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Solar power in Australia

Solar power in Australia is a relatively recent phenomenon. Currently, it has over 4,100 megawatts (MW) of installed photovoltaic (PV) solar power (March 2015),[1] and 760 MW of PV was installed in the preceding 12 months. At a capacity factor of 14 percent, this would contribute 1.1 percent of Australia's electrical energy. The amount of installed PV capacity in Australia has increased 10-fold between 2009 and 2011. Feed-in tariffs and mandatory renewable energy targets designed to assist renewable energy commercialisation in Australia have largely been responsible for the rapid increase.

In South Australia, Premier Mike Rann introduced a solar feed in tariff for households and an educational program that involved installing photovoltaics on the roofs of major public buildings such as the Adelaide Airport, State Parliament, Museum, Art Gallery and several hundred public schools.[2] In 2008 Premier Rann announced funding for $8 million worth of solar panels on the roof of the new Goyder Pavilion at the Royal Adelaide Showgrounds, the largest roof top solar installation in Australia, qualifying it for official "power station" status.[3] South Australia has the highest per capita take up of household solar power in Australia.

The first commercial-scale PV power plant was opened in 2011, the Uterne Solar Power Station, a 1 MW capacity grid-connected solar photovoltaic system located 5 km south of Alice Springs in the Northern Territory.[4] The second opened in 2012 at Greenough River Solar Farm with a capacity of 10 MW.[5] The price of photovoltaics has been decreasing, and in January 2013, was less than half the cost of using grid electricity in Australia.[6]

The country has been criticised for producing very little of its energy from solar power, despite its vast resources, extensive sunshine and thus high potential.[7][8][9][10]

Contents

  • Potential 1
  • Incentives 2
    • Rebates 2.1
    • Feed-in tariffs 2.2
    • Mandatory renewable energy target 2.3
    • Subsidy funding 2.4
  • Projects 3
    • Status by state 3.1
    • Victoria 3.2
    • Western Australia 3.3
    • Northern Territory 3.4
    • Australian Capital Territory 3.5
    • Solar cities program 3.6
    • Renewable Energy Master Plan 2030 3.7
  • See also 4
  • References 5
  • External links 6

Potential

Solar potential in Australia

The combination of Australia's dry climate and latitude give it a high benefits and potential for solar energy production. Most of the Australian continent receives in excess of 4 kWh per square metre per day of insolation during winter months, with a region in the north exceeding 6 kWh/day.

Australia's insolation greatly exceeds the average values in Europe, Russia, and most of North America. Comparable levels are found in desert areas of northern and southern Africa, south western United States and adjacent area of Mexico, and regions on the Pacific coast of South America. However, the areas of highest insolation are distant to the country's population centers.

With an installed photovoltaic capacity of 3,300 megawatts by the end of 2013, Australia ranks among the world's top ten solar countries.

There is considerable academic and commercial interest in a new form of Concentrated Solar Power, called STEM, for off-grid applications to produce 24-hour industrial scale power for remote communities and mining sites. STEM uses fluidized silica sand as a thermal storage and heat transfer medium for CSP systems. It has been developed by Italy's Magaldi Industries. The first commercial application of STEM will take place in Sicily in late 2015.[11]

Incentives

Source: Australian PV Institute (reported year-end capacity in GW, rounded)[12]

Rebates

The Australian Government provided a rebate program that offered up to A$8,000 rebates for installing solar panels on homes and community use buildings (other than schools), through the Solar Homes and Communities Plan.[13] However, on 8 June 2009, this program was phased out, to be replaced by the Solar Credits Program, where an installation of a solar system would receive 5 times as many Renewable Energy Certificates for the first 1.5 kilowatts of capacity under the Renewable Energy Target (see below)[14]

Schools were eligible to apply for grants of up to A$50,000 to install 2 kW solar panels and other measures through the National Solar Schools Program beginning 1 July 2008, which replaced the Green Vouchers for Schools program.[15] Applications for the program ended 21 November 2012. A total of 2,870 schools have installed solar panels.[16] The output of each array can be viewed, and compared with that of up to four other schools.[17]

Feed-in tariffs

Feed in tariffs were introduced by a number of states to increase the amount of solar PV power generated. They can be classified by a number of factors including the price paid, whether it is on a net or gross export basis, the length of time payments are guaranteed, the maximum size of installation allowed and the type of customer allowed to participate. Many Australian state feed-in tariffs were net export tariffs, whereas conservation groups argued for gross feed-in tariffs. In March 2009, the Australian Capital Territory (ACT) started a solar gross feed-in tariff. For systems up to 10 kW the payment was 50.05 cents per kWh. For systems from 10 kW to 30 kW the payment was 40.04 cents per kWh. The payment was revised downward once before an overall capacity cap was reached and the scheme closed. Payments are made quarterly based on energy generated and the payment rate is guaranteed for 20 years.[18][19] In Germany, a guaranteed PV tariff means that Germany now has the highest PV capacity per capita – at 10 W for every person in Germany compared to Australia at 2.6 W per capita.[20]

Mandatory renewable energy target

The Federal Government MRET will ensure renewable energy obtains a 20% share of electricity supply in Australia by 2020. The MRET will increase from 9,500 gigawatt-hours to 45,000 gigawatt-hours by 2020. The scheme lasts until 2030.[21]

The MRET requires wholesale purchasers of electricity (such as electricity retailers or industrial operations) to purchase Renewable Energy Certificates (RECs), created through the generation of electricity from renewable sources. These sources include Wind, Hydro, Landfill Gas and Geothermal, as well as Solar PV and Solar Thermal, providing a stimulus and additional revenue for these technologies.

Subsidy funding

The Solar Flagships program sets aside $1.6 billion for solar power over a period of six years.[22] The government funding is for 4 new solar plants that produce coal plant scale power (in total up to 1000 MW - coal plants typically produce 500 to 2,000 MW). This subsidy would need additional funding from the plant builders and/or operators. As a comparison Abengoa Solar, a company currently constructing solar thermal plants, put the cost of a 300 MW plant at 1.2 billion euros in 2007. In 2009, the Arizona state government announced a 200 MW plant for 1 billion US dollars.[23][24]

Projects

Status by state

The list of solar power projects below is not complete as there are many more sites that have solar power or hybrid solar/wind systems to generate their own power needs. Projects with a power rating less than 30 kW are not listed.

State Project/Location Coordinates Capacity kW Status LGA Company Notes
NSW Sydney Markets Limited 170 Commissioned 2014 Sydney Autonomous Energy Pioneering the construction of solar car ports in Australia.[25] Finalist nomination for 2014 Clean Energy Week Awards in the over 100 kW category[26]
VIC Toyota Altona North 500 Commissioned 2013-2014 Melbourne Autonomous Energy Largest rooftop system in Victoria[27]
VIC Hilton Manufacturing 100 Commissioned 2015 Melbourne Metpro Green Energy Photovoltaic[28]
NSW Newington College 108 Commissioned 2014 Sydney Autonomous Energy Leading private school adopting solar photovoltaics[29]
NSW Pymble Ladies' College 145 Commissioned 2012-2014 Sydney Autonomous Energy 3 stage implementation 145 kW photovoltaic modules, another leading private school[30]
NSW Methodist Ladies' College 113 Commissioned 2013-2014 Sydney Autonomous Energy 2 stage implementation of photovoltaic modules, another leading private school[31]
NSW Sydney Corporate Park, Alexandria 120 Commissioned 2013 Sydney Autonomous Energy Custom designed steel frames[32]
NSW Ace Gutters 225 Commissioned 2013 Sydney Autonomous Energy Specifically designed mounting structures due to unique wind loading factors[33]
NSW Blacktown Workers and Sports Clubs 200 Commissioned 2012-2013 Sydney Autonomous Energy Nomination and collection of Clean Energy Week Award 2013 "Best Grid-Connected Solar PV Power System Design and Installation Award" (15 kW - 100 kW category)[34][35][36]
NSW Southern Cross Care 150 Commissioned 2012 Sydney Autonomous Energy Large system to provide power needs for aged care facility[37]
NSW Various Residential 1-10 Ongoing venture Sydney Autonomous Energy Equipping residential properties with lighting and solar to become independent of grid-sourced energy[38]
QLD Coorparoo DC 100 Completed December 2012 SEQ Energy Solutions Pty Ltd Photovoltaic
NSW Johnson & Johnson Medical 200 Commissioned September 2010 Energy Matters Photovoltaic
NSW Dubbo 50 Commissioned 1998 Country Energy Photovoltaic
NSW GPG Solar 45 commissioned 2008 GPG Photovoltaic
NSW Building 46, Newington Armoury 64 Commissioned 1999, refurbished 2007 Sydney Olympic Park Authority Photovoltaic
NSW Liddell Power Station[39] 1,000 Complete Solar Heat and Power / Macquarie Generation Solar thermal
NSW Queanbeyan 50 Commissioned 1999 Country Energy Photovoltaic
NSW Singleton Solar Farm 407 Commissioned 1998 Built By Energy Australia

Sold to XYZ Solar Pty Ltd in June 2014

Photovoltaic

Polycrystalline 60W panels 200 kW ThinFilm 60W panels 207 kW Tweets: @singletonsolar

NSW Sydney Superdome Solar Array 70 Commissioned 1999 Built by Energy Australia

Sold to XYZ Solar Pty Ltd in June 2014

Photovoltaic ThinFilm 60W panels

Tweets: @Superdomesolar

NSW White Cliffs Solar Power Station 45 Constructed 1981 25 kW,
upgraded 1996,
decommissioned 2004
ANUTECH [40] Originally steam piston
then photovoltaic
VIC Queen Victoria Market 200 Commissioned 2003 Melbourne City Council Photovoltaic
VIC Ballarat Solar Park. Ballarat Aerodrome. Mitchell Park, Ballarat. 300 Commissioned 2009 Ballarat Origin Energy / Sharp Corporation Photovoltaic. Victoria's first ground mounted, flat plate and grid-connected solar farm[41][42]
VIC Bendigo Solar Park. 300 Commissioned 2009 Bendigo Origin Energy / Sharp Corporation Photovoltaic. Victoria's first ground mounted, flat plate and grid-connected solar farm[41][42]
VIC Bridgewater Solar Plant, Bridgewater, Victoria 500 Commissioned 2010 Shire of Loddon Silex Systems Ltd Australia's largest concentrator photovoltaics (CPV) solar power station[43]
VIC NextDC M1 Data Centre, Port Melbourne, Victoria 401 Completed December 2013 Energy Matters Will be Australia's largest privately owned rooftop photovoltaic solar system[44]
QLD University of Queensland St Lucia campus 1,220 Completed July 2011 Ingenero, Trina Solar, RedFlow Photovoltaic[45][46]
QLD Fraser Coast Solar Farm 401 Commissioned November 2012 Ingenero Photovoltaic, 1,630x 250W Suntech monocrystalline
QLD Queensland University of Technology (QUT) 202 Completed November 2012 Brisbane Ingenero Photovoltaic, 250W Suntech and 328W SunPower polycrystalline
QLD Jaques Coffee Plantation 80.5 Commissioned May 2012 NSE Solar Photovoltaic, 322 x 250w Xinyou XY250-96F/M5 [47]
QLD Moorooka Shopping Centre 60 Commissioned December 2010 Brisbane Ingenero Photovoltaic 300x 200W Suntech polycrystalline
QLD Kogan Creek Solar Boost Project 44,000 Under Construction Dec 2011 CS Energy Solar thermal[48]
QLD Windorah Solar Farm 150 Completed October 2008 Ergon Energy, Solar Systems Photovoltaic[49]
SA Adelaide Showgrounds 1,000 Completed 2009 Built Environs and Solar Shop Australia[50] Photovoltaic[51][52]
SA Jamestown Wastewater Treatment Plant 3,500 Under construction Mar 2015 Infratech Industries Floating Photovolatic[53]
SA Kingscote Airport 50 Commissioned 2013 Kangaroo Island Ingenero Photovoltaic[54]
SA Sundrop Farms 1,500 Under construction October 2015 Port Augusta Sundrop Farms Concentrated solar thermal
SA Wilpena Pound 100 Commenced 1998 AGL Energy Photovoltaic[55]
WA Australian Wool Testing Authority 150 Commissioned 2013 City of Cockburn Perth Infinite Energy Photovoltaic 625 x 240W Conergy Power Plus polycrystalline
WA Carnarvon 51.1 Commissioned 2005 (15.8)
30.2 added 2007
5.1 added 2012
Shire of Carnarvon Alexander Fullarton Photovoltaic
WA Greenough River Solar Farm 10,000 Commissioned October 2012[5][56] City of Greater Geraldton Verve Energy and GE Financial Services Photovoltaic
NT Araluen Arts Centre 162 Completed November 2012 Ingenero Photovoltaic, 648x Q-Cells monocrystalline
NT Bulman 56 Commissioned 2002 NT PowerWater Photovoltaic
NT Hermannsburg 192 Commissioned 2005 Solar Systems Photovoltaic
NT Kings Canyon Solar Power Station 241 Commissioned 2003 NT PowerWater Photovoltaic
NT Lajamanu 288 Commissioned 2005 Solar Systems Photovoltaic
NT Yuendumu 192 Commissioned 2005 Solar Systems Photovoltaic
NT Crowne Plaza Alice Springs 305 Commissioned 2009 SunPower / CAT Projects Photovoltaic[57]
NT Uterne Solar Power Station, Alice Springs 4,100 Commissioned 2011 (1000)
3100 added 2015
SunPower Corporation / Power and Water Corporation / Epuron Photovoltaic[4][58]
NT Alice Springs Airport 235 4 November 2010 Ingenero / CAT Projects Concentrated photovoltaics[59][60]
NT Desert Knowledge Australia Solar Centre, Alice Springs 201 Commissioned 2008 Desert Knowledge Australia / CAT Projects Various photovoltaic[61][62]
ACT Parliament House Solar Power Pilot Project 43 Commissioned 2011 Canberra Todae Solar / Silex Systems Ltd Photovoltaic[63][64]
ACT Royalla solar farm 20,000 Commissioned September 2014 Canberra Fotowatio Renewable Ventures (FRV) Photovoltaic[65]
QLD Valdora Solar Farm 15,000 Council DA Approval required early 2015. Tender due in first quarter 2015.[66] Sunshine Coast (Tender) Photovoltaic [67]
VIC SeaViews Manor 90 2013 Ocean Grove Solar Sunwerx Photovoltaic [68]
VIC Fenning Timber 99 2013 Bairnsdale Solar Sunwerx Photovoltaic [69]
NSW Nimbin Community Solar Farm 45 2011 Lismore Rainbow Power Company & Nimbin Neighbourhood and Information Centre Photovoltaic [70][71][72][73]
WA Solar Farm Carnarvon 300 2011 Carnarvon Energy Made Clean First PPA Solar farm in WA with Horizon Power
NSW Nyngan Solar Plant 102,000 Commissioned in stages. Fully commissioned in June 2015. Bogan Shire AGL Energy CdTe thin-film technology. Is the largest solar PV plant in the Southern Hemisphere. Capacity: 102 MWAC.[74][75][76][77]
NSW Broken Hill Solar Plant 53,000 Started July 2014. Full power output achieved on 14 October 2015. Broken Hill AGL Energy CdTe thin-film technology. Capacity given in AC (53 MWAC).[78]
NSW Moree Solar Farm 56,000 Half of the panels installed August 2015. Expected completion February 2016. Moree Plains Shire Fotowatio Renewable Ventures (FRV) Photovoltaic, single axis tracking.[79]
ACT Mugga Lane Solar Park 13,000 Awarded feed-in tariff via ACT reverse auction. Expected completion 2016. Canberra Zhenfa Photovoltaic[80]
NSW Lake Cargelligo Solar Thermal Power Station 3,000 2011 Lachlan Shire Graphite Energy / Solastor Concentrating solar thermal, graphite block technologyc[81][82][83]

Victoria

The 100 MW PV Mildura Solar Concentrator Power Station, formerly expected to be completed in 2017, is now cancelled.[84] It was expected to be the biggest and most efficient solar photovoltaic power station in the world. The power station was expected to concentrate the sun by 500 times onto the solar cells for ultra high power output. The Victorian power station would have generated electricity directly from the sun to meet the annual needs of over 45,000 homes with on-going zero greenhouse gas emissions.[85]

Western Australia

Western Australia now (Oct 2012) has one of the largest solar power farms in Australia, at Walkaway, 70 km SE of Geraldton. The Greenough River Solar farm was opened in October 2012. The 10MW field has 150,000 solar panels.

Northern Territory

There are 30 solar concentrator dishes at three locations in the Northern Territory: Hermannsburg, Yuendumu and Lajamanu. Solar Systems and the Federal government were involved in the projects.

The solar concentrator dish power stations together generate 720 kW and 1,555,000 kWh per year, representing a saving of 420,000 litres of diesel and 1,550 tonnes of greenhouse gas emissions.[86]

The solar power stations at these three remote indigenous communities in Australia's Northern Territory are constructed using Solar Systems' CS500 concentrator dish systems. The project cost A$7M, offset by a grant from the Australian and Northern Territory Governments under their Renewable Remote Power Generation Program.[87]

The project won a prestigious Engineering Excellence award in 2005.[87]

The Federal Government has funded over 120 innovative small-scale standalone solar systems in remote indigenous communities, designed by Bushlight, incorporating sophisticated demand side management systems with user-friendly interfaces.

Australian Capital Territory

A new 20 MWp solar power plant has been built on 50 hectares of land in Royalla, a rural part of the Australian Capital Territory south of Canberra. It is powered by 83,000 solar panels, and can power for 4,400 homes. It was officially opened on 3 September 2014. It is the first solar plant facility in the Australian capital, and at the time of building the largest such plant in Australia. The facility was built by a Spanish company, Fotowatio Renewable Ventures (FRV).[65][88]

Solar cities program

Solar Cities is a demonstration programme designed to promote solar power, smart meters, and energy conservation in urban locations throughout Australia.[89] One such location is Townsville, Queensland.[90][91]

Renewable Energy Master Plan 2030

The Council of Sydney is attempting to make the city run 100% on renewable energy by 2030. This plan was announced earlier in 2014 with the blueprints made public on their website.[92] This ambitious plan was recently awarded the 2014 Eurosolar prize in the category of "Towns/municipalities, council districts and public utilities".[93]

See also

References


-- Module:Hatnote -- -- -- -- This module produces hatnote links and links to related articles. It -- -- implements the and meta-templates and includes -- -- helper functions for other Lua hatnote modules. --


local libraryUtil = require('libraryUtil') local checkType = libraryUtil.checkType local mArguments -- lazily initialise Module:Arguments local yesno -- lazily initialise Module:Yesno

local p = {}


-- Helper functions


local function getArgs(frame) -- Fetches the arguments from the parent frame. Whitespace is trimmed and -- blanks are removed. mArguments = require('Module:Arguments') return mArguments.getArgs(frame, {parentOnly = true}) end

local function removeInitialColon(s) -- Removes the initial colon from a string, if present. return s:match('^:?(.*)') end

function p.findNamespaceId(link, removeColon) -- Finds the namespace id (namespace number) of a link or a pagename. This -- function will not work if the link is enclosed in double brackets. Colons -- are trimmed from the start of the link by default. To skip colon -- trimming, set the removeColon parameter to true. checkType('findNamespaceId', 1, link, 'string') checkType('findNamespaceId', 2, removeColon, 'boolean', true) if removeColon ~= false then link = removeInitialColon(link) end local namespace = link:match('^(.-):') if namespace then local nsTable = mw.site.namespaces[namespace] if nsTable then return nsTable.id end end return 0 end

function p.formatPages(...) -- Formats a list of pages using formatLink and returns it as an array. Nil -- values are not allowed. local pages = {...} local ret = {} for i, page in ipairs(pages) do ret[i] = p._formatLink(page) end return ret end

function p.formatPageTables(...) -- Takes a list of page/display tables and returns it as a list of -- formatted links. Nil values are not allowed. local pages = {...} local links = {} for i, t in ipairs(pages) do checkType('formatPageTables', i, t, 'table') local link = t[1] local display = t[2] links[i] = p._formatLink(link, display) end return links end

function p.makeWikitextError(msg, helpLink, addTrackingCategory) -- Formats an error message to be returned to wikitext. If -- addTrackingCategory is not false after being returned from -- Module:Yesno, and if we are not on a talk page, a tracking category -- is added. checkType('makeWikitextError', 1, msg, 'string') checkType('makeWikitextError', 2, helpLink, 'string', true) yesno = require('Module:Yesno') local title = mw.title.getCurrentTitle() -- Make the help link text. local helpText if helpLink then helpText = ' (help)' else helpText = end -- Make the category text. local category if not title.isTalkPage and yesno(addTrackingCategory) ~= false then category = 'Hatnote templates with errors' category = string.format( '%s:%s', mw.site.namespaces[14].name, category ) else category = end return string.format( '%s', msg, helpText, category ) end


-- Format link -- -- Makes a wikilink from the given link and display values. Links are escaped -- with colons if necessary, and links to sections are detected and displayed -- with " § " as a separator rather than the standard MediaWiki "#". Used in -- the template.


function p.formatLink(frame) local args = getArgs(frame) local link = args[1] local display = args[2] if not link then return p.makeWikitextError( 'no link specified', 'Template:Format hatnote link#Errors', args.category ) end return p._formatLink(link, display) end

function p._formatLink(link, display) -- Find whether we need to use the colon trick or not. We need to use the -- colon trick for categories and files, as otherwise category links -- categorise the page and file links display the file. checkType('_formatLink', 1, link, 'string') checkType('_formatLink', 2, display, 'string', true) link = removeInitialColon(link) local namespace = p.findNamespaceId(link, false) local colon if namespace == 6 or namespace == 14 then colon = ':' else colon = end -- Find whether a faux display value has been added with the | magic -- word. if not display then local prePipe, postPipe = link:match('^(.-)|(.*)$') link = prePipe or link display = postPipe end -- Find the display value. if not display then local page, section = link:match('^(.-)#(.*)$') if page then display = page .. ' § ' .. section end end -- Assemble the link. if display then return string.format('%s', colon, link, display) else return string.format('%s%s', colon, link) end end


-- Hatnote -- -- Produces standard hatnote text. Implements the template.


function p.hatnote(frame) local args = getArgs(frame) local s = args[1] local options = {} if not s then return p.makeWikitextError( 'no text specified', 'Template:Hatnote#Errors', args.category ) end options.extraclasses = args.extraclasses options.selfref = args.selfref return p._hatnote(s, options) end

function p._hatnote(s, options) checkType('_hatnote', 1, s, 'string') checkType('_hatnote', 2, options, 'table', true) local classes = {'hatnote'} local extraclasses = options.extraclasses local selfref = options.selfref if type(extraclasses) == 'string' then classes[#classes + 1] = extraclasses end if selfref then classes[#classes + 1] = 'selfref' end return string.format( '
%s
', table.concat(classes, ' '), s )

end

return p-------------------------------------------------------------------------------- -- Module:Hatnote -- -- -- -- This module produces hatnote links and links to related articles. It -- -- implements the and meta-templates and includes -- -- helper functions for other Lua hatnote modules. --


local libraryUtil = require('libraryUtil') local checkType = libraryUtil.checkType local mArguments -- lazily initialise Module:Arguments local yesno -- lazily initialise Module:Yesno

local p = {}


-- Helper functions


local function getArgs(frame) -- Fetches the arguments from the parent frame. Whitespace is trimmed and -- blanks are removed. mArguments = require('Module:Arguments') return mArguments.getArgs(frame, {parentOnly = true}) end

local function removeInitialColon(s) -- Removes the initial colon from a string, if present. return s:match('^:?(.*)') end

function p.findNamespaceId(link, removeColon) -- Finds the namespace id (namespace number) of a link or a pagename. This -- function will not work if the link is enclosed in double brackets. Colons -- are trimmed from the start of the link by default. To skip colon -- trimming, set the removeColon parameter to true. checkType('findNamespaceId', 1, link, 'string') checkType('findNamespaceId', 2, removeColon, 'boolean', true) if removeColon ~= false then link = removeInitialColon(link) end local namespace = link:match('^(.-):') if namespace then local nsTable = mw.site.namespaces[namespace] if nsTable then return nsTable.id end end return 0 end

function p.formatPages(...) -- Formats a list of pages using formatLink and returns it as an array. Nil -- values are not allowed. local pages = {...} local ret = {} for i, page in ipairs(pages) do ret[i] = p._formatLink(page) end return ret end

function p.formatPageTables(...) -- Takes a list of page/display tables and returns it as a list of -- formatted links. Nil values are not allowed. local pages = {...} local links = {} for i, t in ipairs(pages) do checkType('formatPageTables', i, t, 'table') local link = t[1] local display = t[2] links[i] = p._formatLink(link, display) end return links end

function p.makeWikitextError(msg, helpLink, addTrackingCategory) -- Formats an error message to be returned to wikitext. If -- addTrackingCategory is not false after being returned from -- Module:Yesno, and if we are not on a talk page, a tracking category -- is added. checkType('makeWikitextError', 1, msg, 'string') checkType('makeWikitextError', 2, helpLink, 'string', true) yesno = require('Module:Yesno') local title = mw.title.getCurrentTitle() -- Make the help link text. local helpText if helpLink then helpText = ' (help)' else helpText = end -- Make the category text. local category if not title.isTalkPage and yesno(addTrackingCategory) ~= false then category = 'Hatnote templates with errors' category = string.format( '%s:%s', mw.site.namespaces[14].name, category ) else category = end return string.format( '%s', msg, helpText, category ) end


-- Format link -- -- Makes a wikilink from the given link and display values. Links are escaped -- with colons if necessary, and links to sections are detected and displayed -- with " § " as a separator rather than the standard MediaWiki "#". Used in -- the template.


function p.formatLink(frame) local args = getArgs(frame) local link = args[1] local display = args[2] if not link then return p.makeWikitextError( 'no link specified', 'Template:Format hatnote link#Errors', args.category ) end return p._formatLink(link, display) end

function p._formatLink(link, display) -- Find whether we need to use the colon trick or not. We need to use the -- colon trick for categories and files, as otherwise category links -- categorise the page and file links display the file. checkType('_formatLink', 1, link, 'string') checkType('_formatLink', 2, display, 'string', true) link = removeInitialColon(link) local namespace = p.findNamespaceId(link, false) local colon if namespace == 6 or namespace == 14 then colon = ':' else colon = end -- Find whether a faux display value has been added with the | magic -- word. if not display then local prePipe, postPipe = link:match('^(.-)|(.*)$') link = prePipe or link display = postPipe end -- Find the display value. if not display then local page, section = link:match('^(.-)#(.*)$') if page then display = page .. ' § ' .. section end end -- Assemble the link. if display then return string.format('%s', colon, link, display) else return string.format('%s%s', colon, link) end end


-- Hatnote -- -- Produces standard hatnote text. Implements the template.


function p.hatnote(frame) local args = getArgs(frame) local s = args[1] local options = {} if not s then return p.makeWikitextError( 'no text specified', 'Template:Hatnote#Errors', args.category ) end options.extraclasses = args.extraclasses options.selfref = args.selfref return p._hatnote(s, options) end

function p._hatnote(s, options) checkType('_hatnote', 1, s, 'string') checkType('_hatnote', 2, options, 'table', true) local classes = {'hatnote'} local extraclasses = options.extraclasses local selfref = options.selfref if type(extraclasses) == 'string' then classes[#classes + 1] = extraclasses end if selfref then classes[#classes + 1] = 'selfref' end return string.format( '
%s
', table.concat(classes, ' '), s )

end

return p
  1. ^
  2. ^ Center for National Policy, What States Can Do: Climate Change Policy, April 4, 2012
  3. ^ http://www.adelaidenow.com.au/ June 2, 2008. "Adelaide Showgrounds to have nations biggest solar power project"
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  15. ^ The National Solar Schools Program is on the way
  16. ^ National Solar Schools Program
  17. ^
  18. ^ ACT Govt. Feed In Tariff factsheet
  19. ^
  20. ^ Supply side options for WA stationary energy: An assessment of alternative technologies and development support mechanisms in the Final report to WA Greenhouse and Energy Taskforce by Next Energy in 26 September 2006
  21. ^ Australian Government: Office of the Renewable Energy Regulator
  22. ^
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  24. ^
  25. ^ autonomousenergy.com Solar Car Park at Sydney Markets - Innovative 170kW Building Integrated Solar Power system
  26. ^ autonomousenergy.com Autonomous Energy announced as a finalist in the Clean Energy Week 2014 Awards
  27. ^ autonomousenergy.com Toyota 500kW Industrial Solar Power System
  28. ^ http://www.hiltonmanufacturing.com.au/category/solar/
  29. ^ autonomousenergy.com Solar at Newington College
  30. ^ autonomousenergy.com Solar at Pymble Ladies' College
  31. ^ autonomousenergy.com Solar at MLC School
  32. ^ autonomousenergy.com 120kW Commercial Solar Power System at Sydney Corporate Park
  33. ^ autonomousenergy.com Ace Gutters 225kW Industrial Solar Power System
  34. ^ autonomousenergy.com Blacktown Workers Club 100kW Commercial Solar Power System
  35. ^
  36. ^ autonomousenergy.com Autonomous Energy Wins Best Solar Power System at Clean Energy Week Awards
  37. ^ autonomousenergy.com 150kW Commercial Solar PV System - Southern Cross Care
  38. ^ autonomousenergy.com Residential Solar Case Studies—Terrey Hills 2kW PV System
  39. ^ ABC: Solar Future, 27 July 2006
  40. ^ The White Cliffs Project: Overview for the period 1979-89
  41. ^ a b Stephens, Kim Solar park goes public The Courier. 27 November 2009.
  42. ^ a b Ballarat and Bendigo Solar Parks Fact Sheet
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  44. ^
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  48. ^
  49. ^ Windorah - Queensland's first solar farm
  50. ^
  51. ^ Australia's largest solar power system opens
  52. ^ Adelaide Showgrounds Solar Photovoltaic Project
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  55. ^ AGL: "Our history", retrieved 8 February 2014
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  58. ^ http://www.businessspectator.com.au/news/2015/8/20/solar-energy/big-solar-project-alice-springs-goes-live
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  61. ^ Desert Knowledge Australia Solar Centre
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  63. ^
  64. ^
  65. ^ a b 'Australia's largest' solar farm opens at Royalla south of Canberra, Jonathon Gul and Kathleen Dyett, ABC News Online, 3 September 2014
  66. ^
  67. ^
  68. ^
  69. ^ [1]
  70. ^
  71. ^
  72. ^
  73. ^
  74. ^
  75. ^
  76. ^
  77. ^ http://aglsolar.com.au/nyngan-in-numbers/
  78. ^
  79. ^
  80. ^
  81. ^
  82. ^
  83. ^
  84. ^ Tom Arup: "Sunraysia's huge solar farm up and running", in The Age, 17 July 2013
  85. ^ 154MW Victorian Project
  86. ^ Solar Systems projects
  87. ^ a b Hermannsburg, Yuendumu and Lajamanu solar power stations
  88. ^
  89. ^
  90. ^ http://statements.qld.gov.au/Statement/2006/9/26/townsville-set-to-become-a-solar-city
  91. ^ http://statements.qld.gov.au/Statement/2007/5/3/contract-signing-a-key-milestone-in-solar-city-project
  92. ^
  93. ^

External links

  • Live Solar PV map of Australia
  • A daily solar map of Australia from Bureau of Meteorology
  • The Desert Knowledge Australia Solar Centre
  • Brumby planning to plug Victoria into the sun. The Age. 17 June 2008.


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