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ENERGY + INNOVATION. Energy/Facilities Connection 05.21.08. FOR THE LIFE OF YOUR BUILDING. Ryan Dickerson - Analyst | McKinstry. Agenda. Introductions (Ryan Dickerson, McKinstry) What is Total Cost of Ownership? Case Studies Questions?. McKinstry Overview….
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ENERGY + INNOVATION Energy/Facilities Connection 05.21.08 FOR THE LIFE OF YOUR BUILDING Ryan Dickerson - Analyst | McKinstry
Agenda • Introductions (Ryan Dickerson, McKinstry) • What is Total Cost of Ownership? • Case Studies • Questions?
McKinstry Overview… • 47 Year old Seattle Headquartered Company • WA, OR, ID, CO, MN, & WY pre-qualified ESCO • Offer Full Service M/E/P Design & Construction Services • Largest Dedicated Energy Services Group in the PNW • Perform Projects of all sizes ($50k to $15M) • Financially strong - $100M in bonding capacity • 1200+ dedicated employees (500 professionals & 700 trades) • 55 Engineers with 23 LEED Accredited Professionals
Where did Total Cost of Ownership Come From? • Developed in the late 1980’s in the computer industry to manage the cost of IT infrastructure • Found that 1st costs were minor in comparison to infrastructure & support costs • Developed an integrated financial modeling tool for projects
Difficulties in Achieving High Performance Buildings • Typical approaches are fragmented – not integrated! • No connections between first costs, operations costs, and sustainability • Design decisions are often first cost driven • Last minute Value Engineering! • LEED is based on a scorecard and not long term building functionality
Are We Improving? • Is the design and construction industry improving as an industry? • How far have we come over the past 30 years as compared to other industries?
Industry Example: • Boeing changed the airline industry • Vertical Integration • Outcome Focused Approach • Span of Control • Aligned All Parties
What do you get with TCO? • Decision making platform – considering all factors! • Integration of all financial elements related to a building • Clear view of NOI/ROI for each element of a project • Integrates first cost with long term costs • Allows for pragmatic assessment of sustainable features
Capital Capital Program Program Renewal Renewal Flexibility Flexibility costs costs costs costs First cost First cost Operational Operational LEED/ Carbon Footprint TCO TCO costs costs Energy Energy Risk Risk modeling modeling Management Management Operational Operational benefits benefits Improved Improved productivity productivity Evaluate Design Concepts
Sustainability as an Evaluation/Outcome You can be pragmatic about sustainability High performance buildings do not need to be a first cost premium TCO evaluates the cost and benefits of LEED points across all segments of the project
Mitigate Impact on Capital Expenditures • TCO can forecast capital improvements over life of building • Evaluate impact of first costs on future expenditures
Truly Understand Operational Costs • Vast database of historical operations information to build the model • TCO aides decision making to minimize operations impacts • TCO helps bridge the gap between capital planning and operations department to achieve decision buy in.
Productivity – Improve Physical Learning , Teaching & Research Environment • Evaluate qualitative aspects of the building • Evaluate success meeting tenant and owner priorities
TCO Quantifies Carbon Emissions • Quantify Emissions From: • Energy Usage • Worker Travel • Material Shipping • Carbon Footprint Measurement • Develops a System for Measuring Carbon • Both During and After Construction
Wide Range of Project Types Leveraging TCO • A Commercial Real Estate Project used TCO: • To evaluate designs against previous benchmarks • K – 12 School District Client Project used TCO: • To facilitate team communication • Instead of traditional value engineering • Higher Education Project: • To develop a Sustainability Master Plan • A Healthcare Project used TCO: • To evaluate remodel vs. new construction scenarios
Keys to Successful Sustainable Projects • Involve Entire Team • Understand the Desired End Result • Focus on the Real Project Drivers and Financial Assumptions / Requirements • Integrated and Guaranteed Turn-key delivery • Stay Committed
Average Savings of High Performance Buildings Energy Savings 30% Carbon Savings 35% Water Use Savings 30-50% Waste Cost Savings 50-90%
“For the Life of Your Building” • McKinstry projects have eliminated 150,000 metric ton of CO2 emissions in the past five years. This equates to: • Planting 9 million trees • Removing 8,500 cars from local highways • McKinstry has saved customers nearly 150 million kWh & 10 million Therms in the past five years. That equates to • Converting 1 million 60-watt incandescent bulbs to fluorescent bulbs • Converting 200,000 showerheads from 2.5 gpm to 2.0 gpm. • On average, McKinstry uses over 2 million pounds of steel annually, of which: • 1.3 million pounds is recycled. • The recycled content saves enough energy to power over 110 American households per year.