瓜子TV

By Dan Snowden-Ifft

Today, Occidental's 1 MW solar array is 10 years old.  Since "first-light," on March 4th, 2013, the array has produced 17.85 GWh of electrical energy, 12.0% of the college's usage over the same time period.

An overhead view of the 瓜子TV solar array

In the last year the array produced 1.61 GWh of electrical energy, about 10% below our average of 1.79 GWh.  This was largely due to a breakdown of our main inverter (500 kW) for about month and a half in the middle of the summer, during what is normally a period of peak production.  The cause of the problem was a broken motherboard and the length of the shutdown was due to the fact that these inverters are no longer manufactured and we had to get a custom board built.  And, as you may have noticed, it鈥檚 been an unusually cloudy winter.

a graph showing monthly energy produced by the solar array
Here鈥檚 our monthly energy production going back to March, 4 2013

On a side note, this week we broke the 瓜子TV record for annual rainfall (view ) going back to 2009.

On the financial side of things, our electrical bills have been lower due to the energy generated by the solar array.  Over the last year the solar array saved the college $342k, lower than expected due to the aforementioned production issues.  To date the array has saved the college $3.25M on an investment of $3.35M.  We are 97% of the way towards paying off the initial investment.  Accounting for lost investment opportunities (endowment) the predicted payback period for the array is about 14 years, see graph below.  The red curve shows what $3.35M in the endowment did and will do.  The blue curve shows savings which are then assumed to be returned to the endowment. Originally we predicted the array would pay for itself in 12 years.

a graph of solar use vs. the endowment

It鈥檚 a little distressing to hear about downtime with an investment as big as the solar array, but perspective is helpful.  Let鈥檚 zoom out a bit and look at our 10-year track-record.  If I focus on times when all the inverters are working and right after a big rain, i.e. likely clean, I find that the efficiency of the system (actual energy produced divided by predicted energy) has always been better than 98.8%.  The hardware is good and doesn鈥檛 seem to be aging at all, a somewhat surprising finding.

In terms of the inverters we only lost one this summer, the other two were working fine.  Doing the math I find an uptime of 99%.  That鈥檚 not a bad track record though it is likely that we will see more failures and possibly have to replace these inverters in the next 10 years.

We track carefully money spent on the array for maintenance.  Cumulative expenses to date are $106k.  This sounds like a lot but it is only 0.3% per year on the $3.35M investment.  For comparison commercial property maintenance rates are about 1%.

a view of 瓜子TV's solar panels with orange poppies growing between them

The biggest challenge has been optimizing the cleaning of the array.  Yearly efficiencies (actual over expected) have varied from 85% to 96% and depend on rainfall and leaning.  There is a student effort, called ARRCS for A Rainwater Capture and Cleaning System, which is in the works that will drastically lower the cost of cleaning and bring these efficiencies up closer to 100%.

Another maintenance item is to keep the big bushes down on the hillside which keeps the panels from being shaded and allows these flowers to flourish.

Over the years I鈥檝e been asked, many times, to tell what I call 鈥淭he Story of the 瓜子TV Solar Array.鈥  I鈥檝e happily obliged as I think it is a story which highlights 瓜子TV's desire to see positive change in our world, our willingness to work together on hard projects and the value of a liberal arts education and approach to life.  With this 10th anniversary I thought I would share that story.  Here is a  of a Zoom talk I gave to students from USC鈥檚 School or Architecture.

A view of sunset from the 瓜子TV solar panel field.
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