The DC Degradation inputs allow you to model a decline in a photovoltaic system's output over time due, for example, to the degradaton of module cover material.

Notes.
 
When you specify degradation in each year, SAM ignores the value you specify for Year 1 (Row 1 of the input table) because it assumes degradation applies in Years 2 and later.
 
The multi-year simulation uses the same weather file for each year, so it does not accurately represent the effect of changes in the solar resource and weather from year to year over the analysis period.

The lifetime daily losses inputs  can be used to model losses in the system that vary over the analysis period and are not covered by annual degradation.

Annual Degradation for Multi-year Simulation

Annual DC degradation rate

The reduction in system DC output in each time step as a percentage of the system's DC output in each time step by year.

Lifetime Daily Losses

In addition to the annual DC degradation, you can define tables of daily AC and DC losses over the analysis period. This requires that you have a set of losses for each day over the analysis period (defined on the Financial Parameters page). For example, for an analysis period of 25 years, you would need a table of 1 value/day × 365 days/year × 25 years = 9,125 values.

Note. Inputs on the Grid and Losses page can be used to model curtailment and system availability losses.

Enable lifetime daily DC losses

Check the box, and then click Edit time series data to enter a table of DC loss percentages as a percentage of the system's DC output in each day for each year in the analysis period. The table requires a set of 365 values for each year in the analysis period.

Enable lifetime daily AC losses

Check the box, and then click Edit time series data to enter a table of AC loss percentages as a percentage of the system's AC output in each day for each year in the analysis period. The table requires a set of 365 values for each year in the analysis period.

Value and Schedule Mode

Value Mode: Fixed Degradation Rate

For most situations where you want to model an annual reduction in the system's output, you can use a single annual degradation rate that applies to all years of the project cash flow. SAM applies the percentage to the system's total annual electrical output value in years 2 and later.

For example, for performance models other than the Detailed Photovoltaic and PVWatts models, a degradation rate of 1% for a system with a net annual output of 100,000 kWh in Year one results in annual output values of 100,000 kWh in year 1, 99,000 kWh in year 2, 98,010 kWh in year 3, 97,029.9 kWh in year 4, etc.

Schedule Mode: Annual Degradation Rates

In some situations, you may want to assign a different degradation rate to different years of the project cash flow. To do that, you use the annual schedule option to specify a table of degradation rate values. In Schedule mode, SAM applies the degradation rate for a given year to the annual output in Year one to calculate the annual output for that year.

For example, for a system with a Year 1 output of 10,000 kWh, if you specify a degradation rate of 0.5% for Year 5, SAM would calculate the annual output in Year 5 as follows: 10,000 kWh × (1 - 0.005) = 9,950 kWh.

Note. Because Year 1 is the first year of operation before degradation begins, you should set the degradation rate for Year 1 (the first row in the degradation table) to zero.

To enter an annual schedule of degradation rates:

1.Click the grey and blue Value/Sched button so Sched is highlighted in blue. SAM replaces the variable's value with an Edit button.

2.Click Edit.

3.Change Number of values to the the analysis period from the Financial Parameters page. The number of rows in the table should be the number of years in the analysis period.

4.In the table of values, either type a value in each row, or click Paste to paste values from your computer's clipboard. Row 1 is for Year 1.

To delete a value, select it and press the Delete key on your keyboard.

You must type a value for each year. If you delete a value, SAM will clear the cell, and you must type a number in the cell or SAM will consider the schedule to be invalid. Type a zero for years with no value.

Memory Saving Option for Subhourly Simulations

If you are running subhourly simulations over the analysis period, the number of values for each output variable can be very large. For, example, one-minute simulations over a 25-year analysis period would result in 1 time step/min × 60 min/hr × 8,760 hr/yr × 25 yr = 13,140,000 time steps, so each output variable would store over 13 million values.

If your computer is experiencing memory problems, or if the tables and graphs on the Results page are not working properly, you can clear Save all output variables over analysis period to reduce the amount of memory required to display simulation results.That will cause SAM to save only a selection of variables in "lifetime mode" with values over the entire analysis period. The remaining variables will only store one year's worth of data so you can still examine hourly data to see how the system performs.