The sugar industry is a very important industry in Indonesia to meet the needs of the domestic market. One of the products of the sugar company is white crystal sugar. In the process of producing white sugar there is a fluid called Massecuite. Massecuite is a mixture of fluid crystals of sugar and water. Massecuite can cause sedimentations and blockages in the pipeline from the heater to the feed mixer. The line pipe from the reheater to the feed mixer has been redesigned. But the line pipe has not been designed for laying penyangga and evaluate piping stress. So that the line pipe needs to be designed for laying penyangga and evaluate piping stress. Evaluation of piping stress accordance to ASME B31.3 Process Piping. This evaluation aims to ensure that the line pipe design comply with ASME B31.3 requirements. The evaluation results evidence that the stress in the line pipe from the reheater to the feed mixer still meets the ASME B31.3 criteria. The line pipe design from the reheater to the feed mixer can be declared safe.

ASME. ASME B31.3: Process Piping, ASME Code for Pressure Piping § (2016).

Chamsudi, A. (2005). Diktat-Piping Stress Analysis. Retrieved from https://www.scribd.com/document/259036537/Di%0Aktat-Pipe-Stress-Analysis

Crocker, S. (1945). Piping Handbook Fourth Edition (4th ed.). New York: McGraw Hill Co.

Hasan, M., Santoso, E., & Mahardhika, P. (2017). DESAIN EXPANSION LOOP PADA LINE 116SV203-150-16H20 FATY ACID DESTILATION PT. WILMAR NABATI INDONESIA. In Proceedings Conference on Piping Engineering and its Application (pp. 31–36). Surabaya: Politeknik Perkapalan Negeri Surabaya. Retrieved from http://journal.ppns.ac.id/index.php/CPEAA/article/view/387

Kannappan, S. (1986). Introduction to Pipe Stress Analysis. John Wiley & Sons, Inc.

Kellogg, M. W. (1956). Design of Piping Systems (2nd ed.). Wiley.

Laras, M. B., Santoso, E., & Ariwiyono, N. (2018). Desain Ulang Sistem Perpipaan Distribusi Fluida Massecuite dari Reheater Menuju Feed Mixer. In Proceeding 3rd Conference of Piping Engineering and its Application (pp. 31–36).

Mahardhika, P. (2017). PENENTUAN ALLOWABLE SPAN ANTAR PENYANGGA PIPA SLF BERDASARKAN TEGANGAN, DEFLEKSI, FREKUENSI ALAMI. Jurnal IPTEK, 21(2), 27–34. https://doi.org/10.31284/j.iptek.2017.v21i2.149

Mahardhika, P. (2018). Penerapan metode time history untuk fenomena water hammer. Jurnal Teknologi Maritim, 1(2), 37–44. Retrieved from http://journal.ppns.ac.id/index.php/teknologimaritim/article/view/432

Mahardhika, P., Julianto, E., Indartono, A., & Kusuma, G. E. (2018). ANALISA PENGARUH KENAIKAN TEKANAN FLUIDA TERHADAP TEGANGAN DAN FLEKSIBILITAS PIPA BLOWDOWN A106 GRADE A BERDASARKAN ASME B31.3. TEKNIK, 39(1), 67–72. https://doi.org/10.14710/teknik.v39i1.17118

Okezone.com. (2020). ada 9 pabrik baru indonesia siap swasembada gula pada 2020. Retrieved from https://economy.okezone.com/read/2019/01/28/320/2010200/ada-9-pabrik-baru-indonesia-siap-swasembada-gula-pada-2020

Paul R Smith; Thomas J Van Laan. (1987). Piping and pipe support systems. McGraw-Hill Book Co.

Vakharia, D. P., & Farooq, M. (2009). Determination of maximum span between pipe supports using maximum bending stress theory. International Journal of Recent Trends in Engineering, 1(6), 46–49.