanojević, Petar
AU  - Anđelković, A.
AU  - Baloš, Danijel
PY  - 2019
UR  - https://rhinosec.fb.bg.ac.rs/handle/123456789/424
AB  - When implementing the method for quantitative risk analysis, usually based on RBI (Risk Based Inspection), conditions which directly influence the identification of damage mechanisms are defined at the beginning of the analysis. Thus, conducted analysis applies to the exact parameters and very specific combinations of conditions and damage mechanisms. The question arises as to whether such an analysis and its results may represent initial data for some subsequent analysis that can be carried out in the following period, regardless of the reasons for the implementation. The extension of the methodology from the one shown in the ASME PCC 3 standard is to identify both active and passive/potential damage mechanisms and the conditions under which passive can be activated. This addition to the methodology is successfully applied in case of a Middle East refinery, and as a representative example, a typical amine regeneration unit present in all modern gas or oil refineries, specifically the part of the unit with lean amine, is shown.
PB  - Institut za ispitivanje materijala, Beograd
T2  - Structural Integrity and Life
T1  - Application of innovative risk assessment methodology for damage mechanisms identification on part of amine regeneration unit
VL  - 19
IS  - 1
SP  - 29
EP  - 35
ER  - 

@article{
author = "Pilić, Vladimir and Mihajlović, Višnja and Stanojević, Petar and Anđelković, A. and Baloš, Danijel",
year = "2019",
abstract = "When implementing the method for quantitative risk analysis, usually based on RBI (Risk Based Inspection), conditions which directly influence the identification of damage mechanisms are defined at the beginning of the analysis. Thus, conducted analysis applies to the exact parameters and very specific combinations of conditions and damage mechanisms. The question arises as to whether such an analysis and its results may represent initial data for some subsequent analysis that can be carried out in the following period, regardless of the reasons for the implementation. The extension of the methodology from the one shown in the ASME PCC 3 standard is to identify both active and passive/potential damage mechanisms and the conditions under which passive can be activated. This addition to the methodology is successfully applied in case of a Middle East refinery, and as a representative example, a typical amine regeneration unit present in all modern gas or oil refineries, specifically the part of the unit with lean amine, is shown.",
publisher = "Institut za ispitivanje materijala, Beograd",
journal = "Structural Integrity and Life",
title = "Application of innovative risk assessment methodology for damage mechanisms identification on part of amine regeneration unit",
volume = "19",
number = "1",
pages = "29-35"
}

Pilić, V., Mihajlović, V., Stanojević, P., Anđelković, A.,& Baloš, D.. (2019). Application of innovative risk assessment methodology for damage mechanisms identification on part of amine regeneration unit. in Structural Integrity and Life
Institut za ispitivanje materijala, Beograd., 19(1), 29-35.

Pilić V, Mihajlović V, Stanojević P, Anđelković A, Baloš D. Application of innovative risk assessment methodology for damage mechanisms identification on part of amine regeneration unit. in Structural Integrity and Life. 2019;19(1):29-35..

Pilić, Vladimir, Mihajlović, Višnja, Stanojević, Petar, Anđelković, A., Baloš, Danijel, "Application of innovative risk assessment methodology for damage mechanisms identification on part of amine regeneration unit" in Structural Integrity and Life, 19, no. 1 (2019):29-35.

TY  - JOUR
AU  - Pilić, Vladimir
AU  - Mihajlović, Višnja
AU  - Baloš, Danijel
AU  - Anđelković, Aleksandar
AU  - Stanojević, Petar
PY  - 2019
UR  - https://rhinosec.fb.bg.ac.rs/handle/123456789/417
AB  - When implementing the method for quantitative risk analysis, usually based on RBI (Risk Based Inspection), conditions which directly influence the identification of damage mechanisms are defined at the beginning of the analysis. Thus, conducted analysis applies to the exact parameters and very specific combinations of conditions and damage mechanisms. The question arises as to whether such an analysis and its results may represent initial data for some subsequent analysis that can be carried out in the following period, regardless of the reasons for the implementation. The extension of the methodology from the one shown in the ASME PCC 3 standard is to identify both active and passive/potential damage mechanisms and the conditions under which passive can be activated. This addition to the methodology is successfully applied in case of a Middle East refinery, and as a representative example, a typical amine regeneration unit present in all modern gas or oil refineries, specifically the part of the unit with lean amine, is shown.
PB  - Institut za ispitivanje materijala, Beograd
T2  - Structural Integrity and Life
T1  - Application of innovative risk assessment methodology for damage mechanisms identification on part of amine regeneration unit
VL  - 19
IS  - 1
SP  - 29
EP  - 35
ER  - 

@article{
author = "Pilić, Vladimir and Mihajlović, Višnja and Baloš, Danijel and Anđelković, Aleksandar and Stanojević, Petar",
year = "2019",
abstract = "When implementing the method for quantitative risk analysis, usually based on RBI (Risk Based Inspection), conditions which directly influence the identification of damage mechanisms are defined at the beginning of the analysis. Thus, conducted analysis applies to the exact parameters and very specific combinations of conditions and damage mechanisms. The question arises as to whether such an analysis and its results may represent initial data for some subsequent analysis that can be carried out in the following period, regardless of the reasons for the implementation. The extension of the methodology from the one shown in the ASME PCC 3 standard is to identify both active and passive/potential damage mechanisms and the conditions under which passive can be activated. This addition to the methodology is successfully applied in case of a Middle East refinery, and as a representative example, a typical amine regeneration unit present in all modern gas or oil refineries, specifically the part of the unit with lean amine, is shown.",
publisher = "Institut za ispitivanje materijala, Beograd",
journal = "Structural Integrity and Life",
title = "Application of innovative risk assessment methodology for damage mechanisms identification on part of amine regeneration unit",
volume = "19",
number = "1",
pages = "29-35"
}

Pilić, V., Mihajlović, V., Baloš, D., Anđelković, A.,& Stanojević, P.. (2019). Application of innovative risk assessment methodology for damage mechanisms identification on part of amine regeneration unit. in Structural Integrity and Life
Institut za ispitivanje materijala, Beograd., 19(1), 29-35.

Pilić V, Mihajlović V, Baloš D, Anđelković A, Stanojević P. Application of innovative risk assessment methodology for damage mechanisms identification on part of amine regeneration unit. in Structural Integrity and Life. 2019;19(1):29-35..

Pilić, Vladimir, Mihajlović, Višnja, Baloš, Danijel, Anđelković, Aleksandar, Stanojević, Petar, "Application of innovative risk assessment methodology for damage mechanisms identification on part of amine regeneration unit" in Structural Integrity and Life, 19, no. 1 (2019):29-35.

TY  - JOUR
AU  - Pilić, Vladimir
AU  - Stanojević, Petar
AU  - Mihajlović, Višnja
AU  - Baloš, Danijel
PY  - 2019
UR  - https://rhinosec.fb.bg.ac.rs/handle/123456789/416
AB  - In the oil and gas industry hydrogen is used in a large number of processes, mostly in hydroprocessing units such as hydrotreating, hydrocracking and other refining processes that increase the hydrogen-to-carbon ratio. To satisfy the need for H-2, refineries usually have a dedicated Hydrogen Production Unit (HPU). Given the wide range of processes that HPU supplies and the fact that cost of operation of this kind of unit is rather high, it stands to reason that any kind of interruption in unit operation will affect the whole refining process. From Risk Based Inspection (RBI) point of view, HPU can be a very challenging unit to deal with, primarily due to the wide range of operating processes conditions as well as different operating fluids. As a result of applying the innovative methodology for risk assessment, it is shown that significantly higher number of damage mechanisms are identified in regard to the number of damage mechanisms that would be identified by applying traditional methodology, due to the fact that both active and passive damage mechanisms are identified. Concept of barriers such as measures that are able to restrict, reduce or preferably eliminate damage mechanisms identified in HPU are introduced and discussed. Innovative methodology was successfully applied in the case of a refinery in the Middle East.
PB  - Institut za ispitivanje materijala, Beograd
T2  - Structural Integrity and Life
T1  - Damage mechanism and barrier identification on hydrogen production unit using innovative methodology for risk assessment
VL  - 19
IS  - 2
SP  - 131
EP  - 137
ER  - 

@article{
author = "Pilić, Vladimir and Stanojević, Petar and Mihajlović, Višnja and Baloš, Danijel",
year = "2019",
abstract = "In the oil and gas industry hydrogen is used in a large number of processes, mostly in hydroprocessing units such as hydrotreating, hydrocracking and other refining processes that increase the hydrogen-to-carbon ratio. To satisfy the need for H-2, refineries usually have a dedicated Hydrogen Production Unit (HPU). Given the wide range of processes that HPU supplies and the fact that cost of operation of this kind of unit is rather high, it stands to reason that any kind of interruption in unit operation will affect the whole refining process. From Risk Based Inspection (RBI) point of view, HPU can be a very challenging unit to deal with, primarily due to the wide range of operating processes conditions as well as different operating fluids. As a result of applying the innovative methodology for risk assessment, it is shown that significantly higher number of damage mechanisms are identified in regard to the number of damage mechanisms that would be identified by applying traditional methodology, due to the fact that both active and passive damage mechanisms are identified. Concept of barriers such as measures that are able to restrict, reduce or preferably eliminate damage mechanisms identified in HPU are introduced and discussed. Innovative methodology was successfully applied in the case of a refinery in the Middle East.",
publisher = "Institut za ispitivanje materijala, Beograd",
journal = "Structural Integrity and Life",
title = "Damage mechanism and barrier identification on hydrogen production unit using innovative methodology for risk assessment",
volume = "19",
number = "2",
pages = "131-137"
}

Pilić, V., Stanojević, P., Mihajlović, V.,& Baloš, D.. (2019). Damage mechanism and barrier identification on hydrogen production unit using innovative methodology for risk assessment. in Structural Integrity and Life
Institut za ispitivanje materijala, Beograd., 19(2), 131-137.

Pilić V, Stanojević P, Mihajlović V, Baloš D. Damage mechanism and barrier identification on hydrogen production unit using innovative methodology for risk assessment. in Structural Integrity and Life. 2019;19(2):131-137..

Pilić, Vladimir, Stanojević, Petar, Mihajlović, Višnja, Baloš, Danijel, "Damage mechanism and barrier identification on hydrogen production unit using innovative methodology for risk assessment" in Structural Integrity and Life, 19, no. 2 (2019):131-137.