Structural Analysis of the Pasar Minggu Subdistrict Health Center Building in South Jakarta City
DOI:
https://doi.org/10.58344/jws.v5i2.1627Keywords:
Development, Analysis, Branch Office, Building Structure, SeismicAbstract
In light of the rising incidence of natural disasters, it is crucial to ensure that all buildings, particularly those serving public functions, are capable of withstanding a range of potential loads. This study examines the structural integrity of the Pasar Minggu Subdistrict Health Center in South Jakarta through analysis using ETABS software, deriving internal forces from the facility's working drawings in alignment with the requirements of SNI 2847:2019, SNI 1726:2019, and SNI 1727:2020. Employing a quantitative methodology via ETABS V18.1.1, the analysis incorporates primary data gathered from on-site measurements alongside secondary data sourced from relevant literature and established design standards. Key steps encompass structural modeling, load determination, and an assessment of the capacity of critical components, including columns, beams, and slabs. The findings indicate that the majority of the building's structural elements satisfy the prescribed strength criteria. Nonetheless, columns K4 on the Dak floor and K6 on the Dak staircase and terrace at the first-floor level fall short of the Weak Beam-Column Strength (SBLB) requirements, underscoring the necessity for targeted design enhancements and reinforcement measures. These outcomes underscore the value of thorough structural evaluations in architectural planning. The study further offers guidance on refinements to bolster the structure's safety and longevity, while stressing adherence to prevailing regulations in infrastructure projects.
References
Ahmed, H. Asfandyar, Shahzada, Khan, & Fahad, Muhammad. (2021). Performance-based seismic assessment of capacity enhancement of building infrastructure and its cost-benefit evaluation. International Journal of Disaster Risk Reduction, 61, 102341.
Alekseytsev, Anatoly Victorovich, & Kurchenko, Natalia Sergeevna. (2023). Safety of Reinforced Concrete Columns: Effect of Initial Imperfections and Material Deterioration under Emergency Actions. Buildings, 13(4), 1054.
Alekseytsev, A. V, Gaile, Liga, & Drukis, Peteris. (2019). Optimization of steel beam structures for frame buildings subject to their safety requirements. Magazine of Civil Engineering, (7 (91)), 3–15.
Amimr, Andy, & Sari, Puspita. (2024). Defining the Integration of Primary Health Services: Perspectives from Leaders of Puskesmas. Jurnal Kesehatan, 15(3), 370–373.
Bahr, Nicholas J. (2018). System safety engineering and risk assessment: a practical approach. CRC press.
Crook, Cameron, Bauer, Jens, Guell Izard, Anna, Santos de Oliveira, Cristine, Martins de Souza e Silva, Juliana, Berger, Jonathan B., & Valdevit, Lorenzo. (2020). Plate-nanolattices at the theoretical limit of stiffness and strength. Nature Communications, 11(1), 1579.
Firoozi, Ali Akbar, & Firoozi, Ali Asghar. (2025). Foundations of Safety and Compliance in Healthcare Architecture: Navigating Building Codes, Accreditation Standards, and Sustainability Practices. In Transformative Design in Healthcare: Infection Control and Patient Well-being through Architectural Innovation (pp. 265–314). Springer.
Grandt Jr, Alten F. (2003). Fundamentals of structural integrity: damage tolerant design and nondestructive evaluation. John Wiley & Sons.
Hartini, Inge. (2025). Implementation of the Right to the Primary Health Care Integration Program at Community Health Centers: A Case Study at Community Health Centers in Boalemo Regency. Widya Gama Health Law Journal, 1(1), 33–53.
Janwaen, Worajak, Barros, Joaquim A., & Costa, Inês G. (2019). A new strengthening technique for increasing the load carrying capacity of rectangular reinforced concrete columns subjected to axial compressive loading. Composites Part B: Engineering, 158, 67–81.
Jaušovec, Marko, & Gabrovec, Branko. (2023). Architectural evaluation of healthcare facilities: A comprehensive review and implications for building design. Buildings, 13(12), 2926.
Jena, Ratiranjan, Pradhan, Biswajeet, Beydoun, Ghassan, Alamri, Abdullah M., & Sofyan, Hizir. (2020). Earthquake hazard and risk assessment using machine learning approaches at Palu, Indonesia. Science of the Total Environment, 749, 141582.
Kadar, Kusrini Semarwati, Ardillah, Fitrah, Puspitha, Arnis, & Erfina, Erfina. (2022). Implementation of home care services by community health centers (Puskesmas) in Makassar City, Indonesia. Jurnal Keperawatan Indonesia, 25(1), 32–41.
Machfudiyanto, Rossy A., Kim, Sunkuk, Latief, Yusuf, Rachmawati, Titi Sari Nurul, & Laksono, Naufal Budi. (2023). Analysis of design-for-safety implementation factors in the Indonesian construction industry: A two-staged SEM-artificial neural network approach. Heliyon, 9(11).
Nazarudin, Jabbaarru, Rizkyansyah, Zahran, Nurokhim, Sofyan, & Sumarman, Sumarman. (2025). Structural Planning of 6-Storey Hotel Building in Subang District. Devotion: Journal of Research and Community Service, 6(9), 956–966.
Salgado, Rafael A., & Guner, Serhan. (2021). A structural performance-based environmental impact assessment framework for natural hazard loads. Journal of Building Engineering, 43, 102908.
Smith, Chris M., & Shaw, Duncan. (2019). The characteristics of problem structuring methods: A literature review. European Journal of Operational Research, 274(2), 403–416.
Stylianidis, Pm, Nethercrot, Da, Izzuddin, Ba, & Elghazouli, Ay (2016). A Study Of Progressive Collapse Mechanics Using A Simplified Beam Model. Engineering Structures, 177, 287–304.
Y?ld?r?m, Gürkan, Sarwary, Mohammad Haroon, Al-Dahawi, Ali, Öztürk, O?uzhan, An?l, Özgür, & ?ahmaran, Mustafa. (2018). Piezoresistive behavior of CF-and CNT-based reinforced concrete beams subjected to static flexural loading: Shear failure investigation. Construction and Building Materials, 168, 266–279.
Zameeruddin, Mohd, & Sangle, Keshav K. (2016). Review on Recent developments in the performance-based seismic design of reinforced concrete structures. Structures, 6, 119–133. Elsevier.
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Copyright (c) 2026 Ahmad Difky Nur Fathoni, Syahrul UIIa AI Muarif, Tira Roesdiana
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