A management primer on the recently revised saftey standards for stamping presses and press brakes to explain to senior management n straight forward terms what needs to be done and simple steps they can take to ensure compliance at their company.
Reliability Centred Maintenance is a process used to determine what must be done to ensure that any physical asset continues to fulfil its intended functions in its present operating context.
1. The document describes TPDDL's safety initiatives for employees and the public. It details the company's safety management structure, training programs, emergency response plans, and awareness campaigns.
2. TPDDL conducts extensive safety training for employees and contractors, holds safety competitions and oaths, and has response plans in place for emergencies. Audits and disciplinary actions help ensure safety compliance.
3. For the public, TPDDL runs awareness campaigns including street plays, warning signs, and discussions with communities to educate on electrical safety and preventing accidents.
A construction safety program has several key elements: assigning responsibilities; identifying and controlling hazards; providing training; documenting safety rules and enforcement. The program aims to maintain safe work conditions, set performance goals, reward safety, and review incidents to take corrective actions. Establishing safety objectives and including safety in performance reviews helps measure effectiveness. Benefits include reduced injuries, expenses, absenteeism and increased productivity and morale. Developing project-specific safety activities includes planning, defining roles, and identifying typical safety programs and top violations. Formulating a comprehensive safety plan requires a team effort to identify hazards and controls. Implementing and continually improving the work plan is essential to reducing injuries and maintaining a safe work environment.
Mines are recommended to implement Safety Management Plans to address key risk areas such as ventilation, spontaneous combustion, gas management, inundation, emergency evacuation, and transportation machinery. These plans should consist of two levels: a Management Overview Plan and individual Hazard Management Plans for each identified risk. The Management Overview Plan includes sections on introduction, scope, mine characteristics, hazard identification, and organizational responsibilities. Hazard Management Plans for each risk include controls, roles, resources, response plans, training, reviews, audits, and documentation. Comprehensive record keeping is also recommended.
This document provides an overview of reliability centered maintenance (RCM). It defines key RCM terms and outlines the history and objectives of RCM. The document discusses RCM principles such as being business-oriented and function-focused. It also describes some common RCM tools like FMECA and decision trees. Finally, it outlines the RCM analysis process including steps like defining system functions and analyzing failure modes.
Process Safety Life Cycle Management: Best Practices and ProcessesMd Rahaman
Learn how to transform your current process safety program to deliver intelligent and integrated safety solutions that can directly affect the bottom line, while simultaneously improving process and personnel safety.
Best Practices Amusement Rides Operation & Maintenance IAAPI HQ
The fifteenth webinar of Indian Association of Amusement Parks & Industries was a grand success.
The webinar was well attended by our members from all across the country.
We thank Mr. Rajesh C R from Wonderla Holidays Ltd for the knowledgeable and excellent presentation.
Incorporated in the year 1999, IAAPI is India's Apex Body representing the Amusement, Leisure & Recreation Industry in India.
Topic: Best Practices Amusement Rides Operation & Maintenance
Presenter: Mr. Rajesh C R, General Manager- Engineering, Wonderla Holidays Ltd
Date & Time: 29/June/2020 4-5.30pm IST
YouTube: https://youtu.be/hobtXqEw_G0
IAAPI Website: www.iaapi.org
IAAPI Facebook: https://www.facebook.com/IAAPIHq/
IAAPI Twitter: https://twitter.com/IAAPI_HQ
IAAPI LinkedIn: https://www.linkedin.com/in/iaapi-hq/
This document discusses upcoming changes to process safety management (PSM) regulations and standards. It notes several major industrial accidents in recent decades that prompted reforms. New PSM requirements in California will likely be adopted more widely and require more prescriptive tasks, reporting, and accountability. To ensure future PSM success, the document recommends: making no distinction between internal/external compliance; expanding the definition of mechanical integrity; understanding "double jeopardy"; not replacing investigations with management of change; knowing what the operations team is doing; and clarifying teamwork expectations regarding stop work authorizations.
Reliability Centred Maintenance is a process used to determine what must be done to ensure that any physical asset continues to fulfil its intended functions in its present operating context.
1. The document describes TPDDL's safety initiatives for employees and the public. It details the company's safety management structure, training programs, emergency response plans, and awareness campaigns.
2. TPDDL conducts extensive safety training for employees and contractors, holds safety competitions and oaths, and has response plans in place for emergencies. Audits and disciplinary actions help ensure safety compliance.
3. For the public, TPDDL runs awareness campaigns including street plays, warning signs, and discussions with communities to educate on electrical safety and preventing accidents.
A construction safety program has several key elements: assigning responsibilities; identifying and controlling hazards; providing training; documenting safety rules and enforcement. The program aims to maintain safe work conditions, set performance goals, reward safety, and review incidents to take corrective actions. Establishing safety objectives and including safety in performance reviews helps measure effectiveness. Benefits include reduced injuries, expenses, absenteeism and increased productivity and morale. Developing project-specific safety activities includes planning, defining roles, and identifying typical safety programs and top violations. Formulating a comprehensive safety plan requires a team effort to identify hazards and controls. Implementing and continually improving the work plan is essential to reducing injuries and maintaining a safe work environment.
Mines are recommended to implement Safety Management Plans to address key risk areas such as ventilation, spontaneous combustion, gas management, inundation, emergency evacuation, and transportation machinery. These plans should consist of two levels: a Management Overview Plan and individual Hazard Management Plans for each identified risk. The Management Overview Plan includes sections on introduction, scope, mine characteristics, hazard identification, and organizational responsibilities. Hazard Management Plans for each risk include controls, roles, resources, response plans, training, reviews, audits, and documentation. Comprehensive record keeping is also recommended.
This document provides an overview of reliability centered maintenance (RCM). It defines key RCM terms and outlines the history and objectives of RCM. The document discusses RCM principles such as being business-oriented and function-focused. It also describes some common RCM tools like FMECA and decision trees. Finally, it outlines the RCM analysis process including steps like defining system functions and analyzing failure modes.
Process Safety Life Cycle Management: Best Practices and ProcessesMd Rahaman
Learn how to transform your current process safety program to deliver intelligent and integrated safety solutions that can directly affect the bottom line, while simultaneously improving process and personnel safety.
Best Practices Amusement Rides Operation & Maintenance IAAPI HQ
The fifteenth webinar of Indian Association of Amusement Parks & Industries was a grand success.
The webinar was well attended by our members from all across the country.
We thank Mr. Rajesh C R from Wonderla Holidays Ltd for the knowledgeable and excellent presentation.
Incorporated in the year 1999, IAAPI is India's Apex Body representing the Amusement, Leisure & Recreation Industry in India.
Topic: Best Practices Amusement Rides Operation & Maintenance
Presenter: Mr. Rajesh C R, General Manager- Engineering, Wonderla Holidays Ltd
Date & Time: 29/June/2020 4-5.30pm IST
YouTube: https://youtu.be/hobtXqEw_G0
IAAPI Website: www.iaapi.org
IAAPI Facebook: https://www.facebook.com/IAAPIHq/
IAAPI Twitter: https://twitter.com/IAAPI_HQ
IAAPI LinkedIn: https://www.linkedin.com/in/iaapi-hq/
This document discusses upcoming changes to process safety management (PSM) regulations and standards. It notes several major industrial accidents in recent decades that prompted reforms. New PSM requirements in California will likely be adopted more widely and require more prescriptive tasks, reporting, and accountability. To ensure future PSM success, the document recommends: making no distinction between internal/external compliance; expanding the definition of mechanical integrity; understanding "double jeopardy"; not replacing investigations with management of change; knowing what the operations team is doing; and clarifying teamwork expectations regarding stop work authorizations.
Introduction to maintenance and safety managementNafis Ahmad
This document is a lecture on maintenance and safety management by Dr. Nafis Ahmad. It introduces the topics that will be covered, which include maintenance management and control, preventive maintenance, corrective maintenance, reliability centered maintenance, failure mode and effects analysis, and safety and maintenance. Key terms are defined, such as maintenance, preventive maintenance, corrective maintenance, predictive maintenance, reliability, and maintainability. Safety is defined as being free from harm, and hazards, stimuli, and accidents are also defined. The importance of effective maintenance practices is discussed.
Introduction of FMEA; Definition, Activities, important terms, factors, RPN; Process of FMEA; Steps of FMEA
Types of FMEA; FMEA Application; FMEA Related Tools:
Root Cause Analysis, Pareto Chart, Cause Effect Diagram
Process safety aims to prevent incidents involving hazardous materials that could endanger workers, property, and the environment. It involves applying engineering and operating practices to control hazards. Key elements of process safety management include process hazard analysis, operating procedures, employee participation, training, contractor management, pre-startup safety reviews, mechanical integrity programs, emergency response planning, compliance audits, and incident investigation. The goal is to anticipate, identify, evaluate, and control hazards to protect people and prevent accidents.
A real-world introduction to PSM’s 14 Elements360factors
A number of recent incidents in various parts of the world have highlighted the increasing importance of effective Process Safety Management (PSM). This webinar presents a high-level overview of OSHA’s PSM requirements as well as real-world examples of how companies handle compliance.
Objectives
• Describe some of the major catastrophes which led to the formulation of PSM regulations.
• Introduce the 14 Elements of PSM.
• Present examples of various implementation approaches.
This document provides an overview of mechanical components and maintenance for a Malaysian polytechnic handbook. It covers topics such as maintenance principles, procedures, lubrication, power transmission, bearings, clutches and brakes, pumps, valves and compressors. The document includes learning outcomes, definitions of maintenance, types of maintenance such as breakdown, preventive and predictive, and discusses safety practices, tools, costs and other aspects of maintenance. Chapters cover specific mechanical systems and components, how to inspect and maintain them, and develop maintenance procedures and checklists. Practical assemblies and disassemblies of components are also suggested as examples.
This document summarizes the key elements of Process Safety Management (PSM). It explains that PSM aims to protect employees, facilities, and the environment from process hazards through proper management principles. The core of PSM involves 14 elements including process hazard analysis, operating procedures, training, mechanical integrity, management of change, and emergency response. Each element is further described in the document to provide guidance on implementation and compliance. Resources like OSHA guidelines and training courses are also referenced to help facilities effectively apply PSM standards.
The document discusses Process Safety Management (PSM) and provides an overview of its key elements. PSM is a comprehensive management system that proactively avoids incidents in hazardous industries handling toxic chemicals. It integrates risk management across 14 elements, including employee participation, process hazard analysis, operating procedures, training, and compliance audits. The presentation aims to help organizations manage process safety risks in a more structured way.
TPM is a Japanese system of maintenance that originated in 1971 based on preventive maintenance concepts introduced from the US. The goal of TPM is zero breakdowns and zero losses through team-based productive maintenance involving all levels of an organization. Key aspects of TPM include autonomous maintenance by operators, planned maintenance, and elimination of six major losses: breakdowns, setup/adjustment, idling/minor stoppages, reduced speed, defects, and startup/yield. TPM aims to improve overall equipment effectiveness.
TPM is a Japanese system of maintenance that originated in 1971 based on preventive maintenance concepts introduced from the US. The goal of TPM is zero breakdowns and zero losses through team-based productive maintenance involving all levels of an organization. It differs from preventive maintenance approaches used in the US by emphasizing small group activities and operators taking responsibility for cleaning, oiling and inspecting equipment. Key aspects of TPM implementation include focused improvement, autonomous maintenance, planned maintenance, training and establishing maintenance standards.
The term Prestartup Safety Review (PSSR) first received prominence in the process industries with the introduction of the Process Safety Management (PSM) regulations.
This document discusses functional safety and the certification process for functional safety compliance. It begins with definitions of safety from standards like IEC Guide 51 and discusses functional safety and how it protects against injury from incorrect system functioning. It then covers topics like low and high demand safety modes as defined in IEC 61508-4, safety strategies, the safety lifecycle, and certification requirements. It focuses on the process from the perspective of a company seeking certification and outlines some of the documentation, testing, and auditing requirements involved.
This document discusses different types of maintenance for assets including aircraft. It defines maintenance as work carried out to preserve assets and enable continued use over their design life. The main types of maintenance discussed are: breakdown, preventive (periodic and predictive), and corrective. Periodic maintenance involves regular inspection and servicing, while predictive uses condition monitoring. Aircraft maintenance checks ranging from light A/B checks every 500-800 hours to comprehensive D checks every 5 years are also outlined. Nondestructive testing methods like liquid penetrant and eddy current are used during aircraft maintenance inspections.
The document discusses maintenance management and provides an overview of key concepts. It defines maintenance as work done to keep or restore a facility to an acceptable standard level. It discusses total maintenance costs and different maintenance policies including failure-based, time-based, condition-based, and risk-based approaches. It also compares different global maintenance strategies like total productive maintenance and optimized systems maintenance.
Welcome to the SMS Fundamentals presentation.
The core processes, elements and components that comprise a functional and robust Safety Management System will be explained.
These lessons will provide you a general understanding of the principles of a Safety Management System (SMS). Also it will provide you an understanding of the components, elements, and core processes that comprise a functional SMS.
Each organization must determine their safety needs and scale their SMS to meet those needs.
This document discusses updates to OSHA's silica rule, including new training materials, fact sheets, and videos about silica hazards. It provides details on engineering controls, exposure monitoring requirements, medical surveillance, and citations issued for violations. It also describes equipment that can help mitigate silica dust, such as exhaust systems, vacuums, sweepers, and blowing systems. Regular maintenance is important to ensure effectiveness of dust controls.
Critical Review of PSM In Petroleum Industry | Mr. Hirak Dutta, Executive Di...Cairn India Limited
This document summarizes the key points from a presentation on process safety management in India's petroleum industry. It notes that India has become a major exporter of petroleum products, with over 200 million metric tons of annual refining capacity and significant crude oil and gas production. It outlines the pillars of process safety like operational integrity and discusses taking a systemic approach. It emphasizes the importance of recognizing warning signs to avoid accidents and highlights lessons around focusing on leading indicators and inherent safety principles. The document concludes by outlining the Oil Industry Safety Directorate's focus on key drivers of process safety like procedures, hazard identification, and managing change.
This document provides information about Abhay Ocean India Pvt Ltd (AOIL), an Indian commercial diving company. It outlines AOIL's mission, vision, core values, policies, and the services it provides. AOIL has over 35 years of experience in commercial diving services such as inspections, repairs, construction, and salvage operations. It aims to provide these services safely and with a focus on customer satisfaction, environmental protection, and quality work.
The document discusses Process Hazard Analysis (PHA) and Management of Change requirements under the Process Safety Management standard. It emphasizes that PHA is the most difficult but important part of implementing PSM, as it identifies hazards and safeguards. The PHA must address all equipment, processes, incidents, controls, and consequences of failure. Management of Change procedures are also required to manage any changes to the covered process system and ensure related documentation and training are updated. The PHA and MOC work together to identify hazards, implement prevention, and manage any necessary changes to the process safely.
Dear Sir,
As we are FIRST for engineering contracting works (HVAC, Fire F, Plumb and Electrical), We would like to introduce ourselves to you as one of electromechani-cl Contractors in Egypt & U.A.E. our company was founded by Eng. Ahmed Zaher after a big experience in the huge construction projects in U.A.E. and Egypt, we have a very good team of engineers, technicians and very good technical office team to meet all the standards.
For more Information
Please call Eng Ahmed Zaher:-+201065457792/+971526123836
The document introduces a contracting company that provides HVAC, firefighting, plumbing and electrical systems and has experience in projects in Egypt and the UAE, listing their scope of work, licenses, policies, references and details about the founder and how to contact them. They have the required licenses and certifications and experience providing various mechanical, electrical, and plumbing systems for projects in Dubai and Egypt.
Introduction to maintenance and safety managementNafis Ahmad
This document is a lecture on maintenance and safety management by Dr. Nafis Ahmad. It introduces the topics that will be covered, which include maintenance management and control, preventive maintenance, corrective maintenance, reliability centered maintenance, failure mode and effects analysis, and safety and maintenance. Key terms are defined, such as maintenance, preventive maintenance, corrective maintenance, predictive maintenance, reliability, and maintainability. Safety is defined as being free from harm, and hazards, stimuli, and accidents are also defined. The importance of effective maintenance practices is discussed.
Introduction of FMEA; Definition, Activities, important terms, factors, RPN; Process of FMEA; Steps of FMEA
Types of FMEA; FMEA Application; FMEA Related Tools:
Root Cause Analysis, Pareto Chart, Cause Effect Diagram
Process safety aims to prevent incidents involving hazardous materials that could endanger workers, property, and the environment. It involves applying engineering and operating practices to control hazards. Key elements of process safety management include process hazard analysis, operating procedures, employee participation, training, contractor management, pre-startup safety reviews, mechanical integrity programs, emergency response planning, compliance audits, and incident investigation. The goal is to anticipate, identify, evaluate, and control hazards to protect people and prevent accidents.
A real-world introduction to PSM’s 14 Elements360factors
A number of recent incidents in various parts of the world have highlighted the increasing importance of effective Process Safety Management (PSM). This webinar presents a high-level overview of OSHA’s PSM requirements as well as real-world examples of how companies handle compliance.
Objectives
• Describe some of the major catastrophes which led to the formulation of PSM regulations.
• Introduce the 14 Elements of PSM.
• Present examples of various implementation approaches.
This document provides an overview of mechanical components and maintenance for a Malaysian polytechnic handbook. It covers topics such as maintenance principles, procedures, lubrication, power transmission, bearings, clutches and brakes, pumps, valves and compressors. The document includes learning outcomes, definitions of maintenance, types of maintenance such as breakdown, preventive and predictive, and discusses safety practices, tools, costs and other aspects of maintenance. Chapters cover specific mechanical systems and components, how to inspect and maintain them, and develop maintenance procedures and checklists. Practical assemblies and disassemblies of components are also suggested as examples.
This document summarizes the key elements of Process Safety Management (PSM). It explains that PSM aims to protect employees, facilities, and the environment from process hazards through proper management principles. The core of PSM involves 14 elements including process hazard analysis, operating procedures, training, mechanical integrity, management of change, and emergency response. Each element is further described in the document to provide guidance on implementation and compliance. Resources like OSHA guidelines and training courses are also referenced to help facilities effectively apply PSM standards.
The document discusses Process Safety Management (PSM) and provides an overview of its key elements. PSM is a comprehensive management system that proactively avoids incidents in hazardous industries handling toxic chemicals. It integrates risk management across 14 elements, including employee participation, process hazard analysis, operating procedures, training, and compliance audits. The presentation aims to help organizations manage process safety risks in a more structured way.
TPM is a Japanese system of maintenance that originated in 1971 based on preventive maintenance concepts introduced from the US. The goal of TPM is zero breakdowns and zero losses through team-based productive maintenance involving all levels of an organization. Key aspects of TPM include autonomous maintenance by operators, planned maintenance, and elimination of six major losses: breakdowns, setup/adjustment, idling/minor stoppages, reduced speed, defects, and startup/yield. TPM aims to improve overall equipment effectiveness.
TPM is a Japanese system of maintenance that originated in 1971 based on preventive maintenance concepts introduced from the US. The goal of TPM is zero breakdowns and zero losses through team-based productive maintenance involving all levels of an organization. It differs from preventive maintenance approaches used in the US by emphasizing small group activities and operators taking responsibility for cleaning, oiling and inspecting equipment. Key aspects of TPM implementation include focused improvement, autonomous maintenance, planned maintenance, training and establishing maintenance standards.
The term Prestartup Safety Review (PSSR) first received prominence in the process industries with the introduction of the Process Safety Management (PSM) regulations.
This document discusses functional safety and the certification process for functional safety compliance. It begins with definitions of safety from standards like IEC Guide 51 and discusses functional safety and how it protects against injury from incorrect system functioning. It then covers topics like low and high demand safety modes as defined in IEC 61508-4, safety strategies, the safety lifecycle, and certification requirements. It focuses on the process from the perspective of a company seeking certification and outlines some of the documentation, testing, and auditing requirements involved.
This document discusses different types of maintenance for assets including aircraft. It defines maintenance as work carried out to preserve assets and enable continued use over their design life. The main types of maintenance discussed are: breakdown, preventive (periodic and predictive), and corrective. Periodic maintenance involves regular inspection and servicing, while predictive uses condition monitoring. Aircraft maintenance checks ranging from light A/B checks every 500-800 hours to comprehensive D checks every 5 years are also outlined. Nondestructive testing methods like liquid penetrant and eddy current are used during aircraft maintenance inspections.
The document discusses maintenance management and provides an overview of key concepts. It defines maintenance as work done to keep or restore a facility to an acceptable standard level. It discusses total maintenance costs and different maintenance policies including failure-based, time-based, condition-based, and risk-based approaches. It also compares different global maintenance strategies like total productive maintenance and optimized systems maintenance.
Welcome to the SMS Fundamentals presentation.
The core processes, elements and components that comprise a functional and robust Safety Management System will be explained.
These lessons will provide you a general understanding of the principles of a Safety Management System (SMS). Also it will provide you an understanding of the components, elements, and core processes that comprise a functional SMS.
Each organization must determine their safety needs and scale their SMS to meet those needs.
This document discusses updates to OSHA's silica rule, including new training materials, fact sheets, and videos about silica hazards. It provides details on engineering controls, exposure monitoring requirements, medical surveillance, and citations issued for violations. It also describes equipment that can help mitigate silica dust, such as exhaust systems, vacuums, sweepers, and blowing systems. Regular maintenance is important to ensure effectiveness of dust controls.
Critical Review of PSM In Petroleum Industry | Mr. Hirak Dutta, Executive Di...Cairn India Limited
This document summarizes the key points from a presentation on process safety management in India's petroleum industry. It notes that India has become a major exporter of petroleum products, with over 200 million metric tons of annual refining capacity and significant crude oil and gas production. It outlines the pillars of process safety like operational integrity and discusses taking a systemic approach. It emphasizes the importance of recognizing warning signs to avoid accidents and highlights lessons around focusing on leading indicators and inherent safety principles. The document concludes by outlining the Oil Industry Safety Directorate's focus on key drivers of process safety like procedures, hazard identification, and managing change.
This document provides information about Abhay Ocean India Pvt Ltd (AOIL), an Indian commercial diving company. It outlines AOIL's mission, vision, core values, policies, and the services it provides. AOIL has over 35 years of experience in commercial diving services such as inspections, repairs, construction, and salvage operations. It aims to provide these services safely and with a focus on customer satisfaction, environmental protection, and quality work.
The document discusses Process Hazard Analysis (PHA) and Management of Change requirements under the Process Safety Management standard. It emphasizes that PHA is the most difficult but important part of implementing PSM, as it identifies hazards and safeguards. The PHA must address all equipment, processes, incidents, controls, and consequences of failure. Management of Change procedures are also required to manage any changes to the covered process system and ensure related documentation and training are updated. The PHA and MOC work together to identify hazards, implement prevention, and manage any necessary changes to the process safely.
Dear Sir,
As we are FIRST for engineering contracting works (HVAC, Fire F, Plumb and Electrical), We would like to introduce ourselves to you as one of electromechani-cl Contractors in Egypt & U.A.E. our company was founded by Eng. Ahmed Zaher after a big experience in the huge construction projects in U.A.E. and Egypt, we have a very good team of engineers, technicians and very good technical office team to meet all the standards.
For more Information
Please call Eng Ahmed Zaher:-+201065457792/+971526123836
The document introduces a contracting company that provides HVAC, firefighting, plumbing and electrical systems and has experience in projects in Egypt and the UAE, listing their scope of work, licenses, policies, references and details about the founder and how to contact them. They have the required licenses and certifications and experience providing various mechanical, electrical, and plumbing systems for projects in Dubai and Egypt.
This training covers the key aspects of establishing an effective preventive maintenance (PM) system, including defining a PM system, recognizing the need for one, describing the PM process, addressing data issues, and motivating workers. An effective PM system prevents equipment failures, improves reliability, ensures safety features work properly, reduces costs, and produces quality products. The goals are to preserve equipment and prevent workplace accidents by fixing issues on a schedule.
The document discusses developing and implementing an effective construction safety program, including assigning responsibilities, identifying hazards, providing training, documenting safety rules, setting performance goals, and reviewing incidents to continually improve safety. It also covers establishing emergency response procedures and evaluating contractor safety plans and ongoing project safety.
1. The document provides an overview of core tool training for APQP, FMEA, and PPAP processes. It discusses the history and benefits of failure mode and effects analysis (FMEA) and outlines the FMEA process.
2. Key aspects of FMEA covered include potential failure modes, effects analysis, risk priority numbers, design controls, process controls, continuous improvement, and management responsibility.
3. Examples of potential failure modes, effects, and process steps from a sample PFMEA are also provided to demonstrate how to complete an FMEA.
The document discusses quality assurance practices in aviation. It explains that aviation quality assurance systems monitor equipment, programs, and procedures to ensure Federal Aviation Administration standards are met. Key aviation quality assurance programs discussed include the Flight Operational Quality Assurance program and Aviation Safety Action Program, which analyze flight data to assess safety. Aircraft maintenance technicians are also subject to quality standards regarding inspections, maintenance, and repairs. The document outlines several primary aviation safety programs and notes that proper aircraft maintenance is essential for safety.
This document discusses quality attributes for embedded systems. It identifies two main categories: operational quality attributes and non-operational quality attributes. Operational attributes relate to how the system functions and includes response time, throughput, reliability, maintainability, security, and safety. Non-operational attributes are not related to system operation and includes testability, evolvability, portability, time to market, and cost. Key operational attributes that impact quality are response, throughput, reliability around failures and repairs, and ensuring security, confidentiality and availability of data. Non-operational attributes focus on how easy a system is to test, modify, use in different environments, reduce time to prototype and market, and control production costs.
Darren Bergin has over 30 years of experience in sheet metal work, quality inspection, and production management. He has worked on aircraft programs for Airbus, Bombardier, and others. His most recent roles include serving as a certifying staff for Airbus A350 parts in the UAE and quality team leader for A350 flap track fairings. He has extensive training in quality systems, safety management, and aircraft production systems.
AUDIT PROGRAM LOGICAL SECURITY BY LANCE M TURCATOAsmaranies Harun
This document is an audit program for reviewing logical security controls on operating systems. It contains audit steps organized into sections on system understanding, security management, security administration, system configuration, and security system configuration if third-party security software is used. The audit steps are designed to evaluate policies, procedures, configuration settings, and other controls to ensure compliance with standards and best practices.
The document provides guidelines for developing safety cases to demonstrate that automotive systems are acceptably safe to operate. It discusses key concepts like argument layers and evidence tables that structure the safety argument. The guidelines are intended to help with ISO 26262 compliance by providing a common framework for explicit safety arguments, which lay out the rationale for safety requirements and evidence that the requirements are complete and implemented correctly. This approach aids communication, consistency, and third-party assessment of a system's safety.
WCM BRUNEI SDN BHD provides joint integrity solutions (JIS) such as controlled bolting, on-site machining, flange resurfacing and repair, inspection, and leak testing. JIS aims to ensure leak-free integrity of bolted flange joints through an integrated approach including understanding the operating environment, design, component selection, assembly specifications, procedures, personnel, documentation, and meeting leak prevention goals. A key element is a flange management software database that tracks all elements associated with bolted joints to enhance safety, reliability, and compliance.
Safety of machinery - Application of standard EN ISO 13849-1dnunez1984
This document provides an overview and comparison of two machinery safety standards: EN 62061 and EN ISO 13849-1. It outlines the basic procedures for complying with machinery directives, including performing a risk assessment. EN 62061 focuses on functional safety for electrical/electronic control systems, using Safety Integrity Levels (SILs). EN ISO 13849-1 applies to all machinery and determines Performance Levels (PLs) based on factors like categories and probability of failure. The document provides details on how each standard specifies safety parameters and calculations for achieving the required safety level.
This document provides an overview and comparison of two machinery safety standards: EN 62061 and EN ISO 13849-1. It outlines the basic procedures for complying with machinery directives, including performing a risk assessment. EN 62061 focuses on functional safety for electrical/electronic control systems, using Safety Integrity Levels (SILs). EN ISO 13849-1 applies to all machinery and determines Performance Levels (PLs) based on factors like categories and probability of failure. The document provides details on how each standard specifies safety parameters and calculations for achieving the required safety level.
The NFPA 70E Standard is intended to create a safer environment for people working with or around electricity. It covers work practices and procedures, including training required to identify dangerous situations and the potential for injury.
This bulletin outlines training requirements, electrical safety programs, equipment use and more, with links to a variety of resources.
This document discusses maintenance management systems at a garment manufacturing company. It outlines the objectives of maintenance management which are to create a safe work environment with zero waste and accidents while achieving 100% efficiency. The types of maintenance covered are routine, preventive, and emergency maintenance. The document then describes the maintenance organization structure and functions. Key elements of maintenance management discussed include maintenance policies, preventive maintenance, condition monitoring, work orders, and performance measurement. The maintenance department is divided into four sub-departments: central maintenance, batch maintenance, folders and fabrication, and utility and safety. The roles and maintenance approaches of each sub-department are summarized. Associated production planning and industrial engineering departments are also outlined.
How to Achieve Functional Safety in Safety-Citical Embedded Systemsevatjohnson
Whether they operate in the medical, automotive, avionics, or any other field, developers of safety-critical embedded systems understand the importance of quality assurance, risk and process control, and artifact traceability. Current trends in these industries predict that the challenges of complexity brought about by IoT connectivity, smart system of systems products, and embedded software will become even greater. To tackle these challenges, developers have to come up with innovative strategies to ensure the functional safety and reliability of their products.
In this webinar, we focus on the tools, processes and techniques around requirements and testing that are considered vital to ensuring functional safety in embedded systems. Adequate requirements definition, requirements-based testing, risk management, and test coverage analysis are a few of the techniques that help achieve functional safety in the development of such systems. Our webinar helps you to learn more about ensuring the safety of your mission-critical end products.
How to Achieve Functional Safety in Safety-Critical Embedded SystemsIntland Software GmbH
Whether they operate in the medical, automotive, avionics, or any other field, developers of safety-critical embedded systems understand the importance of quality assurance, risk and process control, and artifact traceability. Current trends in these industries predict that the challenges of complexity brought about by IoT connectivity, smart system of systems products, and embedded software will become even greater. To tackle these challenges, developers have to come up with innovative strategies to ensure the functional safety and reliability of their products.
In this webinar, we focus on the tools, processes and techniques around requirements and testing that are considered vital to ensuring functional safety in embedded systems. Adequate requirements definition, requirements-based testing, risk management, and test coverage analysis are a few of the techniques that help achieve functional safety in the development of such systems. Our webinar helps s to learn more about ensuring the safety of your mission-critical end products.
Similar to Stamping press and_press_brake_safety_standards_management_primer (20)
1. Does your company use
Stamping Presses / Press Brakes?
LEARN IF YOUR OPERATIONS
ARE COMPLIANT WITH CURRENT
SAFETY STANDARDS
A MANAGEMENT PRIMER from
2. Agenda
What are these standards & what needs to be done?
1) Which safety standards are we talking about?
2) Summary of these revised safety requirements
3) What steps can be taken to confirm you comply?
4) Technology available to constantly monitor safety
5) Addressing any issues before an accident
All of these recent revisions have been focused on more
closely harmonizing standards for these equipment types
from the USA, Canada and Europe (ISO).
3. Are you aware of and familiar with
the applicable safety standards?
1)Which Safety Standards are we talking about?
A) USA – Mechanical Stamping Presses ANSI B11.1 (2009)
(2009)
B) USA – Hydraulic Stamping Presses ANSI B11.2 (under rev)
C) USA – Press Brakes ANSI B11.3 (currently under revision)
D) Z142-
CANADA – CSA Z142-10 (New Release March 2010)
(Covers Mechanical / Hydraulic Presses and Press Brakes)
All of these recent revisions have been focused on more
closely harmonizing standards for these equipment types
from the USA, Canada and Europe (ISO).
4. High level requirements summary
to meet these safety standards
2) Summary of these revised safety requirements
A) Responsibilities of Employers, Employees ,
Equipment Suppliers & Integrators *
B) Design,
Design, Construction and Machine Requirements
C) Hazard Identification and Control
D) Safeguarding of Personnel
E) Set up, Operation & Maintenance
F) Training , Verification and Records *
* For purposes of this presentation we will focus on items A & F
as B,C,D & E are technical in nature for which you can request
verification of compliance by a Professional Engineer
but first &last are direct management items.
5. High level requirements summary
to meet these safety standards
2) Summary of these revised safety requirements
A) Responsibilities of Employers (User)
- Overall workplace safety of personnel
- Review power press design to ensure conformance with ANSI B11
- Ensure that all hazards are identified
- Ensure that all protective measures taken
- Ensure presses provide point of operation safeguarding
- Procedure for inspection and maintenance of presses
Note: Summary information only for management primer
purposes. Full details and ANSI B11 standards are
available through www.ansi.org
6. High level requirements summary
to meet these safety standards
2) Summary of these revised safety requirements
A) Responsibilities of Employers (User) (continued)
- Safe working procedures established and followed
- Operator & Auxiliary personnel follow instructions & directions
- Tooling & Maintenance personnel are also properly trained
- Determine & train on required Personal Protective Equipment
- lockout/tagout
Establish & follow lockout/tagout procedure
- Only authorized personnel perform service & maintenance activities
Note: Summary information only for management primer
purposes. Full details and ANSI B11 standards are
available through www.ansi.org
7. High level requirements summary
to meet these safety standards
2) Summary of these revised safety requirements
F) Training , Verification and Records
User shall establish personnel training programs that ensure following :
- The training of personnel should be documented
- All personnel are properly trained & qualified to perform functions
- Instruct operators properly in set-up of press production system
set-
- Instruct operators properly in operation of press production system
Note:
Note: Summary information only for management primer
purposes. Full details and ANSI B11 standards are
available through www.ansi.org
8. High level requirements summary
to meet these safety standards
2) Summary of these revised safety requirements
F) Training , Verification and Records (continued)
User shall establish personnel training programs that ensure following :
- Require all operators demonstrate knowledge of press system
- Instruct all die setters in proper procedures
- Ensure maintenance personnel are trained in safe working procedures
- Ensure supervisors trained in safe working procedures for all roles
- lockout/tagout
Train personnel in lockout/tagout of hazardous energy sources
Note:
Note: Summary information only for management primer
purposes. Full details and ANSI B11 standards are
available through www.ansi.org
9. Ask your in-house safety experts &
in-
committee to verify compliance
3) What steps can be taken to confirm you comply?
- Ensure company buys copies of applicable standards
- Task internal Safety experts & safety committee to confirm
- Get technical review of equipment by Professional Engineer
- Ask HR department to confirm training & show you records
Major issue is often lack of education and knowledge on
the specifics of these safety standards. Often it is only your
interest & attention to this issue needed to get started.
10. What types of monitoring solutions
are available to meet standards?
4) Technology available to constantly monitor safety
- Safety press control required to monitor all
safety components on presses & press brakes
- Control Reliability or safety circuit performance
level ensures continuous dual channel monitoring
- Diverse redundancy of key components to ensure
no single point of failure in the safety monitoring
system to protect your workers.
Stops Presses & Press Brakes from operating when
there are specific safety issues that may cause accident
11. Address now to control schedule &
costs demonstrating due diligence
5) Addressing any issues before an accident
- in-
Get your HR, in-house safety person & committee involved
- Ensure they get copies of the applicable standards
- Task them with verification of compliance
- Get expert engineering assistance for technical aspects
- Develop a plan & schedule for completing upgrades
- suppliers/
Work with suppliers/integrator to complete
- Don’t forget need for training, verification and records
Addressing these issues before an accident means you do
so on your timetable with control of cost, liabilities and fines
which is often not the case in aftermath of accident
12. THANK YOU!
Jeff Ashcroft
Tel: 905-836-4089
Fax: 905-895-0364
jeff@reflexintegration.com
Twitter: @Reflex_
1151 Gorham St Unit 18
Newmarket, Ontario, Canada, L3Y 8Y1