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Securing a City's Future Water Supply: Building a Reservoir in Charlottesville, Virginia Net Present Value (NPV) / MBA Resources

Introduction to Net Present Value (NPV) - What is Net Present Value (NPV) ? How it impacts financial decisions regarding project management?

NPV solution for Securing a City's Future Water Supply: Building a Reservoir in Charlottesville, Virginia case study


At Oak Spring University, we provide corporate level professional Net Present Value (NPV) case study solution. Securing a City's Future Water Supply: Building a Reservoir in Charlottesville, Virginia case study is a Harvard Business School (HBR) case study written by Peter Debaere, Brian Ritcher. The Securing a City's Future Water Supply: Building a Reservoir in Charlottesville, Virginia (referred as “Water Reservoir” from here on) case study provides evaluation & decision scenario in field of Global Business. It also touches upon business topics such as - Value proposition, .

The net present value (NPV) of an investment proposal is the present value of the proposal’s net cash flows less the proposal’s initial cash outflow. If a project’s NPV is greater than or equal to zero, the project should be accepted.

NPV = Present Value of Future Cash Flows LESS Project’s Initial Investment






Case Description of Securing a City's Future Water Supply: Building a Reservoir in Charlottesville, Virginia Case Study


The case is about a city's water security and draws on the intense debate about the construction of a reservoir in a college town in Virginia in the wake of a record drought. The case highlights the role of public utilities in water provision, illustrates the different positions of various stakeholders, and raises the question of what the appropriate price for water is. It provides stylized facts of water use across sectors and rests on a basic analysis of present and future water demand as well as on an assessment of future water supply. This case is used in Darden's elective, "The Global Economics of Water." It would also work well in courses dealing with the environmental impacts of urban planning."


Case Authors : Peter Debaere, Brian Ritcher

Topic : Global Business

Related Areas :




Calculating Net Present Value (NPV) at 6% for Securing a City's Future Water Supply: Building a Reservoir in Charlottesville, Virginia Case Study


Years              Cash Flow     Net Cash Flow     Cumulative    
Cash Flow
Discount Rate
@ 6 %
Discounted
Cash Flows
Year 0 (10021806) -10021806 - -
Year 1 3464053 -6557753 3464053 0.9434 3267975
Year 2 3964635 -2593118 7428688 0.89 3528511
Year 3 3963162 1370044 11391850 0.8396 3327547
Year 4 3234065 4604109 14625915 0.7921 2561682
TOTAL 14625915 12685715




The Net Present Value at 6% discount rate is 2663909

In isolation the NPV number doesn't mean much but put in right context then it is one of the best method to evaluate project returns. In this article we will cover -

Different methods of capital budgeting


What is NPV & Formula of NPV,
How it is calculated,
How to use NPV number for project evaluation, and
Scenario Planning given risks and management priorities.




Capital Budgeting Approaches

Methods of Capital Budgeting


There are four types of capital budgeting techniques that are widely used in the corporate world –

1. Profitability Index
2. Net Present Value
3. Internal Rate of Return
4. Payback Period

Apart from the Payback period method which is an additive method, rest of the methods are based on Discounted Cash Flow technique. Even though cash flow can be calculated based on the nature of the project, for the simplicity of the article we are assuming that all the expected cash flows are realized at the end of the year.

Discounted Cash Flow approaches provide a more objective basis for evaluating and selecting investment projects. They take into consideration both –

1. Magnitude of both incoming and outgoing cash flows – Projects can be capital intensive, time intensive, or both. Water Reservoir shareholders have preference for diversified projects investment rather than prospective high income from a single capital intensive project.
2. Timing of the expected cash flows – stockholders of Water Reservoir have higher preference for cash returns over 4-5 years rather than 10-15 years given the nature of the volatility in the industry.






Formula and Steps to Calculate Net Present Value (NPV) of Securing a City's Future Water Supply: Building a Reservoir in Charlottesville, Virginia

NPV = Net Cash In Flowt1 / (1+r)t1 + Net Cash In Flowt2 / (1+r)t2 + … Net Cash In Flowtn / (1+r)tn
Less Net Cash Out Flowt0 / (1+r)t0

Where t = time period, in this case year 1, year 2 and so on.
r = discount rate or return that could be earned using other safe proposition such as fixed deposit or treasury bond rate. Net Cash In Flow – What the firm will get each year.
Net Cash Out Flow – What the firm needs to invest initially in the project.

Step 1 – Understand the nature of the project and calculate cash flow for each year.
Step 2 – Discount those cash flow based on the discount rate.
Step 3 – Add all the discounted cash flow.
Step 4 – Selection of the project

Why Global Business Managers need to know Financial Tools such as Net Present Value (NPV)?

In our daily workplace we often come across people and colleagues who are just focused on their core competency and targets they have to deliver. For example marketing managers at Water Reservoir often design programs whose objective is to drive brand awareness and customer reach. But how that 30 point increase in brand awareness or 10 point increase in customer touch points will result into shareholders’ value is not specified.

To overcome such scenarios managers at Water Reservoir needs to not only know the financial aspect of project management but also needs to have tools to integrate them into part of the project development and monitoring plan.

Calculating Net Present Value (NPV) at 15%

After working through various assumptions we reached a conclusion that risk is far higher than 6%. In a reasonably stable industry with weak competition - 15% discount rate can be a good benchmark.



Years              Cash Flow     Net Cash Flow     Cumulative    
Cash Flow
Discount Rate
@ 15 %
Discounted
Cash Flows
Year 0 (10021806) -10021806 - -
Year 1 3464053 -6557753 3464053 0.8696 3012220
Year 2 3964635 -2593118 7428688 0.7561 2997834
Year 3 3963162 1370044 11391850 0.6575 2605843
Year 4 3234065 4604109 14625915 0.5718 1849087
TOTAL 10464984


The Net NPV after 4 years is 443178

(10464984 - 10021806 )








Calculating Net Present Value (NPV) at 20%


If the risk component is high in the industry then we should go for a higher hurdle rate / discount rate of 20%.

Years              Cash Flow     Net Cash Flow     Cumulative    
Cash Flow
Discount Rate
@ 20 %
Discounted
Cash Flows
Year 0 (10021806) -10021806 - -
Year 1 3464053 -6557753 3464053 0.8333 2886711
Year 2 3964635 -2593118 7428688 0.6944 2753219
Year 3 3963162 1370044 11391850 0.5787 2293497
Year 4 3234065 4604109 14625915 0.4823 1559638
TOTAL 9493064


The Net NPV after 4 years is -528742

At 20% discount rate the NPV is negative (9493064 - 10021806 ) so ideally we can't select the project if macro and micro factors don't allow financial managers of Water Reservoir to discount cash flow at lower discount rates such as 15%.





Acceptance Criteria of a Project based on NPV

Simplest Approach – If the investment project of Water Reservoir has a NPV value higher than Zero then finance managers at Water Reservoir can ACCEPT the project, otherwise they can reject the project. This means that project will deliver higher returns over the period of time than any alternate investment strategy.

In theory if the required rate of return or discount rate is chosen correctly by finance managers at Water Reservoir, then the stock price of the Water Reservoir should change by same amount of the NPV. In real world we know that share price also reflects various other factors that can be related to both macro and micro environment.

In the same vein – accepting the project with zero NPV should result in stagnant share price. Finance managers use discount rates as a measure of risk components in the project execution process.

Sensitivity Analysis

Project selection is often a far more complex decision than just choosing it based on the NPV number. Finance managers at Water Reservoir should conduct a sensitivity analysis to better understand not only the inherent risk of the projects but also how those risks can be either factored in or mitigated during the project execution. Sensitivity analysis helps in –

What will be a multi year spillover effect of various taxation regulations.

What are the uncertainties surrounding the project Initial Cash Outlay (ICO’s). ICO’s often have several different components such as land, machinery, building, and other equipment.

What can impact the cash flow of the project.

Understanding of risks involved in the project.

What are the key aspects of the projects that need to be monitored, refined, and retuned for continuous delivery of projected cash flows.

Some of the assumptions while using the Discounted Cash Flow Methods –

Projects are assumed to be Mutually Exclusive – This is seldom the came in modern day giant organizations where projects are often inter-related and rejecting a project solely based on NPV can result in sunk cost from a related project.

Independent projects have independent cash flows – As explained in the marketing project – though the project may look independent but in reality it is not as the brand awareness project can be closely associated with the spending on sales promotions and product specific advertising.






Negotiation Strategy of Securing a City's Future Water Supply: Building a Reservoir in Charlottesville, Virginia

References & Further Readings

Peter Debaere, Brian Ritcher (2018), "Securing a City's Future Water Supply: Building a Reservoir in Charlottesville, Virginia Harvard Business Review Case Study. Published by HBR Publications.


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