Sydney Desalination Plant

Sydney Desalination Plant

Location within New South Wales

Desalination plant
Location Kurnell, Southern Sydney, New South Wales, Australia
Coordinates 34°01′29″S 151°12′18″E / 34.02475°S 151.205136°E / -34.02475; 151.205136Coordinates: 34°01′29″S 151°12′18″E / 34.02475°S 151.205136°E / -34.02475; 151.205136
Estimated output 250 ML (55×10^6 imp gal) per day
Extended output 500 ML (110×10^6 imp gal) per day
Cost A$1.803 billion
Energy usage 257.7 GWh (928 TJ) in the first full year of operation.[1]
Energy generation offset Capital Wind Farm, Bungendore, 450 GWh (1,600 TJ) per annum[2]
Technology Reverse osmosis
Percent of water supply 15% of Sydney
30% extended capacity
Operation date 28 January 2010 (2010-01-28)[3]
Website sydneydesal.com.au

The Sydney Desalination Plant is a potable drinking water desalination plant that forms part of the water supply system of Greater Metropolitan Sydney. The plant is located in the Kurnell industrial estate, in Southern Sydney in the Australian state of New South Wales. The plant uses reverse osmosis filtration membranes to remove salt from seawater and is powered using renewable energy, supplied to the national power grid from the Infigen Energyowned Capital Wind Farm located at Bungendore.

The Sydney Desalination Plant is owned by the Government of New South Wales. In 2012, the NSW Government entered into a 50year lease with Sydney Desalination Plant Pty Ltd (DSP), a company jointly owned by the Ontario Teachers' Pension Plan Board (50%) and two funds managed by Hastings Funds Management Limited: Utilities Trust of Australia and The Infrastructure Fund (together 50%).[4] The terms of the A$2.3 billion lease lock Sydney Water into a 50year water supply agreement with DSP.[5] The operator of the plant is Veolia Water Australia Pty Ltd.

The Sydney Desalination Plant is the third major desalination plant built in Australia, after Kwinana in Perth which was completed in 2006 and Tugun on the Gold Coast which was completed in 2009.

Background

Sydney summers during the first decade of the 21st century saw significant declines of dam storage levels. A state of drought in the Sydney catchment areas existed between March 2001 and at least January 2007. Except for 1998, inflows into Warragamba Dam, Sydney's main dam were below average from 1992 until 2006. The last time Sydney's dams were all 100% full was in 1998.[6] Between January 2004 and July 2007, Sydney's available water storage dropped below 55%.[7] Water supply levels reached their lowest recorded point on 9–10 February 2007 of 33.8%[8] In November 2009, water storage again dropped below 55%.[9]

The 2004 Metropolitan Water Plan indicated that planning for a desalination plant would be undertaken so that, if the drought continued, it would be possible to construct a desalination plant relatively quickly and efficiently. The feasibility study was undertaken during the first half of 2005 and concluded that desalination is a feasible option for water supply management in Sydney.[10]

Other options to supplement Sydney's water supply were ruled out – a new dam was ruled out due to land availability and environmental reasons, drinking recycled waste water and stormwater was ruled out due to lack of community acceptance in Sydney, and rainwater tanks, although encouraged, would not supply enough reliable, potable water, to secure the water supply in times of drought and climate change.

Decision to build

On 16 October 2006 the NSW Minister for Planning Frank Sartor signed the approval for Sydney Water to proceed with the construction of the Kurnell Desalination Plant.[11]

In response to these problems, the NSW Government's 2006 Metropolitan Water Plan[10] identified desalination as a way of securing Sydney's water supply needs in the case of a severe, prolonged drought:[12]

Given its total independence of rainfall, desalination can be used to secure supplies in the event of extreme drought. Following detailed investigations, the NSW Government has identified a preferred technology (reverse osmosis), purchased a site, sought planning approval and undertaken substantial preparatory works so that it can build a desalination plant if required. The probability of dam levels reaching the 30% level is very low, but it is vital to ensure that Sydney's water needs can still be met should this situation occur.

In such a situation, a desalination plant would be constructed with a capacity of 125 million litres per day, but this could be increased to 500 million litres per day if required. Having the capacity to draw on desalination means that the Government will not need to impose drought restrictions on water use that are more stringent than those imposed when dams levels reached 40% in June 2005.

chapter 7 of the 2006 Metropolitan Water Plan (pg 78)

When operating at full capacity, the Sydney desalination plant supplies up to 15% of the drinking water supply for Sydney. It was the largest water supply project for Sydney, Australia's biggest city, since Warragamba Dam was opened in 1960 by the Sydney Metropolitan Water Sewerage and Drainage Board. The desalination project was announced in February 2007, when Sydney dam levels dropped to 33.8% of total storage (just 3.8% higher than the adaptive trigger of "about 30% of dam storage levels" foreshadowed in the 2006 Metropolitan Water Plan), the lowest level reached since the drought that preceded the opening of Warragamba, in the 1940s and 1950s.

Construction

The desalination plant was built by the Blue Water Joint Venture, under contract to Sydney Water. The Blue Water Joint Venture comprised the plant constructor, John Holland Group, and the operator, Veolia Water Australia Pty Ltd.[13]

The total approved budget of the project was $1.896 billion and it was delivered on time and in excess of an estimated $60 million under this budget at the completion of construction.[3] The final cost of the plant, before it was refinanced by the NSW Government to the private sector, was $1.803 billion. The plant was refinanced with a book value in excess of $2 billion in early 2012, providing a profit to the government at transaction close.

Infrastructure and capacity

The original proposal was to build a plant with a 125ML per day capacity that could be scaled up to 500ML if necessary. The decision was made before building, that a 250ML plant would be built instead, although still with the potential to be scaled up to 500ML.[14]

The desalination plant is connected to the Tasman Sea via intake and outlet tunnels.[15] The plant is connected to the water supply by a pipeline under Botany Bay from Kurnell to Kyeemagh,[16] thence under Kogarah Golf Course,[17] along the northern shore of the Alexandra canal[18] and finally connecting to the Sydney water supply network via City Tunnel near Ashmore street, Erskineville.[19]

At Erskineville, the drinking water delivered via the pipeline from Kurnell is delivered into the City Tunnel connecting Potts Hill Reservoir, in western Sydney, to the Waterloo Pumping Station, in eastern Sydney. Off-take pipes along the length of the City Tunnel mean that, depending on demand, desalinated water will be fed into the drinking water supply throughout much of metropolitan Sydney. In the process, the desalination plant-supplied water will ease the drawdown on water from the city's surface storages such as Warragamba Dam.[20]

Sydney residents south of Sydney Harbour and as far west as Bankstown are the direct consumers of the desalinated water.[21]

Both the tunnels to the sea and the pipeline to the water supply have been built to the capacity of 500ML per day, so if the plant is ever expanded, the supporting infrastructure is already in place.[22]

Operation

The plant operated continually for its first two years.

On 9 December 2011 the dam storage level reached 80%. The NSW Minister for Finance and Services Greg Pearce directed the Sydney Desalination Plant to reduce supply to about 90 million litres a day. The plant’s performance and increased dam levels mean the original two-year proving period of running the plant at full capacity (250 million litres/day) can end early. When the dam storage level reached 90% capacity, the Minister directed the Sydney Desalination Plant to cease production on 2 July 2012. Production will recommence when dam storage levels reach 70% and will remain in production until dam storage levels reach 80%.[23][24][25]

Notwithstanding the "70/80%" operating rule for the desalination plant currently in force, it is expected that over the next two decades, the plant will become part of Sydney's "base load" water supply. This is because the population of the Sydney, Illawarra and Blue Mountains areas is forecast to grow by around 1.5 million people by around 2035. Even before then, in any severe drought, the NSW Government and water planning authorities will need to assess whether the current Kurnell plant needs to be doubled in capacity as a matter of urgency. The plant is designed for such contingencies.

Energy generation offset

Main article: Capital Wind Farm

Part of the Sydney Desalination Plan's cost was the construction of a wind farm to offset the energy usage of the plant with 100% renewable energy. The 67turbine Capital Wind Farm at Bungendore was built for this purpose and produces approximately 450 gigawatt-hours (1,600 TJ) per year. The generating/nameplate capacity is 140 megawatts (190,000 hp).[26]

The wind farm has been designed to produce more than enough energy to operate the desalination plant to cover the days when there is less wind. It will increase the supply of wind energy in NSW by over 700%. It is a massive boost to the renewable energy sector and an environmentally sensible way to offset the power needs of the desalination plant.
Sydney Water: chapter 5 of the 2010 Metropolitan Water Plan

Awards

The Sydney Desalination Plant was named “Desalination Plant of the Year” at the 2011 Global Water Awards in Berlin.[27]

The refinancing of Sydney Desalination Plant won the "Project of the Year Award" at the Infrastructure Partnerships Australia’s 2013 National Infrastructure Awards.[28]

Controversies

Water quality concerns regarding the proximity of the seawater inlet to the desalination plant to the nearby sewage ocean outfall.[29] Environmental economists from the Australian National University studied the project after its completion and determined that "it was a costly decision that did not need to be made while dam levels were high." [30] In 2014, it was reported that the desalination plant was costing the taxpayers $534,246 per day as the plant sits idle. This was the price that the NSW Liberal-National Coalition government agreed upon when they set the 50-year lease with the plant's owners upon privatisation in 2011. To turn off the desalination plant all together would cost an extra $50 million.[31]

See also

Sources

References

  1. "Sydney Water – Annual Report 2011" (PDF). Sydney Water has also reported the electricity use by the Sydney Desalination Plant in this report. The plant is a wholly owned subsidiary of Sydney Water. The Sydney Desalination Plant used 257.7 million kWh last year, compared with 83.8 million kWh in 2009–10. It was the first full year of operation for the desalination plant, which began operation in January 2010. Sydney Water. Retrieved 29 November 2013.
  2. "The Capital Wind Farm, Infigen Energy" (PDF). Retrieved 19 October 2011.
  3. 1 2 "Sydney's desal plant switched on". The Sydney Morning Herald. AAP. 28 January 2010. Retrieved 16 March 2014.
  4. "Ownership Structure". About. Sydney Desalination Plant Pty Ltd. 2013. Retrieved 16 March 2014.
  5. "NSW signs $2.3b desalination plant deal". The Sydney Morning Herald. Reuters. 11 May 2012. Retrieved 16 March 2014.
  6. Frequently asked questions – Drought, Sydney Catchment Authority, Retrieved 29 January 2010 (note some of the data on this page needs to be updated as it was written in January or February 2007)
  7. "Water storage and supply report", 28 January 2010, Sydney Catchment Authority, Retrieved 29 January 2010
  8. "Bulk water storage and supply report", 15 February 2007, Sydney Catchment Authority, Retrieved 29 January 2010
  9. "Water storage and supply report", 26 November 2009, Sydney Catchment Authority, Retrieved 29 January 2010 (Report shows levels at 55%. Subsequent reports show decline)
  10. 1 2 "2006 Metropolitan Water Plan" (PDF). The 2004 Metropolitan Water Plan indicated that detailed planning and design for a desalination plant would be undertaken so that, if the drought continued, it would be possible to construct a desalination plant relatively quickly and efficiently. Sydney Water undertook a feasibility study during the first half of 2005 and concluded that desalination is a feasible option for water supply management in Sydney. NSW Government. Retrieved 30 November 2013.
  11. "Kurnell Desalination Plant Approval" (PDF). NSW Government. Retrieved 30 November 2013.
  12. |personquoted=chapter 7 of the 2006 Metropolitan Water Plan (pg 78) This report was written before February 2007, when supply levels dropped to 33.9%
  13. "Sydney's Desalination Plant, New South Wales". Construction of the plant commenced in 2007 under the Blue Water Joint Venture between Veolia Water and John Holland for Sydney Water. Veolia Water. Retrieved 30 November 2013.
  14. "Sydney's Desalination Project at a glance" (PDF). Sydney Water. Retrieved 6 July 2009.
  15. Kurnell map
  16. Botany Bay map
  17. Rockdale map
  18. Tempe map
  19. Alexandria/Erskineville map
  20. "City Tunnel". Supply of large volumes of water to city, especially the east and south-east. Sydney Water. Retrieved 1 December 2013.
  21. "Desalination". Sydney's desalination plant is one of the ways we are securing our water supply against the effects of climate change, a growing population and drought. The desalination plant is powered by 100% renewable energy. It can supply up to 250ML per day which is up to 15% of all our water needs. Water from the desalination benefits all water users in Sydney directly or indirectly. Sydney Water. Retrieved 29 November 2013.
  22. "Delivering desalinated water to Sydney". With a nominal capacity of 500 ML/d, the new pipeline will be able to operate for short periods at up to 550 ML/d, to allow the flow to integrate into Sydney Water’s existing water supply network. Great Southern Press. Retrieved 1 December 2013.
  23. "Operational Information". Sydney Desalination Plant. Retrieved 30 November 2013.
  24. "NSW Metropolitan Water Plan" (PDF). Retrieved 29 September 2011.
  25. Trembath, Murray (28 June 2012). "Desal plant to close down". St George & Sutherland Shire Leader. Fairfax Media. Retrieved 29 June 2012.
  26. "Desalination is an extra source of water that doesn't rely on rain" (PDF). 2010 Metropolitan Water Plan. Government of New South Wales. Metropolitan Water Directorate. 2010. Retrieved 16 March 2014. |chapter= ignored (help)
  27. "Sydney Desalination Plant wins global award". The detailed design and construction phase services for the Plant was carried out by the Bluewater Joint Venture (comprising John Holland & Veolia), with design services being provided by the Sinclair Knight Merz-AECOM joint venture acting under a design-build-operate-maintain contract with Sydney Water. SKM. Retrieved 30 November 2013.
  28. "NSW GOVERNMENT WINS PROJECT OF THE YEAR AWARD FOR SYDNEY DESALINATION TRANSACTION". “world-class transaction that freed up more than $2.3 billion to help fund a deeper, wider programme of infrastructure investment.”. Sydney Water. Retrieved 30 November 2013.
  29. "Sewage flowing past desal plant". The Australian. 10 November 2010. Retrieved 30 November 2013.
  30. "Water plant 'a billion-dollar bungle': economists". ABC. 18 July 2008. Retrieved 30 November 2013.
  31. Miles Godfrey (23 August 2014). "Desalination plant at Kurnell costing taxpayers $534,246 a day as it sits idle while water levels remain high". The Daily Telegraph.
  32. "Sydney gets its first taste of desalinated water". ABC News. 28 January 2010. Retrieved 14 February 2014.
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