Prediction of the Availability of Oil-Sand Plants at Extreme Temperature Environments in High-Altitude Regions

doi:10.22716/sckt.2020.8.4.031

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2020 Vol.8, Issue 4 Preview Page Next Page

Case Study

Prediction of the Availability of Oil-Sand Plants at Extreme Temperature Environments in High-Altitude Regions 고위도 지역 저온 환경에서의 오일샌드 플랜트 가용도 변화 예측: Hongcheol Lee¹, Youngkwon Choi², Inju Hwang³, Hyundong Lee⁴
이홍철¹, 최영권², 황인주³, 이현동⁴; ^1,2,3Department of Future Technology and Convergence Research, Korea Institute Of Civil Engineering and Building Technology
⁴Department of Land, Water and Environment Research, Korea Institute Of Civil Engineering and Building Technology

¹한국건설기술연구원 미래융합연구본부
²한국건설기술연구원 국토보전연구본부

31 December 2020. pp. 11-19

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Abstract

북극권 및 주변 지역의 경우 극한지 저온 환경, 원격지 고립감 등 제약이 존재하고 있어 인력 운용, 물자 보급 등 어려움으로 시설 설계 단계에서부터 운용 자원을 최소화하기 위한 신뢰도 기반 시스템 구성이 요구되고 있다. SINTEF, NTNU는 석유 및 가스 생산 시설 운용 데이터를 기반으로 플랜트 가용도 평가를 위한 OREDA-handbook을 발간하였으나 대부분의 필드 데이터가 중위도 지역에서 수집된 데이터에 기반하고 있어 고위도 지역의 저온 환경에서 운용되는 플랜트의 가용도 평가에 적합하지 않다. 본 논문에서는 오일샌드 플랜트 가용도 평가를 위한 기초 데이터베이스로서 OREDA-handbook의 적용 한계를 고온, 저온 영역으로 확장하기 위한 방법론을 제시하고, 오일샌드 플랜트 기능 모듈 설계 사례를 이용하여 가용도 변화를 예측, 평가하였다.

In the Arctic and the surrounding regions of the Arctic, the limitations such as extreme cold environment and isolation lead to difficulties such as manpower management and supply. As a result, a reliability-based system is required to minimize operational resources from the facility design stage. SINTEF, NTNU published an OREDA-handbook to evaluate availability of plant based on data from oil and gas production facilities. However, most field data are based on data collected in the mid-latitude region, making it unsuitable for assessing the availability of plants operating in cold environments in high-altitude regions. In this study, the methodology for extending the application limit of OREDA-handbook as a basic database for evaluating the operation rate of oil sand plant was presented. In addition, the change in availability was predicted and evaluated using the design example of the oil sand plant function module.

Keywords

Oil-sand plant

Reliability

Availability

Mechanical failure

OREDA-handbook(offshore reliability data handbook)

MTBF(mean time between failure)

MTTR(mean time to repair)

References

Inju Hwang, "Extreme oil and gas plant technology", Journal of the KSME, Vol. 57, No. 2, pp. 32~36, 2017.
Masoud Naseri, Piero Baraldi, Michele Compare, Enrico Zio, "Availability assessment of oil and gas processing plants operating under dynamic Arctic weather conditions", Reliability Engineering and System Safety, Vol. 152, pp. 66-82, 2016.https://doi.org/10.1016/j.ress.2016.03.004
OREDA Participants, "OREDA(Offshore and Onshore Reliability Data) handbook 2015", Det Norske Veritas(DNV), SINTEF(Stiftelsen for industriell og teknisk forskning), NTNU(Norges teknisk-naturvitenskapelige universitet), 2015.
Kang, K. W., Yoon, M. O., Lee, H. C., Hwang, I. J., "A study on the availability with failure rate of process for LNG plant," KJACR, Vol. 24, No. 4, pp. 358-363, 2012.https://doi.org/10.6110/KJACR.2012.24.4.358
Borgonovo, E., Marseguerra, M., Zio, E., "A Monte Carlo methodological approach to plant availability modeling with maintenance, aging and obsolescence," Reliability Engineering and System Safety 67, pp.61-73, 2000.https://doi.org/10.1016/S0951-8320(99)00046-0
Hongcheol Lee, Inju Hwang, "Review of reliability database utilization for plant stability evaluation based on machinery reliability data of OREDA-Handbook", Spring Conference of KSME, Vol. 1, p. 80, 2018.
Hongcheol Lee, Jeongjun Lee, Inju Hwang, "The Population Size based Reliability Database Evaluation and Utilization Guidelines Suggestion for Plant Availability Assessment", Summer Conference of SAREK, Vol. 1, p. 80, 2019.
Ephraim Suhir, Yungcheng Lee, AT&T Bell Laboratories, "Thermal, Mechanical, and Enviromnental Durability Design Methodologies", Electronic Materials Handbook, pp. 45-50.
Arif I. Sarwat, Mohammadhadi Amini, Alexander Domijan Jr., Aleksandar Damnjanovic, Faisal Kaleemi, "Weather-based interruption prediction in the smart grid utilizing chronological data", J. Mod. Power Syst. Clean Energy Vol. 4, No. 2, 308-315, 2016.https://doi.org/10.1007/s40565-015-0120-4

Information

Publisher :The Society of Convergence Knowledge
Publisher(Ko) :융복합지식학회
Journal Title :The Society of Convergence Knowledge Transactions
Journal Title(Ko) :융복합지식학회논문지
Volume : 8
No :4
Pages :11-19
DOI :https://doi.org/10.22716/sckt.2020.8.4.031

[1] Inju Hwang, "Extreme oil and gas plant technology", Journal of the KSME, Vol. 57, No. 2, pp. 32~36, 2017.

[2] Masoud Naseri, Piero Baraldi, Michele Compare, Enrico Zio, "Availability assessment of oil and gas processing plants operating under dynamic Arctic weather conditions", Reliability Engineering and System Safety, Vol. 152, pp. 66-82, 2016.https://doi.org/10.1016/j.ress.2016.03.004

[3] OREDA Participants, "OREDA(Offshore and Onshore Reliability Data) handbook 2015", Det Norske Veritas(DNV), SINTEF(Stiftelsen for industriell og teknisk forskning), NTNU(Norges teknisk-naturvitenskapelige universitet), 2015.

[4] Kang, K. W., Yoon, M. O., Lee, H. C., Hwang, I. J., "A study on the availability with failure rate of process for LNG plant," KJACR, Vol. 24, No. 4, pp. 358-363, 2012.https://doi.org/10.6110/KJACR.2012.24.4.358

[5] Borgonovo, E., Marseguerra, M., Zio, E., "A Monte Carlo methodological approach to plant availability modeling with maintenance, aging and obsolescence," Reliability Engineering and System Safety 67, pp.61-73, 2000.https://doi.org/10.1016/S0951-8320(99)00046-0

[6] Hongcheol Lee, Inju Hwang, "Review of reliability database utilization for plant stability evaluation based on machinery reliability data of OREDA-Handbook", Spring Conference of KSME, Vol. 1, p. 80, 2018.

[7] Hongcheol Lee, Jeongjun Lee, Inju Hwang, "The Population Size based Reliability Database Evaluation and Utilization Guidelines Suggestion for Plant Availability Assessment", Summer Conference of SAREK, Vol. 1, p. 80, 2019.

[8] Ephraim Suhir, Yungcheng Lee, AT&T Bell Laboratories, "Thermal, Mechanical, and Enviromnental Durability Design Methodologies", Electronic Materials Handbook, pp. 45-50.

[9] Arif I. Sarwat, Mohammadhadi Amini, Alexander Domijan Jr., Aleksandar Damnjanovic, Faisal Kaleemi, "Weather-based interruption prediction in the smart grid utilizing chronological data", J. Mod. Power Syst. Clean Energy Vol. 4, No. 2, 308-315, 2016.https://doi.org/10.1007/s40565-015-0120-4

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