HAZARD IDENTIFICATION AND RISK CONTROL ON THE NICU-PONEK BUILDING CONSTRUCTION PROJECT OF TABANAN REGIONAL GENERAL HOSPITAL
Abstract
In the implementation of construction projects, management of the project work time so that the project is completed on time, but in reality on the ground there are still many things that can hamper the work of the project, one of which is a work accident that occurs to project workers.. In the process of building the NICU-Ponek Building, workers on the project are very rarely using Personal Protective Equipment, even though it has been provided by the company. Based on this, the authors devised this plan with the aim of minimizing the risk of work accidents through the process of hazard identification, risk assessment, and continued risk control. This planning method was done by qualitative method by explaining variables at the hazard identification stage and processing data at the risk assessment stage. Quantitative methods are also used against questionnaire results at the risk assessment stage including validity tests. The results of planning at the hazard identification stage through the "Expert Test" questionnaire resulted in 74 variables and 290 indicators that will be influential and continue to the end of the risk assessment questionnaire. At the risk assessment phase through a risk assessment questionnaire produces 3 types of risk levels, namely low risk rating, moderate and high risk rating which is further controlled by advanced risk controlling. Based on the results of the risk assessment questionnaire, there are 32 variables and 38 indicators that have a high rating of risk carried out by means of technical control and administrative control.
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[2] Ijin, I., Panas, K., Bbb, P. T., Timur, J., & Rinawati, S. Level of Safe Behavior With The Implementation Of Hot Work Permit Approach In PT. BBB East Java. Journal of Vocational Health Studies, Vol. 01, p 89–96. 2018.
[3] Supriyadi, & Ramdan, F. Boiler Menggunakan Metode Hazard Identification Risk Assessment And Risk Control (HIRARC). Journal of Industrial Hygiene and Occupational Health, Vol. 1, No. 2, p 161–178. 2017.
[4] Min, J., Kim, Y., Lee, S., Jang, T., Kim, I., & Song, J. The Fourth Industrial Revolution and Its Impact on Occupational Health and Safety , Worker ’ s Compensation and Labor Conditions. Safety and Health at Work, Vol. 10. No. 4, p 400–408. 2019.
[5] Yoon, S. J., Lin, H. K., Chen, G., Yi, S., Choi, J., & Rui, Z. Effect of Occupational Health and Safety Management System on Work-Related Accident Rate and Differences of Occupational Health and Safety Management System Awareness between Managers in South Korea ’ s Construction Industry. Safety and Health at Work, Vol. 4, No. 4, p 201–209. 2013.
[6] W. Victoria, “Kasus Kecelakaan Kerja di Indonesia Terus Meningkat,” AYOJAKARTA.COM, Jakarta, 2020.
[7] Tear, M. J., Reader, T. W., Shorrock, S., & Kirwan, B. Safety culture and power : Interactions between perceptions of safety culture , organisational hierarchy , and national culture. Safety Science, Vol. 121, p 550–561. 2020.
[8] Hamid, A.R.A., Majid, M.Z.A., Singh, B. Causes of Accidents At Construction Sites. Malaysian J. Civil Eng. Vol. 20, No. 2, p 242–259. 2008.
[9] Yilmaz, F. Monitoring and analysis of construction site accidents by using accidents analysis management system in Turkey. J. Sustain. Develop. Vol. 8, No. 2, p 57. 2015.
[10] J. U. Duncombe, “Infrared navigation—Part I: An assessment of feasibility (Periodical style),” IEEE Trans. Electron Devices, vol. ED-11, pp. 34–39, Jan. 1959.
[11] S. Chen, B. Mulgrew, and P. M. Grant, “A clustering technique for digital communications channel equalization using radial basis function networks,” IEEE Trans. Neural Networks, vol. 4, pp. 570–578, Jul. 1993.
[12] Triswandana, E, “Penilaian Risiko K3 dengan Metode HIRARC,” UKaRsT., vol. 4, no. 1, 2020.
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