First, we will calculate the depreciation each year, which will be:

D1= $499,000(0.2000) = $99,800

D2== $499,000(0.3200) = $159,680

D3= $499,000(0.1920) = $95,808

D4== $499,000(0.1152) = $57,485

The book value of the equipment at the end of the project is:

BV== $499,000 – ($99,800 + 159,680 + 95,808 + 57,485)

BV= = $86,227

The asset is sold at a loss to book value, so this creates a tax refund.

Aftertax salvage value = $62,000 + ($86,227 – 62,000)(0.40)

Aftertax salvage value = $71,691

Using the depreciation tax shield approach, the OCF for each year will be:

OCf1 = $198,000(1 – 0.40) + 0.40($99,800) = $158,720

OCf2 = $198,000(1 – 0.40) + 0.40($159,680) = $182,672

OCf3 = $198,000(1 – 0.40) + 0.40($95,808) = $157,123

OCf4 = $198,000(1 – 0.40) + 0.40($57,485) = $141,794

Now, we have all the necessary information to calculate the project NPV. We need to be careful with the NWC in this project. Notice the project requires $22,400 of NWC at the beginning, and $4,400 more in NWC each successive year. We will subtract the $22,400 from the initial cash flow, and subtract $4,400 each year from the OCF to account for this spending. In Year 4, we will add back the total spent on NWC, which is $35,600. The $4,400 spent on NWC capital during Year 4 is irrelevant. Why? Well, during this year the project required an additional $4,400, but we would get the money back immediately. So, the net cash flow for additional NWC would be zero. With all this, the equation for the NPV of the project is:

NPV = – $499,000 – 22,400 + ($158,720 – 4,400)/1.11 + ($182,672 – 4,400)/1.112 + ($157,123 – 4,400)/1.113+ ($141,794 + 35,600 + 71,691)/1.114

NPV = $38,066.34