Reading: Net Cash Flow Basics

To practice the computation of net cash flows once more, let us consider the following example:

Food-Fly Company is considering purchasing a set of drones to deliver food in the greater Rochester area. To this end, the firm has collected the following information:

• The drones cost 400'000 today and will be depreciated linearly over their useful life of 4 years.
   
• The project is expected to generate the following revenues:
  • Year 1: 150'000
  • Year 2: 300'000
  • Year 3: 400'000
  • Year 4: 500'000
     
• Operating expenses (excluding depreciation) amount to 60% of revenues.
   
• The tax rate is 20%. Possible losses can be compensated with Food-Fly's profits from other projects.
   
• To operate the drones, additional net working capital of 80'000 is required today. This net working capital will be used up linearly over the 4 years (20'000 per year).
   
• The drones are expected to have zero salvage value.

Should the company launch the project if the cost of capital is 10%?

To find out, we can compute the project's net cash flows based on the above information (see also the accompanying Excel file): 

Again, a few points are worth mentioning before valuing the cash flows:

• Negative taxes:
  • In year 1, the taxable income is negative (-40'000). Our assumption was that losses from the project can be compensated with profits from other projects of the firm. Consequently, the loss of 40'000 in year 1 reduces the firm's overall tax bill by 8'000 [=0.2 × 40'000].
  • If the firm has no other profitable projects, the assumption of negative taxes is not very realistic, as losses usually do not translate into a immediate cash compensation from the IRS. In such a scenario, it would be more realistic to set taxes = 0 and then carry the loss forward to future years with profits.
    
    
• Net Working Capital: We have assumed that the additional NWC is 80'000 today and that this NWC will be used up linearly over the 4 years of the project:
  
  • Each year, the firm therefore frees 20'000 of the capital that is tied up in the NWC. This corresponds to a cash inflow.
  • In the cash flow statement, we subtract increases in the NWC. Over the years 1 to 4, we observe a negative increase of 20'000 per year. Consequently, we subtract a negative value (which is a very complicated way of adding that value). 
  • For example, in year 1, the EBIAT is -32'000, Depreciation is 100'000 and ΔNWC is -20'000. Consequently, the operating cash flow is:
    
    OCF₁ = EBIAT + Depreciation −ΔNWC = − 32'000 + 100'000 − (−20'000) = 88'000.
     

Project valuation

Assuming a cost of capital of 10%, the NPV of the project is -24'780:
 

\(NPV=\sum^4_{t=0} \frac{NCF_t}{(1+k)^t}\)

\(NPV=-480'000 +\frac{88'000}{1.1}+\frac{136'000}{1.1^2}+\frac{168'000}{1.1^3}+\frac{200'000}{1.1^4}=-24'780\)

It is therefore a bad project. The future cash inflows are not sufficient to cover the cost of capital of 10%. If the company proceeds with the project, its value will drop by roughly 25'000.
 

Another way to see that it is a bad project is to compute its Internal Rate of Return (IRR). The IRR is roughly 8% and therefore lower than the cost of capital.