• Icha Fatwasauri
  • Puspita Dewi
  • Rino Ferdian Surakusumah


Building Safety Hospital, Electrical Installation, Fire, Wastewater Treatment Plants


Safety is the most important aspect that needs to be considered in a hospital. There are several types of safety: patient safety, health personnel safety, building safety, equipment safety, green productivity, and hospital business safety. Building safety is determined to be the third common adverse event that occurred in hospital and affects directly to the safety of patients and health workers. Building safety in hospitals consists of electrical installations, fire and lightning protection, wastewater treatment plants, medical gas systems and medical vacuum, and elevator installation. A systematic review of problems and solutions to improve hospital building safety is expected to become a useful information for any health profession, engineers, and researchers. The purpose of this study is to identify the result of research on the implementation of building safety in the hospital. Some literature on adverse events and solutions from 2000-2019 was reviewed. The result shows various adverse events such as fall of the elevator, fire, damage electrical current which resulted in many victims. The result of this literature review can be a reference for hospitals to conduct evaluation and innovation in the implementation of building safety in hospitals.


Arrazy, (Syafran), Sunarsih, (Elvi), & Rahmiwati, (Anita). (2014). Implementation of Fire Safety Management System at DR. Sobirin Hospital District of Musi Rawas 2013. Jurnal Ilmu Kesehatan Masyarakat, 5(2), 103–111. Retrieved from
Carnolis, S., & Surapati, A. (2017). Studi Kelayakan Sistem Instalasi Listrik pada Ruang Operasi Rumah Sakit Umum Daerah Kepahiang. 11(1), 31–39.
Chafla, E. A., Garcés, E. A., & Quevedo, A. M. (2017). Mitigation of the magnetic field produced by low voltage terminals of electric transformer in transformation chambers for hospital buildings. 2017 International Conference on Sustainable and Renewable Energy Engineering, ICSREE 2017, 134–138.
Chen, J., & Chen, K. (1995). The Use of Reliability Index. 36–42.
Djunaidi, Z., & Pratiwi, F. (2015). Analysis of Fire Protection System Standard in Hospital : Case Study in Jakarta , Indonesia. Health and Safety, (Ferguson 2005), 1–10.
Edmonds, M. (2010). Adverse Events, Iatrogenic Injury and Error in Medicine.University of Adelaide Australia.
Grez Waang, D., Fernandez, H., Ramang, R., Magister Ilmu Lingkungan, P., Nusa Cendana, U., Jl Adisucipto Penfui Kupang, K., … Keguruan dan Ilmu Pendidikan, F. (2016). Effectiveness Analysis Of Waste Water Treatment Plant And Assessment Of The Liquid Waste General Hospital John W. Jurnal Bumi Lestari, 16(2), 92–99.
Hakim Choudhary, A., Kausar, M., Satpathy, S., & Sharma, D. K. (2020). Fire safety related challenges faced by existing hospitals: A review. Medico-Legal Update, 20(3), 419–425.
Hartaja, D. R. K. (2018). Desain Instalasi Pengolahan Air Limbah Rumah Sakit Kapasitas 40 M3/Hari. Jurnal Rekayasa Lingkungan, 10(2), 99–113.
Heba, P., & Mohamed, Y. (2021). " Implementation of Fire Safety Using Quality Protocols in Port Said Private Hospital ".
Ikpae, B. E., Dienye, P., A., & Jumbo, A. D. (2018). Evaluation of Fire Safety Preparedness among Healthcare Providers in Braithwaite Memorial Specialist Hospital. The Nigerial Health Journal, 18(1), 14–22.
Mardiyah, H. (2016). Evaluasi InstalasiI Listrik Pada Rumah Sakit Berdasarkan PUIL 2011. 2011.
MichelP, Quenon JL, De Sarasqueta AM, S. O. (n.d.). Comparison of three methods for estimating rates of adverse events and rates of preventable adverse events in acute care hospitals.
Muhamad Salleh, N., Agus Salim, N. A., Jaafar, M., Sulieman, M. Z., & Ebekozien, A. (2020). Fire safety management of public buildings: a systematic review of hospital buildings in Asia. Property Management, 38(4), 497–511.
Mulyati, M., & Narhadi, J. S. (2016). Evaluasi Instalasi Pengolahan Air Limbah Rumah Sakit Rk Charitas Palembang. Jurnal Ilmu Lingkungan, 12(2), 66.
Prayitno. (2011). Teknologi pengolahan air limbah rumah sakit. Jurnal Pembangunan Dan Alam Lestari, 1(2), 72–139.
Said, N. I. (2018). Paket Teknologi Pengolahan Air Limbah Rumah Sakit Yang Murah Dan Efisien. Jurnal Air Indonesia, 2(1), 52–65.
Stroili, M., Pavan, E. C., Gorela, M., & Kenda, F. (2015). The dimensioning and development of hospital electric installations to guarantee the continuity of use of the therapeutic and diagnostic system. Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society, EMBS, 2015-Novem, 1211–1214.
Suharto. (2016). Analisis Penghematan Energi Listrik Pada Rumah Sakit Umum Daerah Dokter Soedarso Pontianak Ditinjau Dari Desain Instalasi. Elkha, 8(1), 13–19.
Wahyu Pramon, E., Karnoto, K., & Nurhayati, T. (2018). Evaluasi Instalasi Listrik Pada Gedung Multi Centre of Excellent (Mce) Rumah Sakit Islam Sultan Agung Semarang. ELEKTRIKA, 9(1), 17.
Zhang, G., Li, C., & Lu, S. (2019). Analysis of Fire Evacuation in High-rise Hospitals from a High-rise Hospital Fire Case. 2019 9th International Conference on Fire Science and Fire Protection Engineering, ICFSFPE 2019.
Zhang, W., & Yao, Z. (2010). A reformed lattice gas model and its application in the simulation of evacuation in hospital fire. IEEM2010 - IEEE International Conference on Industrial Engineering and Engineering Management, 1543–1547.
Zurimi, S., W, D. A., & Yudhastuti, R. (2016). Evaluation of the implementation fire emergency response in Hospital of Jombang District. Engineering, Technology, and Sciences, 17(1), 15–33.