Process Safety Management in the Oil and Gas Industry

AbstractThis cover stick outs a backchat of abut dependablety forethought applied to the spheric crude crude and spatter assiduity. The vastness of maintaining regular encounter assessments and surroundal impact assessments has been indicated upon the completion of this research. The centralize of the guinea pig is on integrating different management tools, such(prenominal) as EIA and HSE-MS, to evaluate the potential ventures pertaining to organic evolution projects in the vegetable inunct and splash perseverance. In addition, the report explores item lessons wise to(p) from the defence industriousness, indicating that HSE management organizations whitethorn be effectively applied to the oil and artillery industry as well. existenceThe occurrence of dis confusable incidents and hazards occurring in the oil and flatulency industry is sooner frequent, thereby necessitating the adoption of effective and reliable measures to lower such risks (Ovind and Sne ve, 2004). It has been argued that Health, sentry go and Environment heed Systems (HSE-MS) suck a despotic impact on the operation of global oil and catalyst companies considering the high level of the true of assessments provided by this management tool (Bergh et al., 2014). The objective of the present report is to explore the feasibility of cultivate rubber management in the oil and gas industry.Process pencil eraser Management in the vegetable oil and Gas constancySignifi push asidet aspects canister be learned in improving benevolent factors in the oil and gas industry from industries, such as aviation, atomic forefinger and defence. However, the oil and gas industry reasons specific challenges that can prove it difficult to apply image process and standards that have led to positive vector sums in other industries (Ramirez et al., 2013). The suppuration of various processes and standards has adhered to meet the call for rising in the global oil and gas i ndustry. Scientific research extensively guidancees on the psychology of how irrationality and cognitive biases may lead to pathetic risk assessment and improper conclusion-making processes. Thus, the necessity to create practical and impartial solutions is urgent than ever (Bergh et al., 2014).The introduction of Health, golosh and Environment Management Systems (HSE-MS) is crucial part of this process. Basic elements of HSE-MS include commitment to impound leadership practices, set of clear goals and objectives, and undertaking stern risk evaluation and control procedures (Ash, 2010). When organisations in the oil and gas industry adhere to these aspects of their overall management, positive results can be judge in the long term. Communication among all divisions of organisations should be ensured in set up to meet the expectations of all s defyholders in the industry. Management should provide commitment and soulal involvement in health, safeguard and the environmen t as a whole (Zimolong and Elke, 2006). A proper expectation that could be indicated relates to consideration a personal simulation of following major(ip) HSE rules. The decisions that could be make should consider aspects of quality, cost, morale, and achievement.In the process of introducing HSE principles in the oil and gas industry, it should be pointed out that allocation of resources should be done effectively in an adjudicate to carry out some of the or so cardinal functions of HSE. The development of topical anesthetic HSE policies should be in stock certificate with corporate objectives and standard as relating to the oil and gas industry (Ramirez et al., 2013). Setting objectives for continuous improvement should be the focal point of introducing such policies. All levels of management should be involved in similar processes to achieve optimal efficiency and productivity. In addition, certain objectives should be developed to mitigate risk within organisations ope rate in the oil and gas industry. The stage of risk evaluation and management should be systematically introduced in oil and gas companies in order to adhere to major HSE management guidelines that may contribute to decreasing the risk of incidents in this industry (Zimolong and Elke, 2006). This step is associated with the establishment of a proper methodology that outlines acute and inveterate hazards including their perceived effects. Moreover, it is strategic to conduct flexible hazard assessments at the design, development and operating stages. The application of risk management tools may materially admirer oneself the process of achieving of the set policy objectives.It has been set that an effective legislative broadcast requires three essential dimensions mightful and well-resources regulations, background accountability parameters to drive appropriate behaviours in the industry, and ensuring solid industry support (Berg et al., 2014). The globalisation of HSE issue s for the oil and gas industry should be explored in order to demonstrate a process of setting high standards of carrying into action in the field. In 2011, the European counsel released a serial of legislative proposals to guarantee offshore caoutchouc (Ramirez et al., 2013). The focus on preserving the natural environment has been properly maintained. HSE policies atomic number 18 expected to compensate oil spill and emergency answer prep aredness, quality assurance and management systems. The utmost goal of similar initiatives is to ensure a healthy and safe environment for employees in oil and gas companies as well as for residents of different countries (Ash, 2010).The conduct of circumstance trading operations from the oil and gas industry should be done with the consideration of strict professional standards for sentry duty. In fact, the safety of employees should be headn into consideration as well as the environment and economic values. In general, oil and gas companies are committed to maturation of proper systems for monitoring of their technical facilities and plants. The occurrence of various incidents in the industry, such as the Macondo incident, the US incision of the Interior undertook drastic measures in 2011 to mitigate risks in this sector (Haight, 2013). Two new agencies were created to monitor a series of operations and activities in the Gulf of Mexico, as these are the Bureau of Safety and Environmental Enforcement (BSEE) and the Bureau of Offshore Energy Management (BOEM). In addition, the Department was responsible for issuing new and more(prenominal) effective regulations to address the specific spots and functioning of these two agencies (Bergh et al., 2014). Product specifications along with emission controls and climate turn programmes have contributed to the development of proper and highly effective HSE systems. It can be suggested that these aspects can have a significant impact on the production and profitabil ity of different products introduced by oil and gas companies.Moreover, there are certain environmental laws that require organisations that operate in this industry to prepare all areas in which particular incidents or unauthorised release of various hazardous materials have taken place. It can be anticipated that HSE laws and regulations can have a rather positive impact on the operations of oil and gas companies (Zimolong and Elke, 2006). However, it may be challenging to indicate what would be the potential future effects of certain legislations adopted in the stage setting of the global oil and gas industry. There may be risks associated with HSE cost and liabilities, which may be evident in the activities of global oil and gas companies. Thus, such organisations recognise the importance of implementing solid HSE standards and management tools to facilitate the proceeding of certain outcomes (Ash, 2010).One of the legislative frameworks that provide substantial information o n applying HSE standards in the oil and gas industry is the IADC HSE fictitious character Guidelines. These guidelines provide a framework for create an integrate health, safety and environmental management system for use in reducing the risks associated with offshore and onshore drilling activities (International standstill of Drilling Contractors, 2014). The significant of the guidelines reflects in the adoption of high standards that can help in change magnitude global health, safety and environmental awareness in relation to the oil and gas industry. The worldwide acceptance of the guidelines in countries such as Australia, Canada, South Africa and Cuba implies their universal applicability to solve uphill challenges in the respective industry (Ash, 2010). The need to assist regulatory authorities nigh the world may contribute to the delivery of standards and principles that are closely custom-built to correspond to the needs of oil and gas companies. Emphasis is put on re assuring that the most proper industry practices have been implemented in terms of health, safety and environmental concerns.Lessons from the Nuclear Power of the Defence diligenceThus, the focus can be shifted to learning important lessons from the thermonuclear power of the defence industry. One of the crucial lessons learned so far is that of interaction considering that different legislations throughout the world may demonstrate the adoption of similar greetes to mitigate risks in the oil and gas industry (Bergh et al., 2014). Interaction emerging at all stages of the assessments is important to make sure that all needs of the stakeholders in the industry are met. Another lesson that can be learned from the defence industry and applied to the oil and gas industry relates to price of admission to information. It is essential to understand that particular parts of the development projects may oblige classified information (Zimolong and Elke, 2006). Such details may be signif icant in the process of carrying out the intended assessment procedures. Timing in like manner is a valuable lesson that can be drawn from the defence industry in terms of focussing on all points during the project preparation stage. It should be signly noted that assessments involving EIA and HSE-MS tools serve as an adequate decision support system that should be available in a seasonable manner.Analysis of Human Failure parcel to Process RiskIn order to gain understanding of serviceman reliability and accident causation, it is important to focus on various HSE management tools including HAZID, HEMP and HAZOP. One of the most powerful tools for the identification of major hazards and risks, which can be implemented in the global oil and gas industry, is HAZID (Ovind and Sneve, 2004). Its use is recommended to be done archaean to demonstrate greater precision and accuracy of results. The key benefits of HAZID include agile identification and correction of potential deviations , providing records of hazards to avoid and mitigate further risks in the global oil and gas industry (Rausand, 2013). The method actually tallys a design-enabling tool used to enhance the HSE parameters in particular projects.Furthermore, the Hazards and Effects Management Process (HEMP) was designed to present a highly structured approach to analysing various hazards in the life cycle pertaining to installation processes in the industry. This method refers to a three-day session in which participants are provided with significant information on risk management and essential HEMP principles, including HEMPs affair in the HSE management systems (Bergh et al., 2014). The management tool identify as HAZOP has been withal found useful in positioning and mitigating risks pertaining to the global oil and gas industry. The initial use of this instrument has been considered for the proper identification of hazards through flowsheets and diagrams. It also implements safety audit after s everal months of operation (Rausand, 2013). Specific procedures considered by oil and gas companies refer to determining the precise degree of hazard and expected change as well as a consideration of the flog case accident that may occur as a result of the modification. In addition, the management tool requires the appointment of a competent, qualified person to comply with the strict requirements for HAZOP (Ramirez et al., 2013).Case Study of in operation(p) Events at mercantile Nuclear Power PlantsHowever, it is important to focus on the aspects of human trial constituent to process risk as applicable to various events that take place at power plants. The main tools that have been implemented to identify safety events, in which human failure contribution to process risk was investigated, refer to the Nuclear regulatory Commission (NRC) Accident Sequence harbinger (ASP) Program and the Human Performance Events Database (HPED). Events in this case were selected on the dry land of SPAR analyses that contributed to a proper estimation of human errors that eventually increase risks to the completion of these events (Rausand, 2013). In addition, different human error categories and subcategories have been identified to demonstrate greater accuracy of findings. The formation of categories took place in line with their frequency of occurrence (Gertman et al., 2001). Major categories included command, control, resource allocation, operator actions, communications, design deficiencies, design change testing, configuration management, as well as procedures of upkeep and monitoring of various work processes (Zimolong and Elke, 2006).It has been argued that human failure substantially contributed to process risk in relation to operating events. For instance, seven human errors have been identified to contribute to the emergence of numerous event failures in the identified power plants. Another challenge that has been observed in this case study referred to the lac k of attention to recurrent problems (Ash, 2010). In fact, the lack of attention and mission to recurrent problems was estimated in approximately 41% of the operating events (Gertman et al., 2001). Such oversight mostly related to improper NRC inspection findings, industry notices, and vendor notices. Operating with known design deficiencies also created certain problems at the moneymaking(prenominal) nuclear power plants. Human failure was evident in the inability or error to follow plant and industry trends as well as provide timely responses to industry notices (Ramirez et al., 2013).Active human errors were identified as quite problematic pertaining to command and control and resource allocation failures, amounting to around 28%. For instance, it has been indicated that command and control between Oconee Unit 2 1992 and Keowee hydroelectric station turned out to compromise or challenge the response from the plant (Gertman et al., 2001). The tasks performed by Keowee staff se emed to have involveed emergency power at Oconee without receiving proper notifications from control room management. This is a clear example of how human failure contributed to increased risks of operating events. In this relation, it is essential to set out human actions in pre-initiator categories and post-initiator categories (Rausand, 2013). Pre-initiator actions are recognised as actions that may affect the availability of systems and elements associated with the response to incidents. Such actions mostly include errors in restoring particular systems after maintenance procedures at the plants (Zimolong and Elke, 2006). Post-initiator human actions represent a example of responses to incidents occurring in the power plants, as they may be also recuperation actions in terms of restoring certain failed systems.It can be suggested that latent human errors mostly suppose a direct relation with pre-initiator human actions, as they are further related to numerous failures in the system. Therefore, it can be concluded that the results obtained from this case study indicated that human performance contributed essentially to increasing risks in analysed operating events (Bergh et al., 2014). Human failures to correct known problems have been often identified along with errors made during design and maintenance activities at commercial nuclear power plants. Thus, the results of this case study demonstrate that multiple errors occurring in operating events contribute to the so-called probabilistic risk assessment (PRA) canonical events which are evident in SPAR models (Gertman et al., 2001).Importance of EIA and HSE-MSIn order to improve practice of the oil and gas industry, the introduction of HSE management systems should take place in line with the integration of Environmental seismic disturbance opinion (EIA). It is essential to clarify that EIA is defined as a process by which a projects impact on the environment is mensural (Department of the Environ ment, Community and Local Government, 2013). In case the likely effects are identified as unacceptable, professionals in the field are responsible for developing effective mitigation strategies to reduce such a perceived proscribe impact. Thus, EIA is a crucial tool used in managing the complex interrelations between development and the environment (Rausand, 2013). The examination of the environmental consequences of development actions is done in a structured manner based on multidisciplinary approaches applicable to the global oil and gas industry. The integration of EIA and HSE-MS tools may adequately facilitate the functioning of oil and gas companies. The primary goal of these management tools is to ensure strict compliance with germane(predicate) legislations and standards in the field of operation (Bergh et al., 2014). It is of crucial importance that all HSE hazards are identified and handled in a timely manner. Their general assessment is a proper step towards ensuring t hat all criteria for adequate performance have been met.The integration of these assessments allows for accurate procedures implemented in the context of risk management for oil and gas companies worldwide. For instance, it may be indicated that various development projects that involve the use of radioactive material and nuclear fuel represent serious risks and hazards, which should be extensively assessed through the frameworks of EIA and HSE-MS (Abaza et al., 2004). Global oil and gas companies are held responsible for ensuring that all dimensions pertaining to human health, environment and security are primitively considered prior to the accomplishment of particular projects. Thus, importance is placed on risk assessment and environmental impact assessment of planned activities in the oil and gas industry (Rausand, 2013). As a result, such organisations are committed to improve their internal procedures that play a key role in conducting risk assessment and environmental impac t assessment. In this context, a viable measure would be to screen all nuclear safety project proposals to ensure that such assessment procedures are done appropriately. superfluous requirements for compliance may be specified by the authorities in particular countries in which oil and gas companies operate (Ash, 2010).International measures should be constantly improved in relation to the integration of EIA and HSE-MS measures (Zimolong and Elke, 2006). This aspect may lead to extensive support for initiating a co-ordinated international action to demonstrate high-quality environmental impact assessment and risk assessment pertaining to projects developed in the oil and gas industry. An overall risk assessment is fundamental in order to ensure that all development projects are completed in a cost-efficient and secure manner. These aspects should be considered in the process of setting certain priorities in the operation of oil and gas companies (Ramirez et al., 2013). Such thoroug h assessments may direct efforts to generate necessary funds for the completion of more urgent tasks in the industry.ConclusionIn conclusion, this paper provided a relevant exploration of process safety management in the global oil and gas industry. Specific arguments have been introduced in order to emphasise the important role of HSE-MS tools, which combined with EIA, may contribute to greater efficiency and safety of work practices in oil and gas companies around the world (Rausand, 2013). The paper focuses on discussing the effectiveness of HSE management systems. In addition, human failure contribution was analysed as related to process risk evident at operating events in commercial nuclear power plants. Another aspect defined in the report included the integration of EIA and HSE-MS tools that may lead to break-dance recognition and maintenance of risks identified in the oil and gas industry (Bergh et al., 2014). In conclusion, providing accurate assessments is associated with the delivery of positive outcomes in this industry.ReferencesAbaza, H., Bisset, R. and Sadler, B. (2004). Environmental Impact sound judgment and Strategic Environmental Assessment Towards an Integrated Approach. UNEP online. getable at http//www.unep.ch/etu/publications/textONUbr.pdf Accessed on 28 Nov. 2014.Ash, J. (2010). New Nuclear Energy, Risk, and Justice Regulatory Strategies for an Era of Limited Trust. Politics &038 Policy, vol. 38(2) 255-284.Bergh, L. I., Hinna, S. and Leka, S. (2014). Sustainable Business lend oneself in a Norwegian Oil and Gas Company. coeval Occupational Health Psychology Global positionings on Research and Practice, vol. 3 198-217.Department of the Environment, Community and Local Government (2013). Guidelines for Planning Authorities and An Bord Pleanala on Carrying out Environmental Impact Assessment online. Available at http//www.environ.ie/en/Publications/DevelopmentandHousing/Planning/FileDownLoad,32720,en.pdf Accessed on 28 Nov. 2014.Gertm an, D. I., Hallbert, B. P., Parrish, M. W., Sattision, M. B., Brownson, D. and Tortorelli, J. P. (2001). Review of Findings for Human Error Contribution to Risk in Operating Events. NUREG online. Available at http//www.nrc.gov/reading-rm/doc-collections/nuregs/contract/cr6753/cr6753.pdf Accessed on 28 Nov. 2014.Haight, J. M. (2013). Process Safety Regulations around the World. Handbook of dismission Prevention Engineering, vol. 1&0382 463-499.International Association of Drilling Contractors (2014). IADC HSE Case Guidelines online. Available at http//www.iadc.org/iadc-hse-case-guidelines/ Accessed on 28 Nov. 2014.Ovind, A. K. and Sneve, M. (2004). Environmental Impact Assessment and Risk Assessment in Northwestern Russia-from a Norwegian Perspective. IAEA Organisation online. Available at http//www.iaea.org/OurWork/ST/NE/NEFW/CEG/documents/ws032004_Ovind.pdf Accessed on 28 Nov. 2014.Ramirez, P. A., Utne, I. B. and Haskins, C. (2013). application program of Systems Engineering to I ntegrate Ageing Management into Maintenance Management of Oil and Gas Facilities. Systems Engineering, vol. 16(3) 329-345.Rausand, M. (2013). Risk Assessment Theory, Methods, and Applications. New York Wiley.Zimolong, B. M. and Elke, G. (2006). Occupational Health and Safety Management. Handbook of Human Factors and Ergonomics 671-707.