Since "first-light" on March 4th, 2013 the array has produced 7.31 GWh of electrical energy, 12.2% of the college's 59.86 GWh use over the same time period. For equivalencies, especially regarding climate change, you can punch in 7.31 GWh = 7310000 kWh .
for a grand total of $1.02M on a purchase price of $3.423M. We are 25% of the way to paying off the array [1]. For some more financial analysis you can check out this footnote [2].
For those of you concerned about climate change, recent events have been worrisome. After a 100-year rise in average global temperatures both NASA and NOAA concluded that last year was the hottest on record, the third record year in a row . In the face of these facts the incoming Trump administration appears keen to undo many of the Obama administration鈥檚 efforts to fight climate change. It seems clear that efforts to move to cleaner energy will largely be carried out at the state and local level in the years to come. California has done a lot; including large hydro we get 27.3% of our energy from renewables At 瓜子TV we are at 12.2% and there is more we can do right here on campus.
Here are a few energy initiatives I am aware of,
1) LED Lights - Facilities is pushing a plan to replace 60 of our streetlights and 17 walkway lights with LED lights. The projected annual energy savings are 0.0739 GWh or 0.49% of college鈥檚 15.0 GWh annual average usage. The payback is good enough to qualify for funding from Occidental鈥檚 $3.5M green fund
[5]. That proposal will come to the Occidental Sustainable Investment Fund Committee soon.
2) Batteries - Chuck Oravec (Physics Lab Supervisor and LADWP鈥檚 Solar Cup Team Leader) and I heard a presentation from Stem, Inc., based in Millbrae CA, to install battery storage on campus. Batteries will not reduce our usage but they will be increasingly important in the years ahead as renewables become more prevalent. Stem had a pretty good pitch. There is no up-front cost to install the batteries but they will charge us a monthly fee. However, their system is designed to save money by shifting usage from high energy cost periods to low energy cost periods. They monetarily guarantee the savings they generate will exceed their monthly charge. Next week we will meet with them to hear a more in-depth presentation. If we move ahead with Stem, or some other battery company, I will be keen to have a look at the data to verify savings and give our students a chance to study this new and rapidly evolving technology.
3) More solar - As some of you may know I鈥檝e been pushing for more solar on campus. The plan is to put an additional MW on the campus on parking lots. Advantages to this plan are as follows.
a) Provide shade for parked cars.
b) One prime parking lot is the admissions parking lot which would send a nice signal to prospective students and families. That will have to be done nicely.
c) We can still receive rebates from the LADWP for another MW but not more.
d) With the rebates and the continually falling price of solar the payback period would allow us to utilize the Green Fund.
e) The new solar will offset increased usage due to a planned expansion of AC in 5 dorms on campus.
f) Increasing our generation capacity will bring us up to about 25% offset, close to California on the whole.
g) The project will necessitate the replacement of our aging electrical substation.
That last one has been a sticking point for this project. If you know of anyone who wants to improve critical infrastructure and open to the door to a lot more renewable generation on campus please send them my way.
Green energy, done right, is a win for the environment and a win for the bottom line. As evidence I leave you with this lovely sight from last week.
References
[1] For payback calculations I assume solar savings earn 8% annually. The payback period is the time it would take for
the solar savings to equal $3.423M (cost of the array) also earning 8% annually.
[2] At an assumed 5.4% annual rate increase we will have paid off the array in 19 years. Keen observers of these
newsletters will note that every year the time to payoff seems to getting longer! What鈥檚 going on? Though production
has remained steady our yearly savings over the last 4 years have fluctuated wildly. A clue can be found by taking the
ratio of the two sets of numbers above,
1st year = 13.7 cents/kWh
2nd year = 15.6 cents/kWh
3rd year = 13.0 cents/kWh
4th year = 13.7 cents/kWh
The average price of electricity has been on a rollercoaster these last 4 years. Here鈥檚 a plot of what the LADWP has
been charging us for electricity over the last 10 years. The different colors represent the varying costs of electricity
depending on time of day, so-called Time Of Use (TOU) pricing.
As you can see the price for energy has stayed constant these last 4 years with some large fluctuations, fluctuations
which correlate nicely with our savings. That affects my projections in two ways. First yearly savings are not increasing
and my average inflation rate gets a little lower every year. Nevertheless the long-term and short-term trends are both
upward so I have hope our yearly savings will return to the assumed trend line in the not too distant future.
[3]
[4] 2015 data from
[5]