Research Article
Implementation of Risk Management Based on ISO 31000 as a Risk Prevention Strategy for Diesel Fuel Receiving and Distribution Facilities
@INPROCEEDINGS{10.4108/eai.31-3-2022.2320944, author={Febryan Dewantara and Ervin Egidius and Harummi Sekar Amarilies}, title={Implementation of Risk Management Based on ISO 31000 as a Risk Prevention Strategy for Diesel Fuel Receiving and Distribution Facilities}, proceedings={Proceedings of the 1st International Conference on Contemporary Risk Studies, ICONIC-RS 2022, 31 March-1 April 2022, South Jakarta, DKI Jakarta, Indonesia}, publisher={EAI}, proceedings_a={ICONIC-RS}, year={2022}, month={8}, keywords={iso 31000 diesel fuel jsa risk management assessment}, doi={10.4108/eai.31-3-2022.2320944} }- Febryan Dewantara
Ervin Egidius
Harummi Sekar Amarilies
Year: 2022
Implementation of Risk Management Based on ISO 31000 as a Risk Prevention Strategy for Diesel Fuel Receiving and Distribution Facilities
ICONIC-RS
EAI
DOI: 10.4108/eai.31-3-2022.2320944
Abstract
The activity of receiving and distributing diesel fuel consists of several stages in which each of these activities has potential risks. To minimize these risks, good risk management is needed to prevent uncertainty with a methodological approach. The focus of this research is to identify risks at PT Rahardja Wirasakti Jaya Mandiri during the Covid-19 pandemic to analyze the risks that exist in each of these events and then provide recommendations. Job Safety Analysis (JSA) which refers to ISO 31000 is used for the identification, assessment, and management of existing risks. The JSA method is used to analyze and formulate prevention recommendations. In the process of receiving and distributing diesel fuel, there are 12 stages of activity with 33 potential hazards. Based on the measurement of likelihood and severity, there are 6 risks of high-level potential hazards and 27 risks of medium-level potential hazards.
