TOPICS PAGEroqqy.com/wp-content/uploads/2020/01/Exida-Brochure3.pdf · Responsible for the execution and final deliverables for Process Hazards Analysis, SIL Selection, SIF conceptual

3

TOPICS PAGE

INDEX 3

ROQQY AND EXIDA IN BRIEF 4

OUR CLIENTS 5

TRAINING SCHEDULE IN EGYPT

EXIDA CERTIFICATES

EXIDA CERTIFICATION

IMPORTANT EXIDA CONSULTING SERVICES IN EGYPT

TRAINERS

6 - 8

12 - 19

20

21 - 24

REGISTRATIONS FORM

9 - 11

25 - 27

4

Roqqy is the premier provider of technical, engi-neering and professional skills training in the Ara-bian region for individuals, businesses, non-prof-it organizations and government agencies.

قامــت شــركة رقــى للتدريــب والتطويــر بالتعــاون مــع شــركة اكســيدا

العالمية بتنفيذ عدد من الكورســات مثل كورس الســامة الوظيفية , )FSM( وكــورس الســامة الوظيفيــة للمديريــن )FSP( للممارســينــة ــل شــهادة الســامة الوظيفي وعــدد مــن الشــهادات المعتمــدة مث )CFSE( وشــهادة الســامة الوظيفيــة للخبــراء )CFSP( للمحترفيــنالحقــًا ذكرهــم ســياتى Oil & Gas لـــ ا شــركات مــن لعــدد

Founded in 1999 by several of the world’s top re-liability and safety experts, Exida is the world’s leading product certification and knowledge com-pany specializing in automation system safety, alarm management, cyber security, and avail-ability. With over 20 locations worldwide, Exida’s global presence ensures there is always someone close by ready to help your team be successful.

5

More than 10 companies enrolled in Exida training courses in Egypt as well as Exida’s consulting services.

Exida free live webinars: w w w. e x i d a . c o m / We b i n a rs

مــن اكســيدا علــى شــهادات للحصــول مــن عشــر شــركات ســجلوا أكثــر والتطويــر للتدريــب رقــى خــال

كمــا يمكنكــم متابعــة كل النــدوات المجانيــة مــن هــذا الرابــط باألســفل للتعــرف علــى اكســيدا وخدماتهــا

COMPANIES ENROLLED IN EXIDA & ROQQY TRAINING AND CONSULTING SERVICES

6

C O U R S E

NO

VE

MB

ER

20

19

MA

RC

H 2

02

0JA

NU

AR

Y 2

02

0

CODE NUMBER OF DAYS D A T E COURSE

F E E S $

IEC 61511: Functional Safety

Analysis, Design, and Operation



Fundamentals of Alarm Man-

agement for the Practitioner:

How to Apply ISA-18.2 / IEC

62682

Industrial Automation Control

Systems (IACS) IEC 62443

Cybersecurity Lifecycle

Process Hazards Analysis

(PHA) Using HAZOP


(PHA) Using HAZOP

PHA Leaders

PHA Leaders

CFSE / CFSP Exam

CFSE / CFSP Exam

CACE / CACS Exam

FSE 100

FSE 100

ALM 102

CS 102

4

4

2

2

10 - 13

8 - 11

12 - 13

14 - 15

1800

1800

1100

1100

1

1

1

14

12

16 800 - 700

800 - 700

800 - 700

2

2

17 - 18

15 - 16

1100

1100

5

5

17 - 21

15 - 19

2300

2300

-

-

-

FSE 222

FSE 222

FSE 222+

FSE 222+

7

C O U R S E CODE NUMBER OF DAYS D A T E COURSE

F E E S $

JU

NE

20

20

AP

RI

L 2

02

0A

UG

US

T 2

02

0






62682




62682








(PHA) Using HAZOP

PHA Leaders

CFSE / CFSP Exam

CACE / CACS Exam

CACE / CACS Exam

FSE 100

ALM 102

ALM 102

CS 102

CS 102

4

2

2

2

2

7 - 10

12 - 13

9 - 10

14 - 15

11 - 12

1800

1100

1100

1100

1100

1

1

1

11

16

13

2 14 - 15 1100

5 14 - 18 2300

-

-

-

FSE 222

FSE 222+

800 - 700

800 - 700

800 - 700

8

OC

TOB

ER

20

20

DEC

EMB

ER 2

02

0

N O T E S






62682




• There are additional Administration fees on CACE / CACS &

CFSE / CFSP Exam equal 200$.

• Any registrations for CFSE / CFSP exams during 2019, exam

fees will be 400$ instead of 700$. (for all certified from TUV)

• You can test any certificate you want On the day of the exam.


(PHA) Using HAZOP

PHA Leaders

CFSE / CFSP Exam

CACE / CACS Exam

FSE 100

ALM 102

CS 102

4

2

2

11 - 14

6 - 7

8 - 9

1800

1100

1100

1

1

15

10

2 18 - 19 1100

5 18 - 22 2300

-

-

FSE 222

FSE 222+

800 - 700

800 - 700

C O U R S E CODE NUMBER OF DAYS D A T E COURSE

F E E S $

9

OWEN TAVENER-SMITH,PARTNER, EXIDA.COM

FIELDS OF COMPETENCE

• Process Safety Management• Quantitative Risk Analysis• Process Hazards Analysis• SIL Determination• SIL Verification• Fault Tree and Event Tree Analysis• SLC Process and Procedure Definition• Safety Instrumented System Design• Project Management and Execution• Functional Safety Assessment• Reliability Engineering• Electrical and Electronics Engineering

EXPERIENCE SUMMARY

MR TAVENER-SMITH has over thirty years of

professional experience. For the past twenty-

five years he has been involved in consulting,

engineering design and management of safety

related systems applied in various industry

sectors. Currently managing director of exida

South Africa and exida partner, he provides

training and consulting services based on

the IEC functional safety standards mainly

within the sub-Saharan African and Middle

East regions. Formerly Divisional Manager of

the Safety Management Systems group within

Honeywell Southern Africa, he was responsible

for the strategic direction and operations for

the Sub-Saharan African region supplying

safety related systems and solutions.

PUBLISHED PAPERS

• Designing for Safety• Safety Component Reliability• Functional Safety Management Issues in

South Africa SIL Determination, Methods, Challenges and Trends Systematic Capability – Important Criteria for SIF Design and Verification

• A Semi-Quantitative Risk Assessment Technique for Cyber Security Threats

CREDENTIALS

• B.Sc., Electrical Engineering, University of Natal, (1981) Professional Engineer, (1988).

• Certified Functional Safety Expert, Process Applications, (2001).

PROFESSIONAL PROFILEKEY ASSIGNMENTS AND PROJECTS

• Responsible for the execution and final deliverables for many Process Hazards Analysis, SIL Selection, SIF conceptual design, SIL Verification and Fault Tree Analysis studies for the Oil & Gas, hydrocarbon processing, chemical, nuclear and mineral beneficiation processing industries within the sub-Saharan African and Middle East regions.

• Responsible for compiling several client Functional Safety lifecycle compliant specifications and procedures. Setting up a task based competence matrix and assessment criteria for operations and maintenance activities.

• Responsible for leading Functional Safety Assessment studies for End-User companies as well as assisting in the assessment and formal certification of OEM product and engineering company SLC services.

• Presenting the four-day functional safety engineering certificate as well as SIL Selection, and SIF design and SIL Verification training certificates.

• Management and leadership of exida South Africa (Pty) Ltd

• Formerly management of the division of a major automation systems vendor, responsible for the supply of safety critical systems and solutions based on a SIL 3 certified safety PLC in the sub-Saharan African region. Responsibilities included financial performance, technical lead, QMS, sales, project execution and support of the installed base.

• Has lectured the Functional Safety Engineering certificate for the 4th year engineering syllabus at the University of Natal.

10

GREG CHANTLER,BSC. ELEC ENG, PRENG, CFSE, FS EXPERT


• Process Safety Management• Quantitative Risk Analysis• Process Hazards Analysis• SIL Determination• SIL Verification• Fault Tree and Event Tree Analysis• SLC Process and Procedure Definition• Safety Instrumented System Design• Project Management and Execution• Failure Modes Effects and Diagnostics

Analysis• Reliability Engineering• Electrical and Electronics Engineering• Control System Vulnerability Assessments• Alarm Management

EXPERIENCE SUMMARY

Mr. Greg Chantler has over 25 years of professional experience in consulting and engineering design of safety related systems within the process industry. Formerly a lead engineer of a safety system vendor, he was responsible for the application of the FSC Safety Shutdown systems in a suite of typical mainstream industries (Refining, Pulp and Paper etc). Subsequently, he worked for a company that provides advanced control solutions to the industry, including being actively involved in the design of the Pebble Bed Modular Reactor. Subsequently working for a consulting company, he provided consulting services based on the IEC functional safety standards mainly within the Southern African and Middle East region, and has established a big network within the companies operating in this area, becoming an expert in all aspects of the functional safety standards, including HAZOP and SIL Selection facilitation, SRS development, SIL Verification calculations and development of operations and maintenance procedures, and has conducted several Control System Vulnerability Assessments on petro chemical facilities. He has extensive knowledge of the ISA18.2, IEC 62682 Alarm Management standards, as well as presenting numerous

CREDENTIALS

• B.Sc. Electrical Engineering, University

of the Witwatersrand, 1987 Professional Engineer (Reg. No. 1994 ,(940277 Certified Functional Safety Expert, (CFSE 091103 007)

• TÜV Functional Safety Expert (TÜV Rheinland, # 15/245, SIS, PH&RA)

• Conducted numerous functional safety project for the Australian Mining and Oil and Gas industries

• Conducted Control System Vulnerability Assessments on several petro chemical facilities.

• Conducted numerous training certificates on Alarm Management for companies in the region and possess a working knowledge of the Alarm Management standards ISA 18.2 and IEC 62682, as well as the EEMUA 191 Guideline and BP Group Practice GP 47-30.

PROFESSIONAL PROFILEKEY ASSIGNMENTS AND PROJECTS

• Responsible for the execution and final deliverables for many SIL Selection, SIF conceptual design, SIL Verification studies and startup and commissioning aspects for the Oil & Gas, hydrocarbon processing, chemical, nuclear and mineral beneficiation processing industries within the sub-Saharan African and Australasia regions.

• Design and implantation of aspects of the Pebble Bed Modular Reactor, including the Helium Test Facility.

• Application of a SIL 3 certified Safety PLC in a suite of typical mainstream industries (Refining, Pulp and Paper etc) where they are used to safeguard potentially hazardous processes.

• Test Lead for the V& V of the new Safety Management PKS system in Holland which was developed according to IEC61508.

• Responsible for the Safety Lifecycle aspects of the New Multi-Product pipeline between Durban and Johannesburg.

• Presenting the functional safety engineering certificate leading to CFSE/P or TÜV FS Engineer certifications training certificates on the subject. He has acted as chairman for a AMHAZ workshop in Abu Dhabi and South Korea. Presently residing in Abu Dhabi and

• working for exida Middle East, he continues to execute projects related to functional safety, including SIL Assessments, cyber-security risk assessments and SIL Verification projects.

11

ADRIAAN VAN DER MERWE,CFSE SENIOR SAFETY ENGINEER,EXIDA.COM


• PROCESS FUNCTIONAL SAFETY MANAGEMENT

• PROCESS HAZARDS ANALYSIS• QUANTITATIVE RISK ANALYSIS

AND LOPA• SIL DETERMINATION AND VERIFICATION• SAFETY INSTRUMENTED SYSTEM DESIGN

AND VALIDATION• FUNCTIONAL SAFETY ASSESSMENT• FAULT TREE AND EVENT TREE ANALYSIS• RELIABILITY ENGINEERING• ALARM RATIONALIZATION• SAFETY EQUIPMENT CERTIFICATION TO IEC

61508

EXPERIENCE SUMMARY

MR. VAN DER MERWE HAS OVER TWENTY-FIVE YEARS OF PROFESSIONAL EXPERIENCE. FOR THE PAST EIGHTEEN YEARS HE HAS BEEN INVOLVED IN CONSULTING, ENGINEERING DESIGN AND MANAGEMENT OF SAFETY RELATED SYSTEMS FOR VARIOUS INDUSTRY SECTORS, INCLUDING OIL & GAS, NUCLEAR, PETROCHEMICAL AND PHARMACEUTICAL. CURRENTLY HE IS A SENIOR SAFETY ENGINEER WITH EXIDA SOUTH AFRICA, WHERE HE PROVIDES SAFETY LIFECYCLE CONSULTING SERVICES BASED ON THE IEC FUNCTIONAL SAFETY STANDARDS, MAINLY WITHIN THE SUB-SAHARAN AFRICAN AND MIDDLE EAST REGIONS. FORMERLY HE WAS LEAD ENGINEER FOR ONE OF THE MAJOR INSTRUMENTED PROTECTION SYSTEMS FOR THE PBMR NUCLEAR PROJECT AND FOLLOWING THIS HE LED CONSULTING ENGINEERING TEAMS IN THE RISK ANALYSIS, DESIGN, PROCUREMENT,DEVELOPMENT, TESTING AND VALIDATION OF HIPPS SYSTEMS FOR THE MAJOR GAS DISTRIBUTION LINES FROM MOZAMBIQUE TO CLIENTS WITHIN SOUTHERN AFRICA. IN THIS CAPACITY HE PROVIDED SPECIALIZED TECHNICAL LEADERSHIP FOR PROCESS HAZARD ANALYSIS AND FUNCTIONAL SAFETY DESIGN.

CREDENTIALS AND PROFESSIONAL AFFILIATIONS

• N. H. Dip, Electrical Engineering: Light Current (Cum

• Laude), Vaal Triangle University of Technology, (1993)

• Certified Functional Safety Professional, Process Applications, (2006 to 2014)

• Certified Functional Safety Expert, Process Applications, (2014 to present)

• Senior Member of the Society for Automation, Instrumentation, Measurement and Control

• Member of South African Bureau of Standards Technical Committee SABS/TC165- – Industrial Process Measurement, Control and Automation, liaising with IEC TC 65 and IEC SC 65A

KEY ASSIGNMENTS

Responsible for the execution and final deliverables for Process Hazards Analysis, SIL Selection, SIF conceptual design, SIL Verification and Alarm Rationalization studies for the oil & gas, hydrocarbon processing, chemical, nuclear, energy and mineral beneficiation processing industries within the sub-Saharan African and Middle East regions. Conducting Functional Safety Assessment studies for End-User companies as well as the assessment and formal IEC61508 certification of OEM product and engineering company Safety Lifecycle (SLC) services. Formerly led engineering teams to develop HIPPS and ESD systems in the oil & gas, petrochemical and nuclear industries. Performed the role of control system safety consultant to client companies, assuming responsibility for all aspects of high integrity safety system specification, design and implementation to international functional safety standards.

MAJOR PROJECTS

• Sunrise Energy LPG Terminal Complete Functional SLC Consulting Services, RSA

• Al-Hasa 2 Bulk Plant SIL Selection, KSA• Saldanha Bay Bulk Crude Oil Terminal

Tolerable Risk Definition and SIL S e l e c t i o n , R S A

• NASR Field Development Alarm Rationalization, UAE

• Sasol Infrachem Cresol Plant SIL Verification, RSA

• IEC 61508 Certification of Mitech, Gunric, Paltech and AZ-Armaturen Valves, RSA

• Sasol Ressano Garcia and GNP Natural Gas Pipeline HPCMS (HIPPS) – RSA, Mozambique

• Sasol Fuel Multi-product Storage and Loading Facility, RSA

• Pebble Bed Nuclear Reactor EPS (ESD), RSA

• Bonny Island LNG Compressor Protection, Nigeria

• Qatar Petroleum Halul Island ESD and FGS, Qatar

12

IEC 61511: Functional

Safety Analysis, Design,

and Operation

Industrial Automation

Control Systems (IACS)

IEC 62443 Cybersecurity

Lifecycle

Process Hazards

Analysis (PHA) Using

HAZOP


(PHA) Leaders

Fundamentals of Alarm

Management for the

Practitioner: How to

Apply ISA-18.2 / IEC 62682

13

IEC 61511: FUNCTIONAL SAFETY ANALYSIS, DESIGN, AND OPERATION

• This course provides an overview of process industry safety engi-neering from the point of view of the Risk Analyst, Process Safe-ty Coordinator, and Control Systems Design Engineer.It delivers a complete overview of the functional safety lifecycle. The course reviews Process Hazard Analysis (PHA), Consequence Analysis, Layer of Protection Analysis (LOPA), Safety Integrity Level (SIL) Target Selection, Safety Requirements Specification (SRS) gener-ation, failure rates, device and system reliability, SIF verification, SIF detailed design and Operations requirements.

• The FSE 100 course forms a broad review in preparation for the Certified Functional Safety Expert (CFSE) and Certified Functional Safety Professional (CFSP) process industry application engineer-ing exams.

C O U R S E D E S C R I P T I O N

• Develop a thorough understanding of the

IEC61511 Safety Life Cycle requirements,

• Establishing tolerable risk and the ALARP

concept,

• Hazard and risk analysis techniques,

• Layer Of Protection Analysis (LOPA)

techniques,

• SIL determination techniques.

• Introduction to Safety Instrumented Systems

• Principles of Risk Management• The Safety Lifecycle• Process Hazard Analysis• Consequence Analysis• Likelihood Analysis• Layer of Protection Analysis• Tolerable Risk• SIL Target Selection• Safety Requirements Specification

SKILLS YOU WILL LEARN

COURSE TOPICS


COURSE TOPICS

• Review the fundamental concepts of reliability engineering.

• Safety Instrumented System failure modes. • Develop a thorough understanding of the

IEC61511 Safety Life Cycle requirements. • SIS design from requirements analysis and

documentation. • Safety Instrumented System analysis

techniques

• Safety Instrumented Systems Failure

• From Failure Rate to SIL

• Single Devices to System

• Redundant Architectures

• Requirements to SIF

• SIF Design and Verification in the Safety

Lifecycle

• SIF Detail Design

• Operations

FSE 101 FSE 102

14

Handout (bound manual)

• FSE 101 Slides

• Exercises

• Exercise Answers

• Terms and Abbreviations

Handout (bound manual)

• FSE 102 Slides

• Exercises

• Exercise Answers

• Terms and Abbreviations

TRAINING MATERIALS PROVIDED TRAINING MATERIALS PROVIDED

• Potential CFSE application exam

candidates.

• Control Engineers and their Management

• HSE engineering and management

• Loss Prevention Professionals

• Plant Risk Analysts

All attendees will receive a Course Completion certificate at the conclusion of the course. On completion of the course, the delegates will write a short exam.If successful, the delegates will receive an exida Academy Functional Safety Practitioner certificate.

WHO SHOULD ATTEND COURSE CERTIFICATE

15

PROCESS HAZARDS ANALYSIS (PHA) USING HAZOP

• This two day course provides sound and detailed instruction into how to carry out an effective HAZOP study and where PHA methods fit into the overall process safe-ty management work process and the IEC 61511 safety lifecycle.

• As part of performing a HAZOP, the importance of process safety information, risk criteria, and documentation will be covered.

• The course will acknowledge many hazard identification techniques, but will focus on HAZOP, providing students the opportunity to work through hands on exercises in detail to gain the skills needed to facilitate a HAZOP study.

• These exercises will demonstrate how any hazard identification technique provides a foundation for other more advanced activities designed to estimate risk.

• Coverage of PHA documentation allows the student to see how the technical foun-dation they help develop is used throughout the life of the facility.


• Ability to explain the overall PHA work process and how it fits into the overall PSM work process

• Ability to explain importance of process safety information

• How to document process safety information

• Ability to explain risk criteria with respect to use within a HAZOP & the difference with LOPA

• Ability to plan, manage, facilitate and scribe for a HAZOP

• Guidance for transitioning from HAZID (qualitative) to HAZAN (quantitative)

• Understand how cyber risk can impact traditional HAZOPs

• How to document a PHA

The exida Functional Safety Practitioner (FSP) program is a certificate program that provides confirmation that an attendee shows competency by retaining the knowledge presented in this course. The FSP program also provides an analysis of where the candidate’s strengths and weaknesses lie, helping participants judge their competency level if interested in obtaining a certification like the CFSE or CFSP. The exam will be given at the conclusion of the training course, and is optional. Therefore if you wish not to participate, please let your instructor know. The candidate must achieve a minimum of %80 on the exam in order to receive their FSP certificate.

• Applicable Terminology• PHA preparation• HAZOP Methodology• Risk Criteria• HAZOP Guidelines• Team Roles• Effective Teamwork• Documentation• Hands on Workshop Problems

• Process Safety Engineers• Operations Personnel• Process Control Engineers• Safety Instrumented Systems Engineers• Process Engineers• Reliability Engineers• Project Engineers• Pressure Vessel, Piping, Mechanical

Engineers• Machinery Engineers• Electrical Engineers


THE FSP EXAM (PROCESS HAZARD

ANALYSIS USING HAZOP SPECIALTY)

COURSE TOPICS

WHO SHOULD ATTEND ?

16

Exida will lead a five day PHA workshop for the purposes of coaching PHA leaders in the techniques required to successfully facilitate PHA studies.

The first three-days will consist of Process Hazards Analysis training certificate (FSE222) at the client’s offices in Egypt. This training certificate provides a comprehensive expla-nation of the concepts and various methodologies relating to Process Hazards Analysis, (PHA) The certificate will cover various PHA methodologies suitable for steady-state, (con-tinuous) and non-steady-state processes.

Over and above the technical skills required for PHA, a number of management skills are necessary when guiding a team of discipline experts through the methodology and emerg-ing with the most accurate results in terms of hazard risk and operability issues.

Workshop attendees will be made aware of and provided with techniques for the following challenges:

• Time management,• Managing vested interests,• Managing team dynamics, (dominant members; getting team consensus; maintain-

ing motivation; fatigue etc),• Ensuring high quality of PHA information captures and report documentation.

As input information for the PHA workshop it is assumed that the client will provide exam-ple hazard scenarios together with the relevant P&ID’s, process description and pertinent process safety information.

PROCESS HAZARDS ANALYSIS (PHA) LEADERS

17

• This course addresses integration of cyber security into the functional safety lifecycle per the IEC 62443 standards.

• While cybersecurity introduced many unique activi-ties that are specific to its technology, with respect to the industrial automation control system, includ-ing safety controls, alarms and interlocks, there is a synergistic efficiency to leveraging the functional safety lifecycle when implementing cybersecurity in the control world.

• Participants in this course will progress through the major phases of the Cybersecurity Lifecycle: As-sessment, Design & Implementation, and Operation & Maintenance - identifying the necessary inputs and processes to achieve the required outputs for each phase..


• How the Cybersecurity lifecycle is applied

• What each phase means to the entire process

• What inputs are required for each step

• What the anticipated output is for each step

• How the lifecycle is applied to ISA/IEC-62443

• Course Notes

SKILLS YOU WILL LEARN TRAINING MATERIALS PROVIDED

• Control systems engineers and managers

• IT engineers and managers industrial

facilities

• Plant managers

• Plant Safety and Risk Management

• Maintenance technicians & engineers

All attendees will receive a Course Completion certificate at the conclusion of the course. On completion of the course, the delegates will write a short exam. If successful, the delegates will receive an exida Academy Cyber Security Practitioner certificate.


INDUSTRIAL AUTOMATION CONTROL SYSTEMS (IACS) IEC 62443 CYBERSECURITY LIFECYCLE

18

• Effective alarm management is a pre-requisite for process plants that want to be successful in today’s global marketplace. It impacts the bottom line by minimizing unplanned downtime, reducing insurance premiums, preventing process safety incidents, and enabling operational excellence. To deliver these benefits to the bottom line requires personnel who have been trained on industry best practices and how to apply the ISA-18.2 / IEC 62682 alarm management standards. This course is designed to help personnel develop the skills and knowledge to drive effective alarm management practices within an organization.

• The course is structured around the alarm manage-ment lifecycle; reviewing the key requirements / activities of each stage along with industry best practices. It focuses in-depth on the engineering, design, implementa-tion, and operational and improvement tasks that would be led by the practitioner; ra-tionalization, basic alarm design, HMI design, dynamic alarming, designed alarm sup-pression, alarm shelving, implementation of alarm response procedures, evaluation of alarm system performance, and use of alarms as process safety safeguards and layers of protection. Human factors principles are introduced to show how they impact effective operator performance. Exercises are designed to demonstrate key principles applied in real situations. “Lessons learned” are shared from numerous successful alarm management projects around the world and from being an “insider” during the development of the standards.

• Examples are shown from different control systems including: Emerson DeltaV, Sie-mens PCS 7, Rockwell PlantPAx, Honeywell Experion, ABB System 800xA, and Yokoga-wa Centum / CAMS.


FUNDAMENTALS OF ALARM MANAGEMENT FOR THE PRACTITIONER: HOW TO APPLY ISA18.2- / IEC 62682


• How to create and structure an ef fective alarm philosophy document

• Establishing objective criteria for determining what is a valid alarm vs. an alert,

prompt, or message.

• How to rationalize alarms to ensure every alarm is meaningful to the operator and

results are documented in a Master Alarm Database (cause, consequence, cor-

rective action, time to respond)

• Effective alarm prioritization based on potential consequences of inaction and

allowable time to respond

19

• Course Notes

TRAINING MATERIALS PROVIDED

• Process engineers

• Operators and their supervisors

• Control system engineers

• Safety, risk management, and environmental

personnel,

• Maintenance technicians & engineers

All attendees will receive a Course Completion certificate at the conclusion of the course. On completion of the course, the delegates will write a short exam. If successful, the delegates will receive an exida Academy Alarm Management Practitioner certificate.


• Establishing alarm setpoints based on design constraints, operating boundaries,

process dynamics, and safe operating limits

• Effective use of alarm classification for administration, reporting, testing, perfor-

mance evaluation, and MOC

• Similarities and dif ferences between alarm rationalization and process hazard

analysis (PHA); when to leverage PHA results during rationalization

• How to treat system / instrument diagnostic alarms and alerts

• Effective design and implementation of safety (related) alarms

• How to apply alarm deadband and on / of f delays to prevent nuisance alarms

• Applying human factors to improve the operator’s response through improved HMI

design and use of alarm response procedures

• Best practices for implementing conditional alarming, state-based alarming, and

alarm flood suppression

• Keys to ef fectively implement / allow operators to manually suppress alarms

(alarm shelving)

• How to evaluate alarm system performance vs KPIs

• How to identify and resolve common alarm management issues (e.g., nuisance

alarms and alarm floods)

• Implementing an ef fective and useful management of change process

• Alarm system maintenance

20

CFSP & CFSE

CACE & CACS

Introduced in 2000, CFSE was the first personnel functional safety certification pro-gram in the industry, and remains the longest running program to this day .Since then, other certification programs have been introduced, but CFSE remains the “gold standard” of all programs.

It has remained so because of its unmatched consistency and integrity as well as its unwavering focus on developing the knowledge and skills to be successful. The focus of the program has always been on developing usable knowledge and skills, rather than just passing a test.

It is the only program that is standardized globally, which means that the same certification criteria and exams are used in every country. Another element unique to CFSE is that training and grading of exams are done completely independently, which ensures that there is no conflict of interest in the certification / audit process as required per IEC 17024.

CFSE is governed by a board of directors from several independent companies in order to make sure the program evolves to meet the needs of its members.

IEC 62443 PERSONNEL CERTIFICATIONThe Certified Automation Cyber security Expert (CACE) and Certified Automa-tion Cyber security Specialist (CACS) program was developed in response to the growing demand to secure industrial automation control systems (IACS) and SCADA systems by providing a means for people to develop and demon-strate competence in understanding and applying security standards and best practices.WHY BECOME AN IEC 62443 CACE OR CACS?Participation in the CACE / CACS certification program can provide many benefits to you and your company. CACE / CACS certification allows individuals to demonstrate their competency in a spe-cialized field that is growing and in high demand. Attaining certification will make you a more valu-able employee and can open the door to career advancement. CACE / CACS certified staff helps companies demonstrate their organization’s expertise and their commitment to providing best-in-class services to their customers.WHY IS CACE / CACS CERTIFICATION UNIQUE?Control system cyber security is an emerging, highly specialized field of engineering. Its goal is to assure a systematic, lifecycle approach is used to assess, design, implement, and monitor methods to protect critical infrastructure from attack. The field of industrial automation and control system cyber security combines disciplines of basic control system engineering, risk assessment; safety system engineering, software (e.g. Microsoft) platforms, industrial networking, and IT network secu-rity. While several programs exist for training and certification of each of these individual disciplines, there is no program today that focuses on the intersection of these disciplines as it applies to control system cyber security. The CACE / CACS focuses on the practical application of security practices and principles, not on knowledge of theory.

21

3D GAP ASSESSMENT

SCOPE

FUNCTIONAL SAFET Y GAP ASSESSMENT

ALARM MANAGEMENT GAP ASSESSMENT

CYBER SECURIT Y GAP ASSESSMENT

The objective of this proposal is to form the basis for a contract with Companies for the development of a 3D Integrated Gap Assessment to allow you to map a road forward.

Exida will conduct a Functional Safety Gap Assessment on the site functional safety docu-ments, procedures and competencies. The basis of the gap assessment will be IEC61511 [S2] and will be Conducted through document review and interviews. Where required documents do exist, the assessment will do a short review to determine the quality. The assessment will highlight the gaps and develop a roadmap to compliance. This road-map will priorities key items and will be based on the exida Maturity Model.

Exida will conduct an Alarm Management Gap Assessment on the site alarm manage-ment documents, procedures and competencies. The basis of the gap assessment will be IEC62682 [S3] and will be conducted through document review and interviews. Where required documents do exist, the assessment will do a short review to determine the quality.The assessment will highlight the gaps and develop a roadmap to compliance. This roadmap will prioritise key items and will be based on the exida Maturity Model. Note: Excluded from this output is the development of any missing procedures or tem-plates.

Exida will conduct a Cyber Security Gap Assessment on the site Cyber Security doc-uments, procedures and competencies. The basis of the gap assessment will be IEC 62443 and will be conducted through document review and interviews. Where re-quired documents do exist, the assessment will do a short review to determine the quality.The assessment will highlight the gaps and develop a roadmap to compliance. This roadmap will prioritise key items and will be based on the exida Maturity Model. Note: Excluded from this output is the development of any missing procedures or tem-plates.

الوظيفيــة بمصــر الســامة فــي مجــال رية خدمــات إستشــا

EXIDA CONSULTING SERVICES IN THE FIELD OF FUNCTIONAL SAFET Y IN EGYPT

22

23

IEC 61511 CERTIFIED INTEGRATORThe 61511 integrator certification program’s design is tailored to address the specific safety

engineering tasks that will be executed by the integrator / engineering company. This means

if your company specializes in the design and engineering of the SIS application then the

certification program will reflect this. The program is customized for each company based

the selection of tasks (chosen a la carte) from the selection below:

• Tailorable to address the safety lifecycle tasks performed by your company

ACTIV IT Y / TASK CLAUSE (IEC 61511)

Hazard Identification 8

Consequence Analysis 9 a

Identify Protection Layers, Likelihood Analysis 9 b

SIL Selection 9 c

SRS Development 10

SIS Design & Engineering 11

Application Software 12

Factory Acceptance Testing (FAT) 13

SIS installation and commissioning 14

SIS safety validation / Site Acceptance Testing (SAT) 15

24

CORE PROGRAM:

• Review existing integration procedures and identify gaps to achieve compliance

• Audit deliverables created for an actual project to verify compliance was

demonstrated

• Publish certification report / certificate

• Annual audit / renewal fee or project-based fee

END USER

• Ensure competence of engineering contractors

• Criteria for hiring of contractors

• Needed to fulfill requests for “SIL-x systems”

A S S E S S M E N T & C E R T I F I C A T I O N S E R V I C E S – O V E R V I E W

B E N E F I T S O F T H E I N T E G R AT O R C E R T I F I C AT I O N P R O G R A M

OPTIONAL SERVICES:

• Training / Books

• IEC 61511 Procedure Templates

• Support for creation of project-specific IEC 61511-compliant procedures

• Safety Lifecycle Design Tools (exSILentia)

• Case Study

INTEGRATOR

• Market differentiator

• Leverage exida’s experience/reputation in the safety world

• Indicates competence for engineering a safety project to follow the standard

• Provides credibility for breaking into the safety market

CFSE certification or equivalent is required as a pre-requisite

25

REGISTRATIONS FORM

DELEGATE INFORMATION

PAYMENT DETAILS

TERMS AND CONDITIONS

C H O O S E Y O U R C O U R S E P L E A S E

Name :

Organisation :

Postal Address :

Telephone :

Cell Phone :

Fax :

Email address :

Accounts Contact :

Electronic Fund Transfer

1. Receipt of payment will secure the booking, (bank details will be provided by email).

2. Purchase orders to be made out to ROQQY CAIRO

3. Roqqy reserves the right to cancel the course upon written notification to the registered delegates.

Purchase order attached

IEC 61511: FUNCTIONAL SAFETY ANALYSIS, DESIGN, AND OPERATION

COURSE DATES:

Training Course:

CFSP Exam:

CFSP ExamReview:

VENUE:

26

I WILL BE ATTENDING :



IEC 61511: Functional Safety Analysis,

Design, and Operation Training Course

($1,800)

ALM 102: Fundamentals of Alarm Management for the Practitioner: How to Apply ISA-18.2 / IEC 62682

($1100)

CS102: Industrial Automation Control Systems (IACS) IEC 62443 Cybersecurity Lifecycle

($1100)

I am interested in purchasing the Safety Book Package.

CFSP Exam and Exam

Review, including fees

to be paid to CFSE.org

($2500)

CFSP Exam attendance

only. Assumes fees paid

separately.

($200 )

FUNDAMENTALS OF ALARM MANAGEMENT FOR THE PRACTITIONER: HOW TO APPLY ISA18.2 - / IEC 62682

INDUSTRIAL AUTOMATION CONTROL SYSTEMS ( IACS) IEC 62443 CYBERSECURIT Y LIFECYCLE

COURSE DATES:

COURSE DATES:

Training Course:

Training Course:

VENUE:

VENUE:

27



Process Hazards Analysis (PHA) Using HAZOP - 2 days

($1100)

Process Hazards Analysis (PHA) Leaders - 5 days

($2300)

PROCESS HAZARDS ANALYSIS (PHA USING HAZOP)

PROCESS HAZARDS ANALYSIS (PHA LEADERS)

COURSE DATES:

COURSE DATES:

Training Course:

Training Course:

VENUE:

VENUE:

PLEASE COMPLETE THIS FORM AND SEND TO :

Signed Date

• Adress: 48 Hesham Labib St., from Mostafa EL-Nahas St., Nasr City. 11762 , Egypt

• Send your requests to [email protected]

Mob: +2 01099573730

www.roqqy.com

Tel: +202 22876213

fax: +202 22876215

• There are additional Administration fees on CACE / CACS & CFSE / CFSP Exam equal 200$.

• Any registrations for CFSE / CFSP exams during 2019, exam fees will be 400$ instead of 700$. (for all certified from TUV)

• You can test any certificate you want On the day of the exam.

TOPICS PAGEroqqy.com/wp-content/uploads/2020/01/Exida-Brochure3.pdf · Responsible for the execution and final deliverables for Process Hazards Analysis, SIL Selection, SIF conceptual

Documents