Impact assessment of metal corrosion on fuel reservoir carrying capacity
To prevent the large-scale contamination at the Vernadsky Station the development of the automated early-warning system of the leak fuel possibility is predicted in the State Target Scientific-Technical Research Program in the Antarctic for 2011-2020. An important component of the system is a subsys...
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| Published in: | Український антарктичний журнал |
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| Date: | 2015 |
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Національний антарктичний науковий центр МОН України
2015
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| Cite this: | Impact assessment of metal corrosion on fuel reservoir carrying capacity / O.O. Lukyanchenko, Yu.V. Vorona, О.V. Kostina, О.V. Kuzko // Український антарктичний журнал. — 2015. — № 14. — С. 246-255. — Бібліогр.: 12 назв. — англ. |
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Digital Library of Periodicals of National Academy of Sciences of Ukraine| _version_ | 1859914294477455360 |
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| author | Lukyanchenko, O.O. Vorona, Yu.V. Kostina, О.V. Kuzko, O.V. |
| author_facet | Lukyanchenko, O.O. Vorona, Yu.V. Kostina, О.V. Kuzko, O.V. |
| citation_txt | Impact assessment of metal corrosion on fuel reservoir carrying capacity / O.O. Lukyanchenko, Yu.V. Vorona, О.V. Kostina, О.V. Kuzko // Український антарктичний журнал. — 2015. — № 14. — С. 246-255. — Бібліогр.: 12 назв. — англ. |
| collection | DSpace DC |
| container_title | Український антарктичний журнал |
| description | To prevent the large-scale contamination at the Vernadsky Station the development of the automated early-warning system of the leak fuel possibility is predicted in the State Target Scientific-Technical Research Program in the Antarctic for 2011-2020. An important component of the system is a subsystem of control and visualization the tensioned-deformed condition of the 200 m3 reservoir construction providing the lack of the necessary technical documentation and of data by the current thicknesses both walls and welds of reservoir.
Для запобігання забрудненню навколишнього середовища на антарктичній станції «Академік Вернадський» у Державній цільовій науково-технічній програмі досліджень України в Антарктиці на 2011-2020 рр. передбачена розробка автоматизованої системи раннього попередження можливості витоку пального. Важливою складовою зазначеної системи € підсистема контролю і візуалізації напружено-деформованого стану конструкції резервуару ємністю 200 м3 в умовах нестачі необхідної технічної документації та даних про поточні товщини стінок і зварних швів резервуару.
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| first_indexed | 2025-12-07T16:03:55Z |
| format | Article |
| fulltext |
246
УКРАЇНСЬКИЙ АНТАРКТИЧНИЙ ЖУРНАЛ
УАЖ, №14, 246—255 (2015)
UDK 593.3
IMPACT ASSESSMENT OF METAL CORROSION
ON FUEL RESERVOIR CARRYING CAPACITY
Lukyanchenko O. O. 1, Vorona Yu. V.1 1 2, Kyrychuk O. A.3
1
2
3
Abstrakt. To prevent the large-scale contamination at the Vernadsky Station the development of the automated ear-
the Antarctic for 2011-2020. An important component of the system is a subsystem of control and visualization the
tensioned-deformed condition of the 200 m3 reservoir construction providing the lack of the necessary technical docu-
mentation and of data by the current thicknesses both walls and welds of reservoir.
The impact of corrosion from diesel fuel was studied on the carrying capacity of the conditional reservoir model
-
The obtained results can be immediately applied for analysis of the carrying capacity of the real reservoir construction
after obtaining of the quantitative characteristics of the walls reservoir thicknesses and after the technical documenta-
tion development for the real reservoir construction.
3
3
247
O. O. Lukyanchenko, Yu. V. Vorona, О. V. Kostina, О. V. Kuzko, O. A. Kyrychuk
IMPACT ASSESSMENT OF METAL CORROSION ON FUEL RESERVOIR CARRYING CAPACITY
1. Introduction
Destruction of oil tanks and pipelines structures creates the major threats of environmental disasters.
At the Antarctic Stations to prevent such accidents the necessary measures are regulated in the Antarctic
3
diesel fuel capacity.
of the real carrying capacity calculation for the real reservoir construction;
-
nesses quantitative characteristics of the reservoir joints and walls which are necessary for calculation of
the carrying capacity of the reservoir real construction.
regular monitoring and visualization of the carrying capacity of the real reservoir construction. The aim
of this study is the evaluation of the corrosion impact on the carrying capacity of the conditional reser-
stability.
2. Mathematical modeling of the CRC carrying capacity
The construction carrying capacity is ensured by the compliance with conditions of its strength and stabil-
-
-
-
gate the stability of the fuel reservoir system with spare capacity. Diesel fuel reservoir is a metal cylinder
-
whose dimensions are corresponded to rolled sheets (Fig.
248
O. O. Lukyanchenko, Yu. V. Vorona, О. V. Kostina, О. V. Kuzko, O. A. Kyrychuk
IMPACT ASSESSMENT OF METAL CORROSION ON FUEL RESERVOIR CARRYING CAPACITY
-
-
-
249
O. O. Lukyanchenko, Yu. V. Vorona, О. V. Kostina, О. V. Kuzko, O. A. Kyrychuk
IMPACT ASSESSMENT OF METAL CORROSION ON FUEL RESERVOIR CARRYING CAPACITY
Fig. 3. Finite-element model of two shells set.
which physical characteristics are given in the Table H.1 [10].
-
-
ical equipment. According to [11] the fuel weight is the long-term variable loads. It is modeled in the form
to constant load and is modeled in the form of concentrated forces applied to the respective nodes of the
3. Modeling the corrosion impact on the reservoir wall thinning
The corrosion of the reservoir walls metal is considered through the modeling of a conditional re-
Scheme I Scheme II Scheme III
250
O. O. Lukyanchenko, Yu. V. Vorona, О. V. Kostina, О. V. Kuzko, O. A. Kyrychuk
IMPACT ASSESSMENT OF METAL CORROSION ON FUEL RESERVOIR CARRYING CAPACITY
Scheme IV Scheme V Scheme VI
The nonline
4. Exploration methods of the fuel reservoir carrying capacity
-
rules. In the paper carrying capacity of the fuel reservoir from the static load is investigated using the pro-
-
tions [12] threshold calculated resistance of steel St3ps2 is determined taking into account the characteristic
-
the construction elements.
to analyze the construction tensioned-deformed state at each step
load to the limiting calculated value.
The impact of the fuel reservoir wall thinning to its strength is evaluated by means of the obtained
deformation values and equivalent tensions in the model elements. The impact of the fuel reservoir wall
thinning to the reservoir stability is evaluated by means of the safety factor of stability. The fuel reservoir
-
ability 3*10-5 [11].
5. The study results
Assessing the impact of corrosion on the carrying capacity of the fuel reservoir is carried out
by comparing its states both without and with considering the wall thinning. Table 1 shows the re-
sults of the study reservoir tensioned-deformed state without the wall thinning under the fuel weight
action.
251
O. O. Lukyanchenko, Yu. V. Vorona, О. V. Kostina, О. V. Kuzko, O. A. Kyrychuk
IMPACT ASSESSMENT OF METAL CORROSION ON FUEL RESERVOIR CARRYING CAPACITY
Table 1
Characteristics of the
reservoir state
The fuel load as a part of the reservoir volume
1/2
wall cells near its lower edge. In the reservoir wall near the pipe for draining fuel is a tensions concentration.
The load action of the roof and equipment weight on the reservoir tensioned-deformed state is shown in Fig.
252
O. O. Lukyanchenko, Yu. V. Vorona, О. V. Kostina, О. V. Kuzko, O. A. Kyrychuk
IMPACT ASSESSMENT OF METAL CORROSION ON FUEL RESERVOIR CARRYING CAPACITY
The obtained results indicate that the surface pressure of the fuel weight on the reservoir wall causes
-
state by the wall thinning on 1.5 mm in accordance with schemes I and IV under the stability loss.
During determining of the critical load (q
kr
zones of the reservoir wall.
-
-
-
-
culated value.
253
O. O. Lukyanchenko, Yu. V. Vorona, О. V. Kostina, О. V. Kuzko, O. A. Kyrychuk
IMPACT ASSESSMENT OF METAL CORROSION ON FUEL RESERVOIR CARRYING CAPACITY
The fuel reservoir deformation shape with the same movements under the stepwise loading is shown
254
O. O. Lukyanchenko, Yu. V. Vorona, О. V. Kostina, О. V. Kuzko, O. A. Kyrychuk
IMPACT ASSESSMENT OF METAL CORROSION ON FUEL RESERVOIR CARRYING CAPACITY
reservoir wall at q
kr
q .Tables 2 and 3 show the safety factors of the fuel reservoir stability in the
system with the defensive capacity and without it.
Table 2
Scheme
number
Factor stability
Fuel wall t , mm
0 25 0 5 0 1 0 1 25 1 5
I 5 3 1
II 1 0 1 2 1
III 2
IV
V 2 2 2 2 2 2
VI 2 2 2 2 2 2
Table 3
Scheme
number
Factor stability
Fuel wall t , mm
0 25 0 5 0 1 0 1 25 1 5
I
II
III
IV
V 5 5 5 5 5 5
VI 2 1
resistance is not observed. Impact of the thickness reducing of the top two reservoir zones (Scheme
wall thinning for scheme IV. Curve 1 corresponds to the behavior of the reservoir in the system with pro-
Fig. 10. Dependence of the safety stability factor from the wall thinning.
255
O. O. Lukyanchenko, Yu. V. Vorona, О. V. Kostina, О. V. Kuzko, O. A. Kyrychuk
IMPACT ASSESSMENT OF METAL CORROSION ON FUEL RESERVOIR CARRYING CAPACITY
The obtained results showed the reservoir state is more dangerous in the system with protective ca-
6. Conclusion
-
sidered as dangerous for the further operation.
In the case of these measures implementation this study results can be immediately used to assess
the carrying capacity of the real reservoir construction and to develop solutions for the further reservoir
operation at the Antarctic Station.
References
1. Protocol
2. V., -
,
3. Kuzko O. V., Fuel reservoir at
O. Kuzko, V.
5. Goculak E.,
-
Goculak E. O., -
Goculak E. O., Stability of cylindrical shell-support
10. State
11. State
12. Rzanicin A. R.
|
| id | nasplib_isofts_kiev_ua-123456789-129705 |
| institution | Digital Library of Periodicals of National Academy of Sciences of Ukraine |
| issn | 1727-7485 |
| language | English |
| last_indexed | 2025-12-07T16:03:55Z |
| publishDate | 2015 |
| publisher | Національний антарктичний науковий центр МОН України |
| record_format | dspace |
| spelling | Lukyanchenko, O.O. Vorona, Yu.V. Kostina, О.V. Kuzko, O.V. 2018-01-26T20:19:07Z 2018-01-26T20:19:07Z 2015 Impact assessment of metal corrosion on fuel reservoir carrying capacity / O.O. Lukyanchenko, Yu.V. Vorona, О.V. Kostina, О.V. Kuzko // Український антарктичний журнал. — 2015. — № 14. — С. 246-255. — Бібліогр.: 12 назв. — англ. 1727-7485 https://nasplib.isofts.kiev.ua/handle/123456789/129705 593.3 To prevent the large-scale contamination at the Vernadsky Station the development of the automated early-warning system of the leak fuel possibility is predicted in the State Target Scientific-Technical Research Program in the Antarctic for 2011-2020. An important component of the system is a subsystem of control and visualization the tensioned-deformed condition of the 200 m3 reservoir construction providing the lack of the necessary technical documentation and of data by the current thicknesses both walls and welds of reservoir. Для запобігання забрудненню навколишнього середовища на антарктичній станції «Академік Вернадський» у Державній цільовій науково-технічній програмі досліджень України в Антарктиці на 2011-2020 рр. передбачена розробка автоматизованої системи раннього попередження можливості витоку пального. Важливою складовою зазначеної системи € підсистема контролю і візуалізації напружено-деформованого стану конструкції резервуару ємністю 200 м3 в умовах нестачі необхідної технічної документації та даних про поточні товщини стінок і зварних швів резервуару. en Національний антарктичний науковий центр МОН України Український антарктичний журнал Розробка і впровадження новітніх технологій Impact assessment of metal corrosion on fuel reservoir carrying capacity Оцінка впливу корозії металу на несучу спроможність паливного резервуара Article published earlier |
| spellingShingle | Impact assessment of metal corrosion on fuel reservoir carrying capacity Lukyanchenko, O.O. Vorona, Yu.V. Kostina, О.V. Kuzko, O.V. Розробка і впровадження новітніх технологій |
| title | Impact assessment of metal corrosion on fuel reservoir carrying capacity |
| title_alt | Оцінка впливу корозії металу на несучу спроможність паливного резервуара |
| title_full | Impact assessment of metal corrosion on fuel reservoir carrying capacity |
| title_fullStr | Impact assessment of metal corrosion on fuel reservoir carrying capacity |
| title_full_unstemmed | Impact assessment of metal corrosion on fuel reservoir carrying capacity |
| title_short | Impact assessment of metal corrosion on fuel reservoir carrying capacity |
| title_sort | impact assessment of metal corrosion on fuel reservoir carrying capacity |
| topic | Розробка і впровадження новітніх технологій |
| topic_facet | Розробка і впровадження новітніх технологій |
| url | https://nasplib.isofts.kiev.ua/handle/123456789/129705 |
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