Wednesday, December 17, 2014

Cost of solar power (47)

RenewEconomy has a story today about a PV installation at a macadamia processing plant in northern New South Wales.  Output from the macadamia farm is used by the proprietors, Brookfarm, to make muesli.

This is another feel-good instance in which proprietors of small- to medium-sized enterprises save on their power bills by installing a PV system that meets much of their power requirements during the day.

This particular installation is interesting in that the proprietors installed half of the panels facing east and half facing west.  That way, they help to meet their power requirements in the early morning and late afternoon.

RenewEconomy reported that the peak power is 94.2 kW and that the system cost AUD 233,000.  The article mentions that approximately one third of the installation cost is recovered from sale of small-scale renewable energy certificates.  

I’m grateful to Brookfarm for kindly providing an estimate of the annual output, namely 144 MWh AC grid voltage.  From this, I calculate the Capacity Factor will be 1000 × 144 / (24 × 365 × 94.2) = 0.175.  That figure is no surprise to me given the layout of the panels and the fact that the Northern Rivers region is often cloudy in summertime.

We can now proceed to analyse the LCOE using my standard assumptions:

  • there is no inflation,
  • taxation implications are neglected,
  • projects are funded entirely by debt,
  • all projects have the same interest rate (8%) and payback period (25 years), which means that the required rate of capital return is 9.4%,
  • all projects have the same annual maintenance and operating costs (2% of the total project cost), and
  • government subsidies are neglected.

For further commentary on my LCOE methodology, see posts on Real cost of coal-fired power, LEC – the accountant’s view, Cost of solar power (10) and (especially) Yet more on LEC.  Note that I am now using annual maintenance costs of 2% rather than 3% as in posts during 2011.

The results for the Brookfarm project are as follows:

Cost per peak Watt              AUD 2.47/Wp
LCOE                                     AUD 184/MWh

The components of the LCOE are:
Capital           {0.094 × AUD 0.233×106}/{144 MWhr} = AUD 152/MWhr
O&M              {0.020 × AUD 0.233×106}/{144 MWhr} = AUD 32/MWhr

By way of comparison, LCOE figures (in appropriate currency per MWh) for all projects I’ve investigated are given below.  The number in brackets is the reference to the blog post, all of which appear in my index of posts with the title “Cost of solar power ([number])”:

(2)        AUD 183 (Nyngan, Australia, PV)
(3)        EUR 503 (Olmedilla, Spain, PV, 2008)
(3)        EUR 188 (Andasol I, Spain, trough, 2009)
(4)        AUD 236 (Greenough, Australia, PV)
(5)        AUD 397 (Solar Oasis, Australia, dish, 2014?)
(6)        USD 163 (Lazio, Italy, PV)
(7)        AUD 271 (Kogan Creek, Australia, CLFR pre-heat, 2012?)
(8)        USD 228 (New Mexico, CdTe thin film PV, 2011)
(9)        EUR 200 (Ibersol, Spain, trough, 2011)
(10)      USD 231 (Ivanpah, California, tower, 2013?)
(11)      CAD 409 (Stardale, Canada, PV, 2012)
(12)      USD 290 (Blythe, California, trough, 2012?)
(13)      AUD 285 (Solar Dawn, Australia, CLFR, 2013?)
(14)      AUD 263 (Moree Solar Farm, Australia, single-axis PV, 2013?)
(15)      EUR 350 (Lieberose, Germany, thin-film PV, 2009)
(16)      EUR 300 (Gemasolar, Spain, tower, 2011)
(17)      EUR 228 (Meuro, Germany, crystalline PV, 2012)
(18)      USD 204 (Crescent Dunes, USA, tower, 2013)
(19)      AUD 316 (University of Queensland, fixed PV, 2011)
(20)      EUR 241 (Ait Baha, Morocco, 1-axis solar thermal, 2012)
(21)      EUR 227 (Shivajinagar Sakri, India, PV, 2012)
(22)      JPY 36,076 (Kagoshima, Kyushu, Japan, PV, start July 2012)
(23)      AUD 249 (NEXTDC, Port Melbourne, PV, Q2 2012)
(24)      USD 319 (Maryland Solar Farm, thin-film PV, Q4 2012)
(25)      EUR 207 (GERO Solarpark, Germany, PV, May 2012)
(26)      AUD 259 (Kamberra Winery, Australia, PV, June 2012)
(27)      EUR 105 (Calera y Chozas, PV, Q4 2012)
(28)      AUD 205 (Nyngan and Broken Hill, thin film PV, end 2014?)
(29)      AUD 342 (City of Sydney, multiple sites, PV, 2012)
(30)      AUD 281 (Uterne, PV, single-axis tracking, 2011)
(31)      JPY 31,448 (Oita, PV?, Japan, to open March 2014)
(32)      USD 342 (Shams, Abu Dhabi, trough, to open early 2013)
(34)      USD 272 (Daggett, California, designed 2010)
(35)      GBP 148 (Wymeswold, UK, PV, March 2013)
(36)      USD 139 (South Georgia, PV, June 2014)
(37)      USD 169 (Antelope Valley, CdTe PV, end 2015)
(38)      AUD 137 (Mugga Lane, PV, mid 2014)
(39)      AUD 163 (Coree, fixed PV, Feb 2015)
(40)      AUD 298 (Ferngrove Winery, PV, July 2013)
(41)      USD 125 (Cerro Dominador, CST, mid 2017)
(42)      USD 190 (La Paz, PV, September 2013)
(43)      USD 152 (Austin Energy, PV, 2016)
(44)      AUD 304 (Weipa, PV, January 2015)
(45)      AUD 256 (Kalgoorlie-Boulder, PV, August 2014)
(46)      AUD 141 (new Moree Solar Farm, PV, one-axis tracking, December 2015)
(47)      AUD 184 (Brookfarm, PV, December 2015)


Conclusion

You can compare results with my LCOE graphic.

The LCOE for the Brookfarm project compares favourably with recent projects of similar size, e.g. Kalgoorlie-Boulder (AUD 256/MWh) and Ferngrove Winery (AUD 298/MWh in mid-2013, a scant 18 months ago).

Given the high cost of grid-supplied power in Australia, I expect the Brookfarm project will have a short payback period and will also attract favourable publicity.  I congratulate the proprietors.