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Safety Engineering in Project Supervision.pptx

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Project by definition, have a beginning and end dates, be it oil and gas industry, agriculture or infrastructural development as well as other industrial development project across the country. All these projects in these sectors have direct and indirect linkage with economic growth therefore it has become so important that Safety Engineering is given it adequate attention its deserve in our society. No country grow without executing one project or another. Hence, the need for us to discuss about the safety engineering in project supervision which entails how we manage available resources to achieve project objective without compromising the safety of individual at the project site as well as the asset. Many project failed because adequate attention was not given to safety engineering at design phase

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SAFETY ENGINEERING IN PROJECT SUPERVISION B Y
INTRODUCTION • Project by definition, have a beginning and end dates, be it oil and gas industry, agriculture or infrastructural development as well as other industrial development project across the country. All these projects in these sectors have direct and indirect linkage with economic growth therefore it has become so important that Safety Engineering is given it adequate attention its deserve in our society. • No country grow without executing one project or another. Hence, the need for us to discuss about the safety engineering in project supervision which entails how we manage available resources to achieve project objective without compromising the safety of individual at the project site as well as the asset. Many project failed because adequate attention was not given to safety engineering at design phase
INTRODUCTION – WHAT IS SAFETY ENGINEERING? • Safety engineering is the process of designing workplaces to reduce risks/hazards or accidents. Engineering Safety concepts provides detailed approaches and modes for accident reduction by using a risk management process to identify and "design out" hazards. • Accidents can and do happen in all human endeavours because it involves activities. Workplaces and companies that make use of machinery, chemicals, and other potentially hazardous elements, are always possible sites for incident or accidents which may cause injury, or even death if a comprehensive engineering safety approach is not properly taken place. Therefore, safety engineering is about broad array of professionals working together in accident prevention through an in-built engineering design as part of control with both back-end planning and front-end implementation
HIERARCHY OF SAFETY CONTROLS Safety engineering in project supervision is about hierarchy of controls, which specifically entails: • Engineering controls by isolating people from the hazards; • Substitution by replace the hazards, and • Elimination which is removal of the hazards completely These three (3) requires technical safety to be able to achieve its primary objectives, more attention will be on Engineering Controls because is about isolating people from the hazards and it be the catalysis or basis for substitution and elimination
WHAT IS PROJECT SUPERVISION? Project supervision is the activity of monitoring the project process at the construction site, by ensuring that safety, quality and quantity comply with the approved design, current technical standards as well as issues on project progress as well as environmental concern. Why project supervision? 1. To ensure that the project is executed as per the specifications & planning. 2. To ensure that the contract is executed as per the contract drawings. 3. To ensure that there is safety on the project. 4.To supervise and direct labour on the activities to be executed. 5. To prepare work programs and cross check whether the project is on schedule and advise management accordingly 6. To have the daily report and cross checking the key indicators
WHY THE NEED FOR SAFETY ENGINEERING?
WHY THE NEED FOR SAFETY ENGINEERING? There have been over 5,000 marine oil spills from tanker, oil platform and pipeline accidents over the past 50 years. The red star shows the location of the Montara spill. The size of black dots reflects the total amount of oil spilt during each incident. Coloured lines depict worldwide commercial shipping tracks says Rob Condon of The Conversation, Australia Gas explosion in Abule Ado, Lagos leaves at least 15 people dead and around 50 buildings destroyed says Nigerian Emergency Management Authority (MENA)
WHY THE NEED FOR SAFETY ENGINEERING? Safety Engineering is needed in all human endeavours and should be taken seriously whenever we are ask to be part of any project. We must always ask for Safety philosophy of the project to understand the thinking of the project owners.
PREVIOUS ACCIDENT & ITS CAUSES
TYPES OF SAFETY ENGINEERING IN PROJECTS SAFETY ENGINEERING DEFINITION Process Safety Engineering Process safety engineering deals with the identification and mitigation of hazards in industrial processes, particularly those involving chemicals, petroleum, or other hazardous materials. It involves assessing risks, implementing safety measures, and designing systems to prevent and control incidents such as fires, explosions, toxic releases, or equipment failures Structural Safety Engineering Structural safety engineering focuses on ensuring the safety and stability of structures, such as buildings, bridges, dams, and offshore platforms. It involves analyzing the structural integrity, assessing loads and stresses, evaluating materials, and implementing measures to ensure the structures can withstand environmental forces and remain safe throughout their intended lifespan. System Safety Engineering System safety engineering involves the analysis and management of risks in complex systems, including aerospace, transportation, and industrial systems. It encompasses identifying potential hazards, evaluating safety-critical components, analyzing system interactions, and implementing measures to prevent accidents, failures, or malfunctions.
TYPES OF SAFETY ENGINEERING IN PROJECTS SAFETY ENGINEERING DEFINITION Occupational Health and Safety Engineering: Occupational health and safety engineering focuses on the identification and control of workplace hazards to protect workers' health and safety. It involves assessing workplace conditions, implementing safety protocols, designing ergonomic work environments, and promoting safe work practices to prevent accidents, injuries, and occupational illnesses. This the most common safety engineering. Software Safety Engineering Software safety engineering deals with the identification and mitigation of risks associated with software systems. It involves analyzing software functionality, identifying potential failure failure modes, and implementing measures to ensure software reliability, security, and safety. This field is particularly relevant in safety-critical industries such as aviation, healthcare, and automotive and by extension oil & gas Environmental Safety Engineering: Environmental safety engineering focuses on managing and mitigating risks related to environmental hazards. It involves assessing potential impacts on ecosystems, human health, and the environment, and implementing measures to prevent or minimize pollution, contamination, or other adverse effects on the environment Fire Safety Engineering: Fire safety engineering involves the design, analysis, and implementation of measures to prevent, control, and mitigate the risks associated with fires. It includes assessing fire hazards, designing fire protection systems, developing evacuation plans, and ensuring compliance with fire safety codes and regulations.
FRAMEWORK OF SAFETY ENGINEERING STUDIES - PLANNING SAFETY ENGINEERING DEFINITION OBJECTIVES Design Safety Cases The design safety case is a document containing an analysis risks, as well as information out of the design, operations, technical documentation about the minimum necessary measures to ensuring ensuring safety that accompanies the machine and (or) equipment at all stages of the life cycle and supplement the information about the results of the risk assessment at the stage of operation after after a major overhaul. The design safety case include an introduction and sections at minimum: 1. The main parameters and specifications of machine and (or) equipment; 2. A common approach to safety at designing of machines and (or) equipment; 3. Requirements for the reliability of the machine and (or) equipment; 4. Requirements for personnel / user of the machine and (or) equipment; 5. The risk analysis from application (use) machines and (or) equipment; 6. Safety requirements at commissioning the machine and (or) equipment; 7. Requirements for safety management at the operation of the machine and (or) equipment; 8. Requirements for quality management at the operation of machines and (or) (or) equipment; 9. Requirements for the management of environmental protection at start-up, operation and utilization of machines and (or) equipment; 10. Requirements for the collection and analysis of information on safety in the the commissioning, operation and utilization of machines and (or) equipment; 11. Safety requirements at the disposal of the machine and (or) equipment.
FRAMEWORK OF SAFETY ENGINEERING STUDIES - PLANNING TECHNICAL SAFETY DEFINITION OBJECTIVES Hazard & Operability Study (HAZOP) Is a structured and systematic examination of a complex plan or operation in order to identify and evaluate problems that may represent risks to personnel or equipment The intention of performing a HAZOP is to review the design to pick up design and engineering issues that may otherwise otherwise not have been found. The technique is based on breaking the overall complex design of the process into a number of simpler sections called 'nodes' which are then individually reviewed. It is carried out by a suitably experienced multi-disciplinary team (HAZOP) during a series series of meetings. The HAZOP technique is qualitative, and aims to stimulate the imagination of participants to identify potential hazards and operability problems Safety and Operability Studies (SAFOP) Use a structured approach to assessing the safety and operability of electrical power systems to identify modifications to enhance the safety of personnel who will operate and maintain the equipment Assess and minimise potential hazards to personnel in the nearby of electrical installations. Provide a safety review of both the network and the plant design and pinpoint any issue related with safety and operability of whole electrical system Operational Safety Cases Operational safety case is a written demonstration of evidence and due diligence provided by a corporation to demonstrate that it has the ability to operate a facility safely and can effectively control hazards. Operational safety cases are somewhat similar to risk assessments as both involve the evaluation of potential hazards; however, a safety case must also include a positive argument to justify the various choices that have been made made to provide for the facility’s operational safety
FRAMEWORK OF SAFETY ENGINEERING STUDIES - PLANNING TECHNICAL SAFETY DEFINITION OBJECTIVES Hazard Identification (HAZID) HAZID is part of the process used to evaluate if any particular situation, item, thing, etc. may have the potential to cause harm. The term often used to describe the full process is risk assessment: Identify hazards and risk factors that have the potential to cause harm (hazard identification) (OSHA) • Conduct regular inspections of all operations, equipment, work areas areas and facilities. Have workers participate on the inspection team team and talk to them about hazards that they see or report. • Document inspections to correct and prevent hazardous conditions if possible take photos or video of problem areas to facilitate later discussion and brainstorming about how to control them, and for use as learning points. • Areas and activities in these inspections includes storage and warehousing, facility and equipment maintenance, purchasing and office functions, and the activities of on-site contractors, subcontractors, and temporary employees. • Regularly inspect both plant vehicles (e.g., forklifts, powered industrial trucks) and transportation vehicles (e.g., cars, trucks). • Use checklists that highlight things to look for such as General housekeeping; Slip, trip, and fall hazards; Electrical hazards; Work practices; Workplace violence; Ergonomic problems; Lack of emergency procedures Safety Integrity Level (SIL) Defined as the relative level of risk- reduction provided by a safety function, or to specify a target level of risk reduction. In simple terms, There are four discrete integrity levels associated with SIL: SIL 1, SIL 2, SIL SIL 3, and SIL 4. The higher the SIL level, the higher the associated safety safety level, and the lower probability that a system will fail to perform properly
FRAMEWORK OF SAFETY ENGINEERING STUDIES - PLANNING TECHNICAL SAFETY DEFINITION OBJECTIVES Layer of Protection Analysis (LOPA) It used to provide a more detailed, semi- quantitative assessment of the risks and layers of protection associated with hazard scenarios. The LOPA reveals the layers of protection available in case one of those those possibilities becomes reality, identifying any weaknesses that exist so they can be addressed. LOPA can be used at any point in the life cycle of any given project or process, but it is most cost effective when when implemented during front-end loading when process flow diagrams are complete and the P&IDs are under development Risk Management is the process of identifying, assessing and controlling financial, legal, strategic and security risks to an organization's capital and earnings. Risk management helps organization to strike balance between taking risks and reducing them They include risk identification; risk measurement and assessment; risk risk mitigation; risk reporting and monitoring; and risk governance.
FRAMEWORK OF SAFETY ENGINEERING STUDIES - IMPLEMENTATION SN SAFETY ENGINEERING WORK Branch of Safety Engineering 1 Pre-Mobilisation exercise of both equipment and personnel Occupational health and safety 2 Certification of Lifting accessories and critical equipment within the projects Process and structure safety engineering 3 Pep talks, Tool box meetings, HSE Meetings All 4 Safety Initiatives that promotes and encourage personal and equipment All 5 Risk Base Assessment as per API 580 All 6 Fire Fighting equipment installation and monitoring Fire Safety Engineering 7 Installation of monitoring camera Software Engineering 8 Measurement and Testing of equipment to validate acceptable parameters All Engineering 9 Retainer Clinic / Hospital for personnel working on the project for medical emergency emergency Occupational health and safety 10 Fumigation and Waste Management Exercise Environmental Engineering 11 Cube and slump test for civil Structure Safety Engineering 12 Structured and informal Audit Inspection All
2023 TITAN SUBMERSIBLE INCIDENT – CASE STUDY • On 18 June 2023, Titan, a submersible operated by Ocean Gate, an American tourism company owned by Stockton Rush and Guillermo Sohnlein, imploded during its descent in the North Atlantic Ocean, about 400 nautical miles (740 km) off the coast of Newfoundland, Canada on it way to visit Titianic wreckage with all five five people on board, all of them died instantly • In a 2022 interview, Rush told CBS News, "At some point, safety just is pure waste. I mean, if you just want to be safe, don't get out of bed. Don't get in your car. Don't do anything."Rush said in a 2021 interview, "I've broken some rules to make [Titan]. I think I've broken them with logic and good engineering behind me. The vessel did not pass through any safety regulation or certifications, three of the passengers are billionaire plus additional two passengers (Co-owner of the Oceangate) and pilot, all perished.
TAKE HOME FOR NISafetyE IMO STATE BRANCH • Safety engineering is extensive and a structured way of ensuring a product or services will be reliable and meets its design life span • We must always be deliberate about safety compliance, enforcement, and never to be tired or compromise • We must engage the government at local, state and national including individuals on the importance of safety • We must do more of both formal and informal training on safety engineering, safety practice in Nigeria is still as basic level we need to move our standards • The Imo State branch must continue to engage stakeholders on safety engineering in all projects within the state e.g technicians, artisans and others • We must commence the process of engaging the legislative arm of the government in putting laws in place that will include safety engineering processes in all work locations within the state via ministry of works and housing as well as environment • If possible, safety on air program can be in place to discuss about safety in general • Finally, the whole country is waiting for us to launch out, enough of our comfort zone, let safe our dear nation
Safety Engineering in Project Supervision.pptx

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Safety Engineering in Project Supervision.pptx

  • 2. INTRODUCTION • Project by definition, have a beginning and end dates, be it oil and gas industry, agriculture or infrastructural development as well as other industrial development project across the country. All these projects in these sectors have direct and indirect linkage with economic growth therefore it has become so important that Safety Engineering is given it adequate attention its deserve in our society. • No country grow without executing one project or another. Hence, the need for us to discuss about the safety engineering in project supervision which entails how we manage available resources to achieve project objective without compromising the safety of individual at the project site as well as the asset. Many project failed because adequate attention was not given to safety engineering at design phase
  • 3. INTRODUCTION – WHAT IS SAFETY ENGINEERING? • Safety engineering is the process of designing workplaces to reduce risks/hazards or accidents. Engineering Safety concepts provides detailed approaches and modes for accident reduction by using a risk management process to identify and "design out" hazards. • Accidents can and do happen in all human endeavours because it involves activities. Workplaces and companies that make use of machinery, chemicals, and other potentially hazardous elements, are always possible sites for incident or accidents which may cause injury, or even death if a comprehensive engineering safety approach is not properly taken place. Therefore, safety engineering is about broad array of professionals working together in accident prevention through an in-built engineering design as part of control with both back-end planning and front-end implementation
  • 4. HIERARCHY OF SAFETY CONTROLS Safety engineering in project supervision is about hierarchy of controls, which specifically entails: • Engineering controls by isolating people from the hazards; • Substitution by replace the hazards, and • Elimination which is removal of the hazards completely These three (3) requires technical safety to be able to achieve its primary objectives, more attention will be on Engineering Controls because is about isolating people from the hazards and it be the catalysis or basis for substitution and elimination
  • 5. WHAT IS PROJECT SUPERVISION? Project supervision is the activity of monitoring the project process at the construction site, by ensuring that safety, quality and quantity comply with the approved design, current technical standards as well as issues on project progress as well as environmental concern. Why project supervision? 1. To ensure that the project is executed as per the specifications & planning. 2. To ensure that the contract is executed as per the contract drawings. 3. To ensure that there is safety on the project. 4.To supervise and direct labour on the activities to be executed. 5. To prepare work programs and cross check whether the project is on schedule and advise management accordingly 6. To have the daily report and cross checking the key indicators
  • 6. WHY THE NEED FOR SAFETY ENGINEERING?
  • 7. WHY THE NEED FOR SAFETY ENGINEERING? There have been over 5,000 marine oil spills from tanker, oil platform and pipeline accidents over the past 50 years. The red star shows the location of the Montara spill. The size of black dots reflects the total amount of oil spilt during each incident. Coloured lines depict worldwide commercial shipping tracks says Rob Condon of The Conversation, Australia Gas explosion in Abule Ado, Lagos leaves at least 15 people dead and around 50 buildings destroyed says Nigerian Emergency Management Authority (MENA)
  • 8. WHY THE NEED FOR SAFETY ENGINEERING? Safety Engineering is needed in all human endeavours and should be taken seriously whenever we are ask to be part of any project. We must always ask for Safety philosophy of the project to understand the thinking of the project owners.
  • 9. PREVIOUS ACCIDENT & ITS CAUSES
  • 10. TYPES OF SAFETY ENGINEERING IN PROJECTS SAFETY ENGINEERING DEFINITION Process Safety Engineering Process safety engineering deals with the identification and mitigation of hazards in industrial processes, particularly those involving chemicals, petroleum, or other hazardous materials. It involves assessing risks, implementing safety measures, and designing systems to prevent and control incidents such as fires, explosions, toxic releases, or equipment failures Structural Safety Engineering Structural safety engineering focuses on ensuring the safety and stability of structures, such as buildings, bridges, dams, and offshore platforms. It involves analyzing the structural integrity, assessing loads and stresses, evaluating materials, and implementing measures to ensure the structures can withstand environmental forces and remain safe throughout their intended lifespan. System Safety Engineering System safety engineering involves the analysis and management of risks in complex systems, including aerospace, transportation, and industrial systems. It encompasses identifying potential hazards, evaluating safety-critical components, analyzing system interactions, and implementing measures to prevent accidents, failures, or malfunctions.
  • 11. TYPES OF SAFETY ENGINEERING IN PROJECTS SAFETY ENGINEERING DEFINITION Occupational Health and Safety Engineering: Occupational health and safety engineering focuses on the identification and control of workplace hazards to protect workers' health and safety. It involves assessing workplace conditions, implementing safety protocols, designing ergonomic work environments, and promoting safe work practices to prevent accidents, injuries, and occupational illnesses. This the most common safety engineering. Software Safety Engineering Software safety engineering deals with the identification and mitigation of risks associated with software systems. It involves analyzing software functionality, identifying potential failure failure modes, and implementing measures to ensure software reliability, security, and safety. This field is particularly relevant in safety-critical industries such as aviation, healthcare, and automotive and by extension oil & gas Environmental Safety Engineering: Environmental safety engineering focuses on managing and mitigating risks related to environmental hazards. It involves assessing potential impacts on ecosystems, human health, and the environment, and implementing measures to prevent or minimize pollution, contamination, or other adverse effects on the environment Fire Safety Engineering: Fire safety engineering involves the design, analysis, and implementation of measures to prevent, control, and mitigate the risks associated with fires. It includes assessing fire hazards, designing fire protection systems, developing evacuation plans, and ensuring compliance with fire safety codes and regulations.
  • 12. FRAMEWORK OF SAFETY ENGINEERING STUDIES - PLANNING SAFETY ENGINEERING DEFINITION OBJECTIVES Design Safety Cases The design safety case is a document containing an analysis risks, as well as information out of the design, operations, technical documentation about the minimum necessary measures to ensuring ensuring safety that accompanies the machine and (or) equipment at all stages of the life cycle and supplement the information about the results of the risk assessment at the stage of operation after after a major overhaul. The design safety case include an introduction and sections at minimum: 1. The main parameters and specifications of machine and (or) equipment; 2. A common approach to safety at designing of machines and (or) equipment; 3. Requirements for the reliability of the machine and (or) equipment; 4. Requirements for personnel / user of the machine and (or) equipment; 5. The risk analysis from application (use) machines and (or) equipment; 6. Safety requirements at commissioning the machine and (or) equipment; 7. Requirements for safety management at the operation of the machine and (or) equipment; 8. Requirements for quality management at the operation of machines and (or) (or) equipment; 9. Requirements for the management of environmental protection at start-up, operation and utilization of machines and (or) equipment; 10. Requirements for the collection and analysis of information on safety in the the commissioning, operation and utilization of machines and (or) equipment; 11. Safety requirements at the disposal of the machine and (or) equipment.
  • 13. FRAMEWORK OF SAFETY ENGINEERING STUDIES - PLANNING TECHNICAL SAFETY DEFINITION OBJECTIVES Hazard & Operability Study (HAZOP) Is a structured and systematic examination of a complex plan or operation in order to identify and evaluate problems that may represent risks to personnel or equipment The intention of performing a HAZOP is to review the design to pick up design and engineering issues that may otherwise otherwise not have been found. The technique is based on breaking the overall complex design of the process into a number of simpler sections called 'nodes' which are then individually reviewed. It is carried out by a suitably experienced multi-disciplinary team (HAZOP) during a series series of meetings. The HAZOP technique is qualitative, and aims to stimulate the imagination of participants to identify potential hazards and operability problems Safety and Operability Studies (SAFOP) Use a structured approach to assessing the safety and operability of electrical power systems to identify modifications to enhance the safety of personnel who will operate and maintain the equipment Assess and minimise potential hazards to personnel in the nearby of electrical installations. Provide a safety review of both the network and the plant design and pinpoint any issue related with safety and operability of whole electrical system Operational Safety Cases Operational safety case is a written demonstration of evidence and due diligence provided by a corporation to demonstrate that it has the ability to operate a facility safely and can effectively control hazards. Operational safety cases are somewhat similar to risk assessments as both involve the evaluation of potential hazards; however, a safety case must also include a positive argument to justify the various choices that have been made made to provide for the facility’s operational safety
  • 14. FRAMEWORK OF SAFETY ENGINEERING STUDIES - PLANNING TECHNICAL SAFETY DEFINITION OBJECTIVES Hazard Identification (HAZID) HAZID is part of the process used to evaluate if any particular situation, item, thing, etc. may have the potential to cause harm. The term often used to describe the full process is risk assessment: Identify hazards and risk factors that have the potential to cause harm (hazard identification) (OSHA) • Conduct regular inspections of all operations, equipment, work areas areas and facilities. Have workers participate on the inspection team team and talk to them about hazards that they see or report. • Document inspections to correct and prevent hazardous conditions if possible take photos or video of problem areas to facilitate later discussion and brainstorming about how to control them, and for use as learning points. • Areas and activities in these inspections includes storage and warehousing, facility and equipment maintenance, purchasing and office functions, and the activities of on-site contractors, subcontractors, and temporary employees. • Regularly inspect both plant vehicles (e.g., forklifts, powered industrial trucks) and transportation vehicles (e.g., cars, trucks). • Use checklists that highlight things to look for such as General housekeeping; Slip, trip, and fall hazards; Electrical hazards; Work practices; Workplace violence; Ergonomic problems; Lack of emergency procedures Safety Integrity Level (SIL) Defined as the relative level of risk- reduction provided by a safety function, or to specify a target level of risk reduction. In simple terms, There are four discrete integrity levels associated with SIL: SIL 1, SIL 2, SIL SIL 3, and SIL 4. The higher the SIL level, the higher the associated safety safety level, and the lower probability that a system will fail to perform properly
  • 15. FRAMEWORK OF SAFETY ENGINEERING STUDIES - PLANNING TECHNICAL SAFETY DEFINITION OBJECTIVES Layer of Protection Analysis (LOPA) It used to provide a more detailed, semi- quantitative assessment of the risks and layers of protection associated with hazard scenarios. The LOPA reveals the layers of protection available in case one of those those possibilities becomes reality, identifying any weaknesses that exist so they can be addressed. LOPA can be used at any point in the life cycle of any given project or process, but it is most cost effective when when implemented during front-end loading when process flow diagrams are complete and the P&IDs are under development Risk Management is the process of identifying, assessing and controlling financial, legal, strategic and security risks to an organization's capital and earnings. Risk management helps organization to strike balance between taking risks and reducing them They include risk identification; risk measurement and assessment; risk risk mitigation; risk reporting and monitoring; and risk governance.
  • 16. FRAMEWORK OF SAFETY ENGINEERING STUDIES - IMPLEMENTATION SN SAFETY ENGINEERING WORK Branch of Safety Engineering 1 Pre-Mobilisation exercise of both equipment and personnel Occupational health and safety 2 Certification of Lifting accessories and critical equipment within the projects Process and structure safety engineering 3 Pep talks, Tool box meetings, HSE Meetings All 4 Safety Initiatives that promotes and encourage personal and equipment All 5 Risk Base Assessment as per API 580 All 6 Fire Fighting equipment installation and monitoring Fire Safety Engineering 7 Installation of monitoring camera Software Engineering 8 Measurement and Testing of equipment to validate acceptable parameters All Engineering 9 Retainer Clinic / Hospital for personnel working on the project for medical emergency emergency Occupational health and safety 10 Fumigation and Waste Management Exercise Environmental Engineering 11 Cube and slump test for civil Structure Safety Engineering 12 Structured and informal Audit Inspection All
  • 17. 2023 TITAN SUBMERSIBLE INCIDENT – CASE STUDY • On 18 June 2023, Titan, a submersible operated by Ocean Gate, an American tourism company owned by Stockton Rush and Guillermo Sohnlein, imploded during its descent in the North Atlantic Ocean, about 400 nautical miles (740 km) off the coast of Newfoundland, Canada on it way to visit Titianic wreckage with all five five people on board, all of them died instantly • In a 2022 interview, Rush told CBS News, "At some point, safety just is pure waste. I mean, if you just want to be safe, don't get out of bed. Don't get in your car. Don't do anything."Rush said in a 2021 interview, "I've broken some rules to make [Titan]. I think I've broken them with logic and good engineering behind me. The vessel did not pass through any safety regulation or certifications, three of the passengers are billionaire plus additional two passengers (Co-owner of the Oceangate) and pilot, all perished.
  • 18. TAKE HOME FOR NISafetyE IMO STATE BRANCH • Safety engineering is extensive and a structured way of ensuring a product or services will be reliable and meets its design life span • We must always be deliberate about safety compliance, enforcement, and never to be tired or compromise • We must engage the government at local, state and national including individuals on the importance of safety • We must do more of both formal and informal training on safety engineering, safety practice in Nigeria is still as basic level we need to move our standards • The Imo State branch must continue to engage stakeholders on safety engineering in all projects within the state e.g technicians, artisans and others • We must commence the process of engaging the legislative arm of the government in putting laws in place that will include safety engineering processes in all work locations within the state via ministry of works and housing as well as environment • If possible, safety on air program can be in place to discuss about safety in general • Finally, the whole country is waiting for us to launch out, enough of our comfort zone, let safe our dear nation