Comparative Analysis of the Requirements for Hazard Identification and Risk Assessment of the International Code ISO 45001:2018 and the Russian Requirements in the Field of Industrial and Occupational Safety

Indonesian Navy ships (KAL) is one element of the Integrated Fleet Weapon System (SSAT), which plays an important role in carrying out tasks in the defense field. So, we need an optimal KAL readiness to support the passage of the operation to be carried out successfully and smoothly. One of the ways used to prepare KAL is to carry out routine maintenance through the docking process. However, in practice there are accidents suffered by workers.This research was conducted using the HIRARC method. HIRARC is a method of hazard identification, risk assessment and risk control measures that are used for this method is considered moreappropriate and more accurately where the dangers that arise in the process described docking of any work activity. In this method also provides appropriate control measures for each hazard. Based on the results of the HIRARC analysis, each suction work activity of docking based Risk Ranking will be sorted according to the level of Risk Matrix and will be discussed further against high risks and implemented controls. Then the resulting draft recommendation to minimize workplace accidents in the docking process is by way of elimination, Administration Control and Use of PPE (Personal Protective Equipment).Keywords: HIRARC method, Docking process, KAL.

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RISK MANAGEMENT OF OCCUPATIONAL SAFETY AND HEALTH IN KRI DOCKING PROJECT USING HAZARD IDENTIFICATION, RISK ASSESSMENT AND RISK CONTROL (HIRARC) METHOD CASE STUDY: PT. PAL INDONESIA

JOURNAL ASRO ◽

10.37875/asro.v10i2.131 ◽

2019 ◽

Vol 10 (2) ◽

pp. 76

Author(s):

Rega Dinatha Putra ◽

Benny Sukandari ◽

Wihartono Wihartono

Keyword(s):

Risk Assessment ◽

Occupational Safety ◽

Risk Control ◽

Hazard Identification ◽

Control Measures ◽

Work Activity ◽

Risk Ranking ◽

Safety And Health ◽

Workplace Accidents ◽

The Republic

The Republic of Indonesia warship (KRI) is one of the elements of the Integrated Fleet Weapon System, which has an important function in carrying out existing tasks in the defense sector. So that KRI readiness is needed optimally to support the operation to be carried out successfully. One way that is used to prepare the KRI is to carry out routine maintenance through the docking process. But in its implementation, there are still accidents experienced by workers. This research was conducted using the Hazard Identification, Risk Assessment and Risk Control (HIRARC) method. HIRARC is a method of hazard identification, risk assessment, and risk control measures. This method is considered more precise and more accurate where the dangers that arise in the docking process are explained from each work activity. This method also provides appropriate control measures for each hazard. Based on the results of this HIRARC analysis, in each work activity docking based on Risk Ranking will be sorted according to the level of Risk Matrix and will be discussed further against high risk and implemented controls. Then the recommendations produced to minimize workplace accidents in the docking process are by elimination, Administration Control and Use of PPE (Personal Protective Equipment). Keywords: HIRARC Method, Docking, PT. PAL Indonesia.

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Hazard Identification and Risk Assessment in Water Treatment Plant considering Environmental Health and Safety Practice

E3S Web of Conferences ◽

10.1051/e3sconf/20183106011 ◽

2018 ◽

Vol 31 ◽

pp. 06011

Author(s):

Fajrul Falakh ◽

Onny Setiani

Keyword(s):

Risk Assessment ◽

Water Treatment ◽

Occupational Safety ◽

Treatment Plant ◽

Water Treatment Plant ◽

Hazard Identification ◽

Occupational Safety And Health ◽

Control Measures ◽

Safety And Health ◽

Environment Control

Water Treatment Plant (WTP) is an important infrastructure to ensure human health and the environment. In its development, aspects of environmental safety and health are of concern. This paper case study was conducted at the Water Treatment Plant Company in Semarang, Central Java, Indonesia. Hazard identification and risk assessment is one part of the occupational safety and health program at the risk management stage. The purpose of this study was to identify potential hazards using hazard identification methods and risk assessment methods. Risk assessment is done using criteria of severity and probability of accident. The results obtained from this risk assessment are 22 potential hazards present in the water purification process. Extreme categories that exist in the risk assessment are leakage of chlorine and industrial fires. Chlorine and fire leakage gets the highest value because its impact threatens many things, such as industrial disasters that could endanger human life and the environment. Control measures undertaken to avoid potential hazards are to apply the use of personal protective equipment, but management will also be better managed in accordance with hazard control hazards, occupational safety and health programs such as issuing work permits, emergency response training is required, Very useful in overcoming potential hazards that have been determined.

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PENERAPAN METODE 5R (RINGKAS, RAPI, RESIK, RAWAT, RAJIN) DAN IDENTIFIKASI POTENSI BAHAYA DI GUDANG BAHAN KIMIA LABORATORIUM MIPA

Industrika: Jurnal Ilmiah Teknik Industri ◽

10.37090/indstrk.v4i1.188 ◽

2020 ◽

Vol 4 (1) ◽

Author(s):

Riana Septiani, ◽

◽

Mirandi Pratiwi ◽

Keyword(s):

Risk Assessment ◽

Occupational Safety ◽

Hazard Identification ◽

Accident Risk ◽

Pareto Chart ◽

Safety Hazard ◽

A Value ◽

Work Accidents ◽

Index Value ◽

High Level

Abstract This research is about Application of 5R methods ((Ringkas, Rapi, Resik, Rawat, Rajin) and indentification of hazard potential in Chemical Warehouse. And it aims to improve the work environment in the laboratory by using the 5R work method and identify potential hazards contained. Analysis of the two problems was carried out using several methods, namely for the implementation of warehouse layout with the 5R method, and for work safety using hazard identification & risk assessment using Pareto Chart Analysis to discuss the level of work accident risk from the highest to the lowest, and proceed by using a Fishbone Chart Analysis to analyze the types of work accidents from the factors that cause the risk of accidents. The index value before the application of 5R has a value of 20%, while the index value after improvement is 75.6% and the result of hazard identification has 23 hazard risks from 7 activities with an area that has a very high level of hazard risk. Keywords: 5R, occupational safety, hazard identification, risk assessment, work accidents, Chemical Warehouse

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A Risk Assessment Method and Safety Plan for a University Research Lab

Volume 16: Safety Engineering, Risk Analysis and Reliability Methods ◽

10.1115/imece2008-67286 ◽

2008 ◽

Author(s):

Gregory G. Kremer ◽

Timothy J. Ryan ◽

Shyler Switzer

Keyword(s):

Risk Assessment ◽

Occupational Safety ◽

Electrostatic Precipitator ◽

Operating Experience ◽

Assessment Method ◽

Hazard Identification ◽

Research Center ◽

Flow Diagram ◽

Safety Plan ◽

New Research

Risk management processes follow relatively well established steps, but the hazard identification and risk assessment steps often depend heavily on “experts” with relevant expertise and operating experience. This paper presents a tool developed to help novice researchers identify and assess hazards more efficiently. The hazard identification tool was developed in the form of an updatable algorithm, based initially on previous risk assessments for similar situations as well as checklists and guidelines available from academic texts, Occupational Safety and Health Act (OSHA), and industry. Major risk categories included in the algorithm include: a) Ergonomics and Mechanical, b) Chemical, c) Physical (including Electrical Hazards, Fire Safety, Noise Hazards, and Radiation Hazards), d) Psychological and Organizational, and e) Biological. In the initial test of the algorithm, a team of non-experts used the algorithm to identify risks for two Ohio Coal Research Center (OCRC) projects dealing with solid oxide fuel cell and electrostatic precipitator testing. Their results were comparable to the list of risks generated by a group of “research experts” without the algorithm. Future plans include making the algorithm available on a wiki platform to collaboratively develop it with the combined knowledge, experience and perspectives of all participating researchers. This paper also describes the overall safety plan for the Ohio Coal Research Center (OCRC), which operates within the Institute for Sustainable Energy and the Environment (ISEE) at Ohio University. An OCRC safety flow diagram is presented that has been successfully used to improve the safety of new research projects being led by new researchers.

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Penerapan Metode HIRADC pada Bagian Proses Penerimaan di PT. CA

Journal Industrial Manufacturing ◽

10.31000/jim.v6i2.4992 ◽

2021 ◽

Vol 6 (2) ◽

pp. 87

Author(s):

Dian Friana Hidayat ◽

Joko Hardono

Keyword(s):

Risk Assessment ◽

Occupational Safety ◽

Spare Parts ◽

Current Control ◽

Hazard Identification ◽

Potential Hazard ◽

Flow Process ◽

Hazard Control ◽

Limb Injuries ◽

Work Accidents

Every job has the opportunity of the risk because occurrence of work accidents can be caused by various factors. PT. CA is a large distributor of motorcycle spare parts which has activities including receiving goods from fabrication and then storing them in temporary warehouses before being distributed to dealers in various regions. The company's activities have a large potential for accidents due to several operations. To hazard identification, risk assessment, and determining control in any work that occurs or has the potential to occur, it is necessary to analyze using HIRADC. The method used is a descriptive method described in the flow process and then identified possible hazards that occur in each activity step. After the identification process is complete, a risk assessment is carried out to determine the form of control. The object of research is the receiving section of the work area. The results of this study are that the receiving section has 7 existing activities and there are 20 potential hazards that are possible, from these potentials the current control is to maximize APD to minimize danger. The highest level of risk is substantial in the activity of moving cargo to temporary storage or inspection areas with a potential danger of crashing into workers which has an impact on limb injuries, fractures, and even death, so this activity is a concern to avoid work accidents. In addition, it is determined that hazard control is carried out by means of forklift lanes that are not allowed to be passed by workers and control recommendations are in the form of setting SOPs, ensuring that forklifts complete their activities to carry out inspections. Keywords: Occupational safety, potential hazard, identification, risk, control, HIRADC

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COMPARATIVE ANALYSIS OF METHODS FOR RISK ASSESSMENT - “KINNEY” AND “AUVA”

10.7562/se2013.3.03.04 ◽

2013 ◽

Vol 3 (3) ◽

Author(s):

Milena Stanković ◽

Vladana Stanković

Keyword(s):

Risk Assessment ◽

Comparative Analysis ◽

Fire Protection ◽

Occupational Safety ◽

Environmental Safety ◽

Occupational Safety And Health ◽

Safety And Health ◽

The Subject ◽

The Moment ◽

Entire Economy

Individuals, entire economy and society are exposed to risks more than ever. The problem of occupational safety and health has been present from the moment of origin of labour and it has been dealt with in line with the overall development of society. For this reason,different methods and matrices for risk assessment have been developed. The subject of this study is to review the methods of risk assessment, as well as to apply these methods at the workplace where dangers and hazards occur. The aim of the study was to use KINNEY and AUVA methods for assessing risk for the workplace of Operating Engineer - Occupational Safety, Environmental Safety and Fire Protection, and to perform a comparative analysis of with the aim to state possible advantages or disadvantages of chosen methods. Key words:the risk assessment, methods of risk assessment, KINNEY method,AUVA method.

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Biological risk assessment: A challenge for occupational health and safety practitioners during the COVID-19 (SARS-CoV-2) Pandemic

Work ◽

10.3233/wor-205302 ◽

2021 ◽

pp. 1-11

Author(s):

Carlos Carvalhais ◽

Micaela Querido ◽

Cristiana C. Pereira ◽

Joana Santos

Keyword(s):

Risk Assessment ◽

Occupational Safety ◽

Assessment Method ◽

Occupational Safety And Health ◽

Risk Level ◽

Biological Risk ◽

Occupational Risks ◽

Qualitative Risk Assessment ◽

Safety And Health ◽

Medium Risk

BACKGROUND: The COVID-19 global pandemic brought several challenges to occupational safety and health practice. One of these is the need to (re)assess the occupational risks, particularly, biological risks. OBJECTIVE: The purpose of this work is to promote guidance to occupational safety and health practitioners when conducting a biological risk assessment in this context. METHODS: The main steps of the biological risk assessment are explained with some inputs regarding the novelty posed by SARS-CoV-2 and an example of a qualitative risk assessment method is presented. Also, its application to two different activities was exemplified. RESULTS: In both cases, the assessment considered that vulnerable workers were working from home or in medical leave. The results showed low or medium risk level for the assessed tasks. For medium risk level, additional controls are advised, such maintain social distancing, sanitize instruments/equipment before use, use proper and well-maintained PPE (when applicable), and promote awareness sessions to spread good practices at work. Employers must be aware of their obligations regarding biological risk assessment and OSH practitioners must be prepared to screen and link the abundance of scientific evidence generated following the outbreak, with the technical practice. CONCLUSIONS: This paper could be an important contribution to OSH practice since it highlights the need to (re)assess occupational risks, especially biological risk, to ensure a safe return to work, providing technical guidance.

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