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Young Professionals Committee (YPC). Texas State University Ingram School of Engineering April 18 th , 2012. Safety Moment – Sun Exposure. Topic With Spring just around the corner, everyone’s anxious to get outside and enjoy the weather!
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Young Professionals Committee (YPC) Texas State University Ingram School of Engineering April 18th, 2012
Safety Moment – Sun Exposure • Topic • With Spring just around the corner, everyone’s anxious to get outside and enjoy the weather! • Employers and workers need to remember that field workers are at a high risk of sun exposure • Issue • Overexposure can cause skin damage and cancer. Other side effects include: • Heat stroke, exhaustion, cramps, and rashes • Increased risk of injury as a result of sweaty palms, fogged up safety glasses, dehydration, etc.
Safety Moment • Precautions/Preventions • Wear a hat to shade your head from the sun • Should protect neck, face, and ears • Wear a light-colored, long sleeve, breathable clothing • Avoid synthetics • Carry water with you at all times and drink at least every 15 minutes • Avoid alcohol, caffeine, and sugar • Take frequent breaks in shady/cool environment • Adjust gradually to working in hotter environment • Schedule most arduous work to cool parts of the day • Wear sunscreen!
Agenda • Speaker Introductions • Introduction to AACE & YPC • Project Controls Career Paths • Industrial Engineering & Project Controls • Scheduling Fundamentals and Applications • Conclusion
Speaker Introductions • Josh Rowan • 8 Years Project Management / Controls Experience • Commercial Risk Management • Capital Cost Estimating & Control • CPM Scheduling • Prior Work Experience • PricewaterhouseCoopers • Chicago Bridge & Iron • SNC-Lavalin Engineers & Constructors
Speaker Introductions • Josh Rowan (cont.) • BS in Agricultural Development, Economics from Texas A&M University (May 2002) • MBA in Finance (est completion December 2012) • US Army Officer (2004-2008)
Speaker Introductions • Tanner Courrier • 4 Years Forensic Claims Experience • Consulting in Complex Litigations • Construction and Government Contracts • Settlement Negotiations and Presentations • AACE • Speaking in various industry forums • University Outreach • Event Planning
Speaker Introductions • Tanner Courrier (cont.) • BS In Construction Management • MBA In Process at UT Dallas • NAHB Student Competition Team • Certified Cost Technician, Certified Fraud Examiner, LEED Green Associate
Overview of AACE • 7000 Members Around The World • 84 Countries • Top Contractors And Owners • Bechtel, Flour, KBR, Jacobs, CB&I, Exxon, BP, Chevron, Duke Energy, NRG Energy • Cooperative Agreements • American Society Of Civil Engineers • Multiple Industries • Oil And Gas, Utilities, Civil Construction, Defense Contracting
Benefits of Membership • Discounted Membership For Students • Cost Engineering Journal (Digital Copy) • Education and technical skills at Seminars and Annual Meeting • Preparation for Certification
Benefits of Membership • Scholarship Program For College / University Students - More Than $40,000 Awarded Annually • Virtual Library – Wealth Of Research Literatures • Mentoring Program • Networking And Contacts – Expand Your Opportunities With Expansive AACE Members And Network • Where to Sign Up • http://www.aacei.org/mbr/student.shtml
AACE International Certification • Entry-Level / Junior Certification • CCT (Certified Cost Technician) • Requirement: 4 Years Of Experience OR 4 Years Of College-Level Academic. • Professional Level Certification • CCE/CCC (Certified Cost Engineer / Consultant) • CEP (Certified Estimating Professional) • CFCC (Certified Forensic Claims Consultant) • EVP (Earned Value Professional) • PSP (Planning & Scheduling Professional)
Certifications Explained Certified Cost Consultant (CCC) / Certified Cost Engineer (CCE) EVP PSP CEP CFCC Level of Detailed Exam Content
AACE Certification • http://www.aacei.org/educ/cert/CCT/
What is the YPC • The Young Professionals Committee Is A Group Within AACE That Interfaces With The Board of Directors To Create Value And Offerings For Young Professionals • YPC Gives You A Vehicle To Become A Leader In AACE And In Your Career
YPC Value Proposition • Why YPC? • Growth In Capital Projects • Aging Workforce • Training • Networking • Development Opportunities
YPC Events • Annual Meeting Networking Event • 2012 Annual Meeting in San Antonio • July 8-11, Marriott Rivercenter Hotel • 8 day passes for Texas State • Website And LinkedIn Subgroup • Cost Engineering Profile Articles • Leadership Conferences • University Outreach • Mentoring Program • Impromptu Dinners and Social Events
Project Controls 101 • Project Controls Is That Element Of A Project That Keeps It On-Track, On-Time And Within Budget • Cost, Risk, Quality, Communication, Time, Change, Procurement, And Human Resources • Project Controls Can Be Responsible For Projects, Programs, Or Portfolios That Contribute To The Company’s Bottom-Line
Useful Analogy Cost Risk Schedule Estimating Change Direction
Career Paths • Cost Engineer • Cost Estimator • Planner Scheduler • Claims Analyst • Project Risk Analyst • Project Controls Manager
Why Projects Fail • Projects fail for any number of reasons, including but not limited to: • Ambiguous business case • Lack of upfront planning • Inadequate or untrained resources • Failure to properly integrate deliverables or data • Unrealistic schedules or estimates • Poor communication • Inability to meet contractual requirements
Industrial Engineering & PC • Industrial Engineering (IE) can address the root causes of project failure • IE involves the study of how to manage/deploy people, materials, equipment, etc. to most effectively/efficiently produce a product or deliver a service • How to coordinate equipment, materials, people to achieve project objectives (i.e. project controls)
Industrial Engineering & PC • Critical Path Method (CPM) Scheduling • Pre-requisite is up-front planning to identify work activities and sequencing • Must understand which activities are critical and how much float is available for each • Process improvement leads to lean project delivery • Linear Scheduling • A scheduling methodology that can be applied to repetitive work: • pipe laying, tunneling, road construction, high rise building construction
Industrial Engineering & PC • Cost Management and Earned Value • Initially estimates inform project management on number of resources required • Forecasts and trending can highlight when additional resources may need to be applied • Cost variances can be identified and addressed • Risk Analysis and Simulation • IE routinely creates models of how large processes should work and performs simulations • Project business cases and contractual requirements should undergo sensitivity analysis
Scheduling Fundamentals • Schedule Planning and Development: Process for planning the work over time in consideration of costs, time, resources, and risks. • Planning • Define roles and responsibilities • Planning of time, costs, resources, tools, and methods required for performance of each phase. • Identify Activities • Translate work package scope into identifiable, manageable activities
Scheduling Fundamentals • Develop Activity Logic • Identify dependencies/relationships between activities • Estimate Durations • Determine start and finish dates of activities, and resource quantity, availability, and performance • Establish Schedule Requirements • Establish project/contract time limitations, date constraints, and other “milestones” • Allocate Resources • “Load” resources within resource consumption limitations • Optimize, Review, Validate, Document, Communicate, Submit, and Maintain
Scheduling Fundamentals • Source: AACE Total Cost Management Framework
Scheduling Application #1 • Forensic Schedule Analysis • The Investigation Of The Durations And Causes Of Project Delays
Why Schedule Analysis? • Time Is Money • Recovery Of Delay Damages Is Dependent On Proof Of Delay
Delay-Related Damages Contractor • Extended Field Overhead • Extended Home Office Overhead • Price Escalation • Extended Financing Costs • Acceleration Costs Owner • Lost Profit/Rent • Extended Financing Costs • Extended Management Costs • Liquidated Damages
Typical Work Flow Quantify Actual Project Delays Identify Actions, Inactions, Or Events Which Caused Delays Determine Liability Identify Impact On Costs/Damages
Quantify Actual Project Delays As-Planned Duration = 13 Days Plumbing Finish Start 5 Days Drywall Rough In Walls 4 Days 4 Days Electrical 3 Days
Quantify Actual Project Delays Critical Path: Path With the Longest Duration Of All Paths Through the Project Plumbing Finish Start 5 Days Drywall Rough In Walls 4 Days 4 Days Electrical 3 Days Float 2 Days
Quantify Actual Project Delays 2 Day Delay Plumbing Start Finish 5 Days Drywall Rough In Walls 4 Days 4 Days Electrical Float 3 Days 3 Days Planned Duration : 13 days Actual Duration: 15 days Delay: 2 days
Identify Causes Of Delay • Contractor Caused Delay: Located an email from the Plumbing Foreman to the Project Manager “Gary, we don’t have the right size pipe for this last run. The purchasing department ordered PVC and we need copper. We are stuck until the correct pipe gets delivered. Please get this ordered right away.”
Identify Causes Of Delay • Owner Caused Delay: Located an RFI from the Contractor to the Owner “There is a conflict in the west wall between Column Lines 3 and 4. We cannot fit our piping in the open space due to an HVAC plenum that has been previously installed. Please send a revised detail for this section.”
Determine Liability • We located a receiving report that showed that the correct pipe showed up on site that same afternoon. • We located a Field Change Directive from the Owner to the Contractor providing clarification on the drawing conflict. It was issued two days after the RFI and the contract stipulates a one day turnaround on RFIs.
Calculate Damages • What will be the most likely classification for the damages incurred by our contractor?
Delay-Related Damages Contractor • Extended Field Overhead • Extended Home Office Overhead • Price Escalation • Extended Financing Costs • Acceleration Costs Owner • Lost Profit/Rent • Extended Financing Costs • Extended Management Costs • Liquidated Damages
Calculate Damages • Extended Field Overhead Damages Calculation: 2 Days x $710 = $1,420
Azure Slides • Placeholder for actual claims example if time permits
Scheduling Application #2 • Using an integrated portfolio schedule to monitor and improve cycle time • “As-Was” State • Consisted of a number of separate planning tools which were not integrated • No overall integrated schedule, so changes (e.g. permitting delay) not automatically cascaded to remaining elements • Resourcing (crews, rigs, materials) done thorough separate planning (Excel) tools • Logistics planning not optimized due to ever-changing well development