Analisis konstruksi pipa pompa suction 112-JB

https://doi.org/10.22146/jmtp.66248

Pungkas Satria(1), Achmad Widodo(2*), Ismoyo Haryanto(3), Djoeli Satrijo(4), Budi Setiyana(5)

(1) Universitas Diponegoro
(2) Universitas Diponegoro
(3) Universitas Diponegoro
(4) Universitas Diponegoro
(5) Universitas Diponegoro
(*) Corresponding Author

Abstract


The 101-JTC condenser tank has excess steam condensate due to the addition of admission steam from 101-JT. Therefore, it is necessary to design a piping system that connects 101-JTC condenser tank with the 112-JB pump to drain the condensed excess steam. The designed piping system will encounter a dynamic response caused by fluid flow fluctuation over the time. This dynamic response causes the pipe to experience stress. To find out the resulting voltage which will not cause damage or failure, it is necessary to estimate the safety factor in a piping system that has been given static and dynamic loading. This research uses the fluid structure interaction or FSI method with the help of ANSYS software as a simulation tool. The results of this study are, the flow in the pipe causes an impact load which makes the structure vibrate freely damped. The resulting dynamic response describes, the structure displacement amplitude decreases with increasing time. This indicates a stable vibration. Finally, when viewed from the value of stress against time, the fatigue that occurs in the pipe structure induce a stress below the stress limit on Goodman diagram. It can be estimated that the structure has no service life limit. The fatigue safety factor is 7.1.


Keywords


pipe system, safety factor, structure, fluid flow

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References

[1] Mahardika, P., 2017, “Penentuan Allowable Span Antar Penyangga Pipa SLF Berdasarkan Tegangan, Defleksi, Frekuensi Alami”, Jurnal Iptek 21(2), pp. 27-34.

[2] Firdaus, H. H., dan Satrijo, D., 2017, “Perancangan dan Analisa Sistem Perpipaan Process Plant Dengan Metode Elemen Hingga”, Jurnal Teknik Mesin 2(4), pp. 487-496.

[3] Rohmah, S. M., Chamsudi, A., Soetijono, A. 2017, “Analisa Tegangan Sistem Perpipaan Air Fin Cooler Pada Project Petrochemical Complex PT Trans Pasific Petrochemical Indotama-Tuban”, Tugas Akhir Mahasiswa FMIPA, ITS.

[4] American Society Of Mechanical Engineering, 2006, “ASME B 31.3 Process Piping”, ASME, New York.

[5] Mahardhika, P., 2018, “Analisa Pengaruh Kenaikan Tekanan Fluida Terhadap Tegangan dan Fleksibilitas Pipa Blowdown A106 Grade A Berdasarkan ASME B31.3”, Teknik, 39(1), pp. 67-77.

[6] Salifu, S.A., 2019, “Thermo-Mechanical Stress Simulation of Unconstrained Region of Straight X20 Steam Pipe”, Proc. Manufacturing 35, pp. 1330-1336.

[7] Husodo, A. W., Mahardhika, P., Viqqi Vadilla, V. A., 2019, “Analisa Fleksibilitas Sistem Perpipaan Pada Fatty Acid Plant Akibat Pergeseran Posisi Evaporator”, Jurnal Integrasi 11(2), pp. 112-118.

[8] Yusuf, M. R., Heroe Poernomo, H., Abul Gafur, A. 2017, “Analisa Tegangan Sistem Perpipaan Line BTF-PJUTIPCTP-PI-DW-005 ORF (Onshore Receiving Facility) Akibat Soil Settlement”, Proc. of 4th Conf. Piping Engineering and Its Appl., Program Studi D4 Teknik Perkapalan, Politeknik Perkapalan Negeri Surabaya.

[9] Haryono, S., Purwadi, M. D., Basori., 2014), “Analisis Tegangan Sistem Perpipaan Minyak Pada Sisi Hisap Pompa Dengan Perangkat Lunak Caesar II”, Jurnal Sains dan Teknologi Indonesia 16(2), pp. 28-38.

[10] Balakrishnan, S.,. Veerappan, A.R., Shanmugam, S. 2019, “B2 stress index for structurally distorted pipe bends under in-plane opening bending moment”, Intl. J. Pressure Vessels and Piping 176, 103957.

[11] Ahn, M.Y., Cho, S., Lee, E. H., Park, Y.-H., Lee, Y., 2016 “Pipe stress analysis on HCCR-TBS ancillary systems in conceptual design”, Fusion Engineering and Design 109-111(Part B), pp. 1169-1173.

[12] Raafat, E., Nassef, A., Medhat El-hadek, M., El-Megharbel, A. 2019, “Fatigue and thermal stress analysis of submerged steel pipes using ANSYS software”, Ocean Engineering 193, 106574.



DOI: https://doi.org/10.22146/jmtp.66248

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