value of flexibility an introduction using a spreadsheet analysis of a multi-story parking garage
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Value of Flexibility an introduction using a spreadsheet analysis of a multi-story parking garage. Tao Wang and Richard de Neufville. Intended “Take-Aways”. Design for fixed objective (mission or specifications) is engineering base case - PowerPoint PPT PresentationTRANSCRIPT
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Value of Flexibilityan introduction
using a spreadsheet analysisof a multi-story parking garage
Tao Wang and Richard de Neufville
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Intended “Take-Aways”• Design for fixed objective (mission or
specifications) is engineering base case
• Recognizing variability => different design (because of system non-linearities)
• Recognizing flexibility => even better design (it avoids costs, expands only as needed)
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Outline of presentation
• Value at Risk
• Analyzing flexibility using spreadsheet
• Parking garage case
• Mining case
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Value at Risk Concept• Value at Risk (VAR) recognizes
fundamental reality: actual value of any design can only be known probabilistically
• Because of inevitable uncertainty in – Future demands on system– Future performance of technology– Many other market, political factors
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Value at Risk Definition• Value at Risk (VAR) definition:
– A loss that will not be exceeded at some specified confidence level
– “We are p percent certain that we will not lose more than V dollars for this project.”
• VAR easy to see on cumulative probability distribution (see next figure)
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• Look at distribution of NPV of designs A, B:– 90% VAR for NPVA is -$91– 90% VAR for NPVB is $102
CDF
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-400 -200 0 200 400 600
NPV
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NPVA NPVB 90% VAR for NPVA90%VAR for NPVB 10% Probability
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Notes:• Cumulative distribution function (CDF)
shows the probability that the value of a variable is < or = to quantity on x axis
• VAR can be found on the CDF curve:– 90% VAR => 10% probability the value is
less or equal– NPV corresponding to the 10% CDF is
90% VAR
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VAR and Flexibility
• VAR is a common financial concept• It stresses downside losses, risks • However, designers also need to look at
upside potential: “Value of Gain” • Flexible design provides value by both:
– Decreasing downside risk– Increasing upside potential– See next figure
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Sources of value for flexibility
Cumulative Probability
Value
Original distribution
Distribution with flexibility
Cut downside risks
Expand upside potential
Cut downside ; Expand Upside
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Excel Analysis Sequence toillustrate value of flexibility
1: Examine situation without flexibility – This is Base case design
2: Introduce variability (simulation)=> a different design (in general)
3: Introduce flexibility=> a even different and better design
• Note: Excel simulation techniques taught in ESD.70
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Parking Garage Case• Garage in area where population expands• Actual demand is necessarily uncertain
• Design Opportunity: Strengthened structure – enables future addition of floor(s) (flexibility)– costs more (flexibility costs)
• Design issue: is extra cost worthwhile?
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Parking Garage Case details• Demand
– At start is for 750 spaces– Over next 10 years is expected to rise exponentially by
another 750 spaces– After year 10 may be 250 more spaces– could be 50% off the projections, either way;– Annual volatility for growth is 10%
• Average annual revenue/space used = $10,000
• The discount rate is taken to be 12%
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Parking Garage details (Cont)• Costs
– annual operating costs (staff, cleaning, etc.) = $2,000 /year/space available
(note: spaces used is often < spaces available)– Annual lease of the land = $3.6 Million – construction cost = $16,000/space + 10% for each
level above the ground level
• Site can accommodate 200 cars per level
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Step 1: Set up base case
0 1 2 3 19 20Demand 750 893 1,015 1,688 1,696Capacity 1,200 1,200 1,200 1,200 1,200Revenue $7,500,000 $8,930,000 $10,150,000 $12,000,000 $12,000,000Recurring Costs
Operating cost $2,400,000 $2,400,000 $2,400,000 $2,400,000 $2,400,000Land leasing cost $3,600,000 $3,600,000 $3,600,000 $3,600,000 $3,600,000 $3,600,000
Cash flow $1,500,000 $2,930,000 $4,150,000 $6,000,000 $6,000,000Discounted Cash Flow $1,339,286 $2,335,778 $2,953,888 $696,641 $622,001Present value of cash flow $32,574,736Capacity costs for up to two levels $6,400,000Capacity costs for levels above 2 $16,336,320Net present value $6,238,416
Year
Demand growth as predicted, no variability
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Optimal design for base case (no uncertainty) is 6 floors
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Number of Floors
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PV
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Traditional NPV Recognizing uncertainty
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Step 2: Simulate uncertainty
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-17.8 -15.6 -13.5 -11.3 -9.2 -7.0 -4.9 -2.7 -0.6 1.6 3.7 5.9 8.0
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5-floor design Simulated Mean
6-floor design Determ inistic
Result
Lower demand => Loss
Higher demand => Gain limited by garage size
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NPV Cumulative Distributions
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CDF for Result of Simulation Analysis (5-
floor) Implied CDF for Result of
Deterministic NPV Analysis (6-floor)
Compare Actual (5 Fl) with unrealistic fixed 6 Fl design
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Recognizing uncertainty => different design (5 floors)
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Number of Floors
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PV
($, M
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Traditional NPV Recognizing uncertainty
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Step 3: Introduce flexibility into design (expand when needed)
0 1 2 3 19 20Demand 820 924 1,044 1,519 1,647Capacity 800 800 1,200 1,600 1,600
Decision on expansion expandExtra capacity 400
Revenue $8,000,000 $8,000,000 $10,440,000 $15,190,000 $16,000,000Recurring Costs
Operating cost $1,600,000 $1,600,000 $2,400,000 $3,200,000 $3,200,000Land leasing cost $3,600,000 $3,600,000 $3,600,000 $3,600,000 $3,600,000 $3,600,000Expansion cost $8,944,320
Cash flow $2,800,000 -$6,144,320 $4,440,000 $8,390,000 $9,200,000Discounted Cash Flow $2,500,000 -$4,898,214 $3,160,304 $974,136 $953,734Present value of cash flow $30,270,287Capacity cost for up to two levels $6,400,000Capacity costs for levels above 2 $7,392,000Price for the option $689,600Net present value $12,878,287
Year
Including Flexibility => Another, better design:
4 Floors with strengthened structure enabling expansion
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Summary of design results from different perspectives
Why is the optimal design much better when we design with flexibility?
Perspective Simulation Option Embedded Design Estimated Expected NPVDeterministic No No 6 levels $6,238,416
Recognizing Uncertainty Yes No 5 levels $3,536,474
Incorporating Flexibilty Yes Yes4 levels with strengthened
structure$10,517,140
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Sources of value for flexibility:1) Minimize exposure to downside risk
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5-Floor Design 4-Floor Design
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Sources of value for flexibility: 2) Maximize potential for upside gain
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CDF for NPV with Flexibility
CDF for NPV without Flexibility
Mean for NPV without Flexibility
Mean for NPV with Flexibility
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Comparison of designswith and without flexibility
Wow! Everything is better! How did it happen?
Root cause: change the framing of the problem
• recognize uncertainty ; add in flexibility thinking
Design Design with Flexibility Thinking Design without Flexibility thinking Comparison(4 levels, strengthened structure) (5 levels)
Initial Investment $18,081,600 $21,651,200 Better with optionsExpected NPV $10,517,140 $3,536,474 Better with optionsMinimum Value -$13,138,168 -$18,024,062 Better with optionsMaximum Value $29,790,838 $8,316,602 Better with options
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Cash Flow SimulationOption to Abandon in MiningFor a Marginally Profitable Underground
Mining OperationVassilios Kazakidis, Associate ProfessorMining Engineering, Laurentian University
Text refers to spreadsheet analysis used for demonstration
Draft Presentation: Do not quote or circulate without permission
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Outline• Cash flow simulation model created in Excel to model an
abandonment decision in a marginally profitable underground nickel mine.
• The model was created using actual cost and production data from a currently operating mine.
• Nickel is a historically volatile metal (~35%/yr).• Abandonment occurs when metal prices fall low enough to make
the project unprofitable (the trigger).• When metal prices fall low enough, this causes the operating
costs to exceed the revenues generated. • If this occurs during any period, an “IF statement” in the model
triggers the abandonment, and an associated abandonment cost is incurred.
By Vassilios Kazakidis (Do not quote or circulate without permission)
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Revenue and Cost Simulation• The Revenue generated during each period is
determined by simulating the metal price based on an inputted initial value ($2.8/lb) and volatility (40%) and using the Brownian motion. The metal price is then multiplied by the number of lbs mined per period to give the revenue generated.
• The Operating cost is simulated for each period based on an inputted initial value ($1.412 M) and cost volatility (9.6%), again using Brownian motion. Cost volatility is caused by uncertainties due to ground problems or equipment failures which are common occurrences in underground mines, and which affect costs.
• The mine has the option to abandon at the start of any of the simulated periods if operating cost > revenue.
By Vassilios Kazakidis (Do not quote or circulate without permission)
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Model Layout• The model is divided into 3 spreadsheet tabs:
– Input Parameters– No Option to Abandon– Option to Abandon
• In the “No Option” tab, no abandonment can occur.• In the “Option to Abandon” tab, shutdown may occur.• Simulating NPV values for both of these spreadsheets will
show that the NPV in the “option to abandon” is consistently higher then with “no option”.
• With the “option to abandon”, the very low (even negative) tail-end NPV values are essentially cut-off.
• The difference between the simulated NPV’s in both spreadsheets is the value of flexibility.
By Vassilios Kazakidis (Do not quote or circulate without permission)
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Summary
• Sources of value for flexibility– Cut downside risk– Expand upside potential
• VAR chart is a neat way to represent the sources of value for flexibility
• Spreadsheet with simulation is a powerful tool for estimating value of flexibility