HAZOP vs HIRA ( Hazard & Risk Management )

HAZOP vs HIRA ( Hazard & Risk Management )

HAZOP and HIRA

HAZOP and HIRA are both methods used in risk management to identify and evaluate potential hazards in a system or process. However, they differ in their approach and application.

Hazard and Operability Study, is a structured and systematic method used to identify potential hazards and operability problems in a process or system. It is a qualitative technique that involves a team of experts who review the process systematically and identify potential deviations from the intended design or operation. 

It focuses on identifying potential causes and consequences of the deviations and recommends appropriate measures to mitigate them.

On the other hand, HIRA, which stands for Hazard Identification and Risk Assessment, is a more comprehensive approach to risk management that involves identifying, analysing, and evaluating the potential hazards and associated risks in a process or system. 

HIRA takes a more quantitative approach, using various tools and techniques to assess the likelihood and consequence of each hazard and determine the risk associated with each. The HIRA process typically involves identifying the hazards, assessing the risk, and developing appropriate measures to control or eliminate the risk.

In summary, HAZOP is a more focused technique that identifies potential hazards and operability problems in a process or system, while HIRA is a broader approach that assesses the overall risk associated with a process or system and identifies appropriate measures to mitigate the risk. 

Both techniques are important tools for managing risk and ensuring safety in various industries.

Difference between HAZOP vs HIRA

HAZOP and HIRA are two different techniques used in risk management, and they differ in terms of their approach, focus, and scope. Hazard and Operability Study, is a qualitative technique that involves a systematic review of a process or system to identify potential hazards and operability problems. 

The process involves a team of experts who analyse the process step by step and identify potential deviations from the intended design or operation, the team then assesses the potential causes and consequences of each deviation and recommends appropriate measures to mitigate the associated risk. 

In contrast, HIRA is a more comprehensive approach to risk management that involves identifying, analysing, and evaluating potential hazards and associated risks in a broader scope, including the workplace environment, activities, and other related factors. 

HIRA takes a more quantitative approach, using various tools and techniques to assess the likelihood and consequence of each hazard and determine the risk associated with each. The HIRA process typically involves identifying the hazards, assessing the risk, and developing appropriate measures to control or eliminate the risk. 

The focus of HIRA is to determine the overall risk of the entire process or system, taking into account all possible sources of hazard.

HAZOP and HIRA differ in their approach, focus, and scope. HAZOP is a focused qualitative technique that identifies specific hazards and associated risk within a process or system, while HIRA is a broader quantitative approach that assesses the overall risk of a process or system and takes into account various factors that contribute to the risk. Both techniques are important tools for managing risk and ensuring safety in various industries.

Can industry conduct HAZOP and HIRA together

Yes ! , an industry can conduct HAZOP and HIRA together as both techniques serve different purposes in the overall risk management process. Both techniques are complementary, and when used together, they can provide a more comprehensive understanding of the risks and hazards associated with a process or system.

While HAZOP is a focused qualitative technique that is used to identify potential hazards and operability problems within a specific process or system, HIRA is a broader quantitative approach that assesses the overall risk associated with a process or system, taking into account all possible sources of hazard. 

Conducting together can provide a more complete picture of the risks associated with a process or system, HAZOP can help identify specific hazards and risks associated with a process, while HIRA can provide a more in-depth analysis of the overall risks associated with the process, taking into account all possible sources of hazard. The two techniques can help identify areas of the process that require attention and suggest appropriate risk reduction measures.

Conducting together can provide a more complete risk management process for industries, providing a comprehensive understanding of the risks associated with a process or system.

Industries that applies HAZOP & HIRA to analyse.

HAZOP and HIRA are two commonly used risk assessment techniques that can be applied in a wide range of industries. Some of the industries that apply HAZOP and HIRA to analyze potential risks include:

  1. Chemical and Petrochemical industries:  Identify and assess potential hazards associated with the manufacturing and storage of hazardous materials.

  2. Oil and Gas industries: Analyse the risks associated with exploration, drilling, and transportation of oil and gas.

  3. Pharmaceutical industry: Identify potential hazards associated with the manufacturing and storage of pharmaceuticals.

  4. Manufacturing industry: Analyse potential hazards associated with the production and storage of goods.

  5. Power generation industry: Identify potential hazards associated with the operation and maintenance of power plants.

  6. Mining industry: Analyse potential hazards associated with the extraction and processing of minerals.

  7. Transportation industry: Potential hazards associated with the movement of goods and people.

Both can be applied to a wide range of industries to identify and assess potential hazards associated with the production, storage, transportation, and handling of various materials and products.

Steps involves in conduct HAZOP & HIRA effectively

 

Steps for conducting HAZOP:
 
  1. Define the scope and objectives of the study: Identify the process or system that will be studied and define the objectives of the HAZOP study.

  2. Form the HAZOP team: Assemble a team of experienced and knowledgeable individuals who can identify potential hazards and recommend appropriate risk reduction measures.

  3. Conduct a process analysis: Analyze the process or system under study and develop a detailed understanding of the design and operating parameters.

  4. Identify the deviations: Identify the deviations that could occur from the intended design or operating conditions that could lead to potential hazards.

  5. Evaluate the consequences: Evaluate the consequences of the identified deviations and determine the likelihood of their occurrence.

  6. Recommend risk reduction measures: Recommend risk reduction measures to reduce the likelihood or consequences of the identified deviations.

  7. Document the findings: Document the findings of the HAZOP study, including the identified hazards and risk reduction measures, and provide recommendations for further action.

Steps for conducting HIRA:
 
  1. Identify the hazards: Identify all possible sources of hazards associated with the process or system under study.

  2. Assess the likelihood: Assess the likelihood of each identified hazard occurring and the frequency of exposure to the hazard.

  3. Assess the consequences: Assess the consequences of each identified hazard, including the severity of the potential impact and the likelihood of harm to people or the environment.

  4. Calculate the risk: Calculate the level of risk associated with each identified hazard by combining the likelihood and consequence assessments.

  5. Prioritize the risks: Prioritize the identified hazards based on their level of risk and the potential impact on people, the environment, and the business.

  6. Recommend risk reduction measures: Recommend risk reduction measures for each identified hazard, taking into account the potential impact on the business and the cost of implementing the measures.

  7. Document the findings: Document the findings of the HIRA study, including the identified hazards, risk assessment, risk reduction measures, and recommendations for further action.

This Study requires a systematic and comprehensive approach that includes identifying potential hazards, assessing their likelihood and consequences, prioritizing the risks, and recommending appropriate risk reduction measures. 

It is also important to document the findings and provide recommendations for further action.

Major advantages of HAZOP and HIRA

 
Advantages of HAZOP:

 

  1. Identification of potential hazards: HAZOP helps to identify potential hazards and operability problems that may not be apparent from standard design or operation.

  2. Systematic approach: HAZOP follows a systematic approach, ensuring that all aspects of a process or system are reviewed, which helps to ensure that potential hazards are not overlooked.

  3. Effective communication: HAZOP encourages effective communication and collaboration between team members, which can help to ensure that potential hazards are identified and assessed accurately.

  4. Identification of potential cost savings: HAZOP can identify potential cost savings by recommending changes to design or operation that can reduce risks and improve efficiency.

  5. Compliance with regulations: HAZOP can help industries comply with safety regulations by identifying potential hazards and risks associated with their processes or systems.

Advantages of HIRA:
 
  1. Comprehensive approach: HIRA takes a comprehensive approach to risk management, analyzing all possible sources of hazard and assessing the likelihood and consequence of each hazard.

  2. Quantitative analysis: HIRA uses quantitative tools and techniques to assess the risk associated with each hazard, providing a more accurate assessment of the overall risk of a process or system.

  3. Cost-effective: HIRA can be a cost-effective way to manage risk, as it helps industries identify the most significant hazards and prioritize risk reduction measures.

  4. Improved safety: HIRA can help improve safety in the workplace by identifying potential hazards and recommending appropriate risk reduction measures.

  5. Compliance with regulations: HIRA can help industries comply with safety regulations by identifying potential hazards and risks associated with their processes or systems.

There have several advantages, including identifying potential hazards, promoting effective communication and collaboration, identifying potential cost savings, complying with regulations, taking a comprehensive approach, and providing a more accurate assessment of risk.

Disadvantages

Disadvantages of HAZOP:
 
  1. Time-consuming: HAZOP can be a time-consuming process, especially for complex systems or processes, and may require a significant investment of resources.

  2. Dependent on the experience and expertise of the team: HAZOP requires a team of experienced and knowledgeable individuals who can identify potential hazards and recommend appropriate risk reduction measures.

  3. Limited to design and operating stage: HAZOP is primarily focused on the design and operating stage of a process or system and may not be suitable for identifying hazards associated with maintenance or decommissioning.

  4. Limited quantitative analysis: HAZOP is a qualitative technique, and while it can identify potential hazards, it may not provide a quantitative assessment of the risk associated with each hazard.

Disadvantages of HIRA:
 
  1. Dependent on the quality of data: HIRA requires a significant amount of data to be collected and analyzed, and the accuracy and completeness of the data can impact the quality of the risk assessment.

  2. Limited by the scope of analysis: HIRA is limited to the hazards that have been identified, and it may not identify new or emerging hazards that have not been previously considered.

  3. Complexity: HIRA can be a complex and time-consuming process, especially for large and complex systems or processes, and may require specialized expertise and resources.

  4. Limited by the accuracy of risk models: HIRA relies on the accuracy of risk models, and the results of the assessment may be impacted by the quality and accuracy of the risk models used.

Both have several advantages, they also have some potential disadvantages that should be considered before deciding to use them. 

It is important to weigh the advantages and disadvantages of each technique and to select the most appropriate approach for the specific process or system being assessed.

Levels if risk involved

There are different ways to categorize and describe levels of risk, but one commonly used approach is to define risk levels based on the combination of the likelihood or probability of the event occurring and the potential consequences or severity of the event. Here is an example of one such risk level classification:

  1. Low risk: Events that are unlikely to occur and have minimal consequences if they do occur.

  2. Medium risk: Events that have a moderate likelihood of occurring and have moderate consequences if they do occur.

  3. High risk: Events that are highly likely to occur and have significant consequences if they do occur.

  4. Very high risk: Events that are almost certain to occur and have catastrophic consequences if they do occur.

This risk level classification can be used to help prioritize hazards and develop appropriate risk reduction measures.

For example, hazards that fall under the high or very high risk categories would require more immediate attention and more significant risk reduction measures compared to hazards that fall under the low or medium risk categories.

NOTE : Exact definitions and thresholds for each risk level may vary depending on the context and specific application of the risk assessment. 

The risk level classification should also be combined with a qualitative and/or quantitative analysis of the risks to provide a more complete understanding of the potential impacts and inform risk management decisions.

Accuracy & Loopholes

The accuracy and potential loopholes in a HAZOP or HIRA study can depend on various factors, such as the quality of the data used, the expertise of the team conducting the study, and the assumptions made during the analysis. Here are some potential sources of inaccuracies and loopholes:

  1. Incomplete data: HAZOP and HIRA studies require accurate and complete data to identify hazards and assess risks. Incomplete or inaccurate data can result in incorrect or incomplete hazard identification and risk assessment.

  2. Biases or assumptions: The HAZOP or HIRA team may have biases or make assumptions that can influence the outcome of the study. For example, assumptions about the likelihood or severity of hazards can impact the risk assessment and recommendations for risk reduction measures.

  3. Limited scope: HAZOP and HIRA studies are typically focused on a specific process or system, and may not consider all possible hazards or risks that could impact the organization or environment.

  4. Lack of implementation: Even if the HAZOP or HIRA study accurately identifies hazards and assesses risks, the effectiveness of the recommendations for risk reduction measures will depend on their implementation and ongoing maintenance.

  5. Changing conditions: The hazards and risks associated with a process or system can change over time, and a HAZOP or HIRA study conducted at a specific point in time may not accurately reflect the current risks.

To minimize inaccuracies and loopholes in a HAZOP or HIRA study, it is important to ensure that the data used is accurate and complete, the team conducting the study is experienced and knowledgeable, biases and assumptions are minimized, the scope is comprehensive, recommendations are implemented and maintained, and the study is updated periodically to reflect changing conditions. 

It is also important to engage stakeholders and incorporate their feedback into the study to ensure that the risks identified and risk reduction measures recommended are relevant and effective.

Average cost to conduct HAZOP and HIRA

The cost can also depend on the expertise of the team conducting the study, the number of personnel involved, and the time required to complete the study.
 

In general, the cost of a HAZOP or HIRA study can range from a few thousand dollars to several hundred thousand dollars or more, depending on the factors mentioned above. Some organizations may opt to conduct the study in-house to reduce costs, while others may choose to hire a specialized consultant or firm to conduct the study.

It is important to note that the cost of the study should be considered in the context of the potential risks and consequences of the process or system being analysed. In many cases, the cost of a HAZOP or HIRA study may be small compared to the potential cost of a hazardous event or accident. Therefore, investing in a thorough and comprehensive HAZOP or HIRA study can be an effective way to mitigate risks and prevent costly accidents or incidents

cost in numbers
 

The cost to conduct a HAZOP or HIRA study can vary widely based on several factors.

  1. Small-scale study:  cost between $5,000 and $15,000.

  2. Medium-scale study: cost between $20,000 and $50,000.

  3. Large-scale study: cost between $100,000 and $500,000 or more.

The actual cost of a HAZOP or HIRA study can vary significantly based on the specific requirements of the study. Additionally, these costs do not include any follow-up actions or implementation costs that may be required to address any hazards or risks identified during the study.

Shreenath

Shreenath

ESG Consultant / BD / Author @ Rampart.ai
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