RISK ANALYSIS WITH THE HIRARC METHOD ON INSTALLATION STEEL BOX GIDER CONSTRUCTION OF ALOHA FLYOVER SIDOARJO
DOI:
https://doi.org/10.56127/ijst.v3i1.1194Keywords:
HIRARC, risk, steel box girderAbstract
Research on the Aloha flyover construction project aims to determine the risks that occur in the workmanship of installing steel box girder, knowing the level of risk that occurs in the workmanship of installing steel box girder and knowing how to control the risks that occur in the workmanship of installing steel box girder. The method used in this research is the Hazard Identification Risk Assessment and Risk Control (HIRARC) method guided by the Malaysia HIRARC Guidelines (2008). Starting from identifying hazards at each stage of the work activity, a risk assessment is carried out, the results of which can be used as a reference for risk control, to reduce the risk of work accidents. The results of the analysis from the identification of hazards and risks arising in 5 stages of work and a total of 11 potential hazard findings were obtained. (1) Preparation stage for steel box girder erection maneuver; (2) The process of leveling/compacting the erection area soil for preparation of crawler crane footing/foundation; (3) The process of mobilizing steel box girder material from stockyard to erection area; (4) Installing slings + seals that will be used during steel box girder erection; (5) The process of installing steel box girder using crawler crane. The risk assessment results obtained a total of 11 potential hazard findings with details of 5 potential hazards with a percentage of risk value of 45.54% which is at a high level and 6 potential hazards with a percentage of risk value of 54.55% at a moderate level. The total number of risk level values is 132, with an average value of 12, meaning that the installation of steel box girder is at a moderate level. The results of risk control recommendations after obtaining the risk level value and analyzing the risk value, obtained 6 types of risk control in accordance with the risk control hierarchy, namely elimination, substitution, engineering control, warning system, administrative control, and personal protective equipment (PPE).
References
Guidelines for Hazard Identification, Risk Assessment and Risk Control (HIRARC). 2008. Department of Occupational Safety and Health Ministry of Human Resources Malaysia.
Inspiration, Muhammad Ade. 2021. SMK3 Analysis of Toll Road Development Work Accident Risk Using the HIRARC Method. Medan. Technical Faculty of Medan Area University.
Ibrahim. 2008. Analysis of the Implementation of the Occupational Safety and Health Management System (SMK3) in Building Construction Projects (Case Study: Sleman DPRD Building Construction Project, Yogyakarta). Yogyakarta. Indonesian Islamic University.
Juraman, Maria Fransiska Trinity & Michella Beatrix. 2023. Evaluation of the Implementation of Occupational Safety and Health (K3) Using the HIRARC Method on the Rigid Pavement Babat - Lamongan - Gresik Road Preservation Project. Journal of Industrial Engineering and Management Science. Vol. 3 No. June 1, 2023.
Kanugrahan, Tri Riaki, Asri Dwi Puspita, Sajiyo. 2022. Analysis of the Implementation of the Occupational Safety and Health Management System Using the HIRARC Method at PT. AGR UNITS ARF. Journal of Industrial and Systems Optimization. Vol. 5 No. December 2, 2022.
Lensun, Tania G.B, Revo L. Ingkiriwang, & Jermias Tjakra. 2022. Occupational Health and Environmental Safety (K3L) Risk Analysis Using the HIRADC Method on the Bridge and Oprit Boulevard II Construction Project. Techno Journal. Vol. 20 No. 82 December 2022.
Moniaga, Fenny & Vanda Syela Rompis. 2019. Analysis of the Occupational Health and Safety Management System (SMK3) for Construction Projects Using the Hazard Identification and Risk Assessment Method. Realteach Journal. Vol. 15 No. 02 October 2019
Minister of Public Works Regulation Number: 05/PRT/M/2014 concerning Guidelines for Occupational Safety and Health Management Systems (SMK3) for Construction in the Public Works Sector.
Ramli, Soehatman, 2010. OHSAS 18001 Occupational Safety and Health Management System. PT. Dian Rakyat, Jakarta
Salsabilla Fradia Ray. 2023. Occupational Health and Safety (K3) Risk Analysis Using the HIRARC (Hazard Identification Risk Assessment and Risk Control) Method on the Temajuk – Aruk Road Construction Project. Yogyakarta. Faculty of Industrial Engineering, Islamic University of Indonesia.
