Career Episodes

TABLE OF CONTENTS

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CAREER EPISODE 1

PROFESSIONAL ENGINEER - MECHANICAL

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1)

INTRODUCTION

1.1)

Project

1.2)

Duration of Project

1.3)

Project Location and Organization

Design and construction/expansion of existing propylene tanks in PETRON BATAAN REFINERY (PBR) Design, Inspection, and construction/expansion to be completed in 24 months. Petron Bataan Refinery (PBR) – Limay, Bataan, Philippines PBR is the country's largest integrated crude oil refinery and petrochemicals complex. Inaugurated in 1961 with a capacity of 25,000 barrels per day, it has grown to its current rated capacity of 180,000 barrels-per-day. Petron continues to invest in its refinery to better serve the nation. In the past decade, it has employed its refinery to formulate petroleum products that fit the lifestyles of Filipinos. It has also commissioned units that allow the local production of fuels that meet the requirements of the Clean Air Act. The decision to undertake this massive project was born out of the vision to make the Petron Bataan Refinery one of the most modern integrated oil refining and petrochemical complexes in Asia.

1.4)

Position

2)

BACKGROUND

2.1)

Nature of project

At the time of this project, I was handed a role of “Jr. Field Engineer”

PBR processes crude oil into a full range of petroleum products including gasoline, diesel, liquefied petroleum gas (LPG), jet fuel, kerosene, and industrial fuel oil. PBR also produces petrochemical feedstock benzene, toluene, mixed xylene, and propylene. PBR is at the heart of Petron's operations. For over 50 years, the facility has served the country's demand for quality fuel products, ensuring a reliable and continuous supply to power the nation forward. Run by Filipino refining experts, PBR is a showcase of the world-class technical capability of our countrymen as well as first-rate technology.

2.2)

Objective of project

To be able to a design and construct tanks for the storage of Propylene Gas that would withstand the working pressure corresponding to the vapour pressure at the highest temperature that the tanks would likely to reach.

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To be able to duly implement the construction of the projects up to a strong finish and successful start-up without disregarding the Health, Safety and Environment (HSE) Policy that is being implemented by both the company and contractor 2.3)

Nature of particular work area

2.4)

Duties and responsibilities

1. Be exposed to and participate in daily construction activities. 2. Working with project personnel, resolve technical problems which require engineering expertise. 3. Control all engineering documentation (including asbuilt, marked isometrics, and approved drawings). 4. Assure that working conditions meet CBI and customer safety requirements. 5. Assist the Project Manager or Construction Superintendent with daily project coordination and planning. 6. Work with quality control to maintain quality standards for the project. 7. Contribute to project profitability by suggesting value engineering that can improve CBI's performance. 8. Work to ensure that all project completion procedures are followed. 9. Comply with CBI Business Conduct and Ethics Policies at all times. 10.

Monitors progress of work field during construction for safe, smooth and good quality project implementation.

11.

Conducting field checks, inspections/witness/approval/rejection of work materials and its source to determine the conformance to the requirements of Job Specification and Standards

12.

Layouts Sphere’s attachments, miter/cutting lines i.e. blank nuts, supports, joints, etc.

13.

Supervise fabrication works for sphere’s additional structures.

14.

Coordinate with Owners representative for field revisions and job conformance.

15.

Assist Supervisors for field adjustments prior to Owners acceptance.

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3)

PERSONAL WORKPLACE ACTIVITY

3.1)

Application of engineering knowledge Task delegates and how it was accomplished Problem Encountered

3.2) 3.3) 3.4)

Strategies devised by me to carry out project including design work.

3.5)

Safety Measures

4)

Summary

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CAREER EPISODE 2

PROFESSIONAL ENGINEER - MECHANICAL

1)

INTRODUCTION

1.1)

Project

Design and construction of the power plant in Burrup Park (Pluto), Western Autralia

1.2)

Duration of Project

Design, inspection, and construction/expansion to be completed in 11 months.

1.3)

Project Location and Organization

1.4)

Position

Located on the Burrup Peninsula, about eight kilometres north of Dampier in Western Australia, Woodside’s Pluto Liquefied Natural Gas (LNG) Project is one of the world’s fastest developed LNG projects. Spanning about 96 hectares, Pluto Site B contained the main units associated with LNG processing, utilities, power generation, slug catcher and effluent treatment areas. na At the time of this project, I was handed a role of “Material Engineer”

2)

BACKGROUND

2.1)

Nature of project

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2.2)

Objective of project

2.3)

Nature of particular work area

2.4)

Duties and responsibilities

1. Establishing work measurement programs and analyzing work samples to develop standards for labor utilization 2. Analyzing workforce utilization, facility layout, operational data and production schedules and costs to determine optimum worker and equipment efficiencies 3. Coordinates and expedites flow of materials, parts, and assemblies between sections or departments, according to production and shipping schedules or department priorities, and compiles and maintains manual or computerized records. 4. Reviews production schedules and related information and confers with department supervisors to determine material requirements to identify overdue materials and to track material. 5. Requisitions material and establishes sequential delivery dates to departments, according to work order priorities and material availability. 6. Examines material delivered to production departments to verify conformance to specification. 7. Arranges in-plant transfer of materials to meet production schedules. 8. Computes amount of material required to complete job orders, applying knowledge of product and manufacturing processes 9. Compiles and maintains manual or computerized

records, such as material inventory, in-process production reports, and status and location of materials 3)

PERSONAL WORKPLACE ACTIVITY

3.1)

Application of engineering knowledge Task delegates and how it was accomplished Problem

3.2) 3.3)

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Encountered 3.4)

Strategies devised by me to carry out project including design work.

3.5)

Safety Measures

4)

Summary

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CAREER EPISODE 3

PROFESSIONAL ENGINEER - MECHANICAL

1)

INTRODUCTION

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1.1) 1.2)

Project Duration of Project

1.3)

Project Location and Organization

1.4)

Position

2)

BACKGROUND

2.1)

Nature of project Objective of project

2.2) 2.3)

Nature of particular work area

2.4)

Duties and responsibilities

1. Carry out review of Process PI&Ds, Piping specification, Vendor drawings and other related documents for Test pack dossiers for SMP scope of work. 2. Line Walk-down verification, Punchlist Pre & post-test / Re-instatement. 3. Coordinate with client (KJV) & CKJV engineering and supervision team relative to work execution 4. Secure Inspection Test Report (ITR) for Mechanical Completion hand-over 5. Generate & review MTO based on SOW and variation created from site instructions and carry over works 6. Liaise with Commissioning Team to understand the requirement of process and operation. 7. Provide detailed input into a population of MC / Precommissioning Database for mechanical & piping disciplines 8. Generate & review RFI /Technical Queries 9. Plan and review week work test plan activities 10.

Review system test packs, reference to define system/ sub-system battery limits

11.

Uphold Company’s HSE policies at all times. Attend relevant HSE meetings as required.

12.

Monitor and support the completions teams and Page | 10

technical service providers, ensuring specific work programs and objectives are achieved to an acceptable standard and within a managed risk environment. 13.

Review Work method statements, risk assessment.

3)

PERSONAL WORKPLACE ACTIVITY

3.1)

Application of engineering knowledge Task delegates and how it was accomplished Problem Encountered

3.2) 3.3) 3.4)

Strategies devised by me to carry out project including design work.

3.5)

Safety Measures

4)

Summary

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PROFESSIONAL ENGINEER Summary Statement These are the competency Units and Elements. These elements must be addressed in the Summary Statement (see Section C). If you are applying for assessment as a Professional Engineer, you will need to download this page, complete it and lodge it with your application .

Competency Element

A brief summary of how you have applied the element

Paragraph number in the career episode(s) where the element is addressed

PE1 KNOWLEDGE AND SKILL BASE PE1.1 Comprehensive, theorybased understanding of the underpinning natural and physical sciences and the engineering fundamentals applicable to the engineering discipline

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PE1.2 Conceptual understanding of the mathematics, numerical analysis, statistics and computer and information sciences which underpin the engineering discipline PE1.3 In-depth understanding of specialist bodies of knowledge within the engineering discipline PE1.4 Discernment of knowledge development and research directions within the engineering discipline PE1.5 Knowledge of contextual factors impacting the engineering discipline PE1.6 Understanding of the scope, principles, norms, accountabilities and bounds of contemporary engineering practice in the specific discipline PE2 ENGINEERING APPLICATION ABILITY PE2.1 Application of established engineering methods to complex engineering problem solving PE2.2 Fluent application of engineering techniques, tools and resources PE2.3 Application of systematic engineering synthesis and design processes PE2.4 Application of systematic approaches to the conduct and management of engineering projects PE3 PROFESSIONAL AND PERSONAL ATTRIBUTES PE3.1 Ethical conduct and professional accountability PE3.2 Effective oral and written communication in professional and lay domains PE3.3 Creative innovative and proactive demeanour PE3.4 Professional use and management of information PE3.5 Orderly management of self, and professional conduct PE3.6 Effective team membership and team

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leadership

CAREER EPISODE 3

PROFESSIONAL ENGINEER - MECHANICAL

1)

INTRODUCTION

1.1)

Project

Design and construction/expansion of existing propylene plant in: e Page | 14

1.2)

Duration of Project

Design, Inspection, and construction/expansion to be completed in 24 months.

1.3)

Project Location and Organization

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1.4)

Position

2)

BACKGROUND

2.1)

Nature of project Objective of project

2.2) 2.3)

Nature of particular work area

2.4)

Duties and responsibilities

3)

PERSONAL WORKPLACE ACTIVITY

3.1)

Application of engineering knowledge Task delegates and how it was accomplished Problem Encountered

3.2) 3.3) 3.4)

Strategies devised by me to carry out project including design work.

3.5)

Safety Measures

4)

Summary

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