{{Use Australian English|date=October 2019}} {{Use dmy dates|date=October 2019}} {{Infobox power transmission line | name = Directlink (Terranora) Interconnector | photo = | caption = | map = {{maplink |type=line |frame=yes |plain=yes |frame-align=center |zoom=8}} | map_caption = Location of Directlink (Terranora) Interconnector | country = [[Australia]] | state = [[New South Wales]] | province = | coordinates = | lat = | long = | direction = south-north | start = [[Mullumbimby, New South Wales|Mullumbimby]] | through = | finish = [[Bungalora, New South Wales|Bungalora]] | par = | owner = Energy Infrastructure Investments (EII) | partners = | operator = [[APA Group (Australia)|APA Group]] | cable_manufacturer = [[ABB Group|ABB]] | cable_installer = | cable_layer = | substation_manufacturer= [[ABB Group|ABB]] | substation_installer= | contractors = TransÉnergie Australia | construction = | expected = | est = 2000 | decom = | type = Land cable (buried) | current_type = [[High-voltage direct current#Voltage-source converters (VSC)|HVDC VSC]] | length_km = 63 | capacity = 180&nbsp;MW | AC_voltage = 110&nbsp;kV (Bungalora), 132&nbsp;kV (Mullumbimby) | DC_voltage = ±80&nbsp;kV | poles_no = | circuits_no = 3 }} '''Directlink (Terranora)''' '''Interconnector''' is a mixed buried and above ground 59 kilometre (37 mi) [[high voltage direct current|High Voltage Direct Current]] (HVDC) electricity transmission cable route from near Lavertys Gap ({{Coord|28|34|15|S|153|27|8|E|type:landmark|name=Directlink - Mullumbimby Static Inverter Plant}}), {{convert|5|km}} Southwest of [[Mullumbimby, New South Wales]] and Bungalora ({{Coord|28|15|20|S|153|28|20|E|type:landmark|name=Directlink - Bungalora Static Inverter Plant}}) & connected via a 3.5&nbsp;km (2.2&nbsp;mi) [[Transmission line|AC Overhead Transmission Line]] to the NorthEast to the [[Electrical_substation|Terranora Electrical Substation]] ({{Coord|28|14|28.3|S|153|30|12.7|E|type:landmark|name=Essential Energy - Terranora Electrical Substation|format=dms}}) @ [[Terranora, New South Wales]] in Eastern [[Australia]]. The DC cables alternate between above ground in a galvanised steel trough and below ground with depths up to 1&nbsp;metre.<br>

It is one of the two interconnections used to trade electricity between [[New South Wales]] and [[Queensland]] (the other is the 330&nbsp;kV Dual Circuit [[Queensland – New South Wales Interconnector]] (QNI)).<ref name=transgrid/>

==History== The interconnector was developed by a joint venture of NorthPower (later [[Country Energy]]), TransÉnergie–a subsidiary of [[Hydro-Québec]], and ''[[Fonds de solidarité FTQ]]''.<ref name=abb/><ref name=couriermail> {{cite news | url = http://www.couriermail.com.au/business/apt-buys-directlink-line/story-e6freqmx-1111112720711 | title = APT buys DirectLink line | first = Tony | last = Grant-Taylor | newspaper = [[The Courier-Mail]] | publisher = [[News Limited]] | date = 2016-12-20 | access-date = 2011-06-12}} </ref> The motivation to build the interconnector was the power shortage in Southern Queensland and surplus capacities in New South Wales. It was developed as an Independent Transmission Project.<ref name=abb/> It was commissioned in December 1999 and it started operations in April 2000.<ref name="abb"> {{cite web|url=http://library.abb.com/GLOBAL/SCOT/SCOT245.NSF/VerityDisplay/591D08FE788CCA54C125702700599F86/$File/Project%20Directlink-.pdf|archive-url=https://web.archive.org/web/20110820011045/http://library.abb.com/GLOBAL/SCOT/SCOT245.NSF/VerityDisplay/591D08FE788CCA54C125702700599F86/$File/Project%20Directlink-.pdf|url-status=dead|archive-date=2011-08-20|title=Directlink Project Queensland – New South Wales in Australia|publisher=[[ABB Group|ABB]]|access-date=2011-06-09}} </ref><ref name=powergen010501> {{cite news | url = http://www.powergenworldwide.com/index/display/articledisplay/101136/articles/power-engineering-international/volume-9/issue-5/features/network-interconnection-murraylink-the-underground-connection.html | title = Network Interconnection: Murraylink: the underground connection | work = Power-Gen Worldwide | publisher = [[PennWell Corporation]] | date = 2001-05-01 | access-date = 2011-06-08}} </ref> It was the first time that transmission systems of New South Wales and Queensland were linked.<ref name="springer"> {{cite book|url=https://books.google.com/books?id=y1LM8i4oipAC&pg=PA172|title=HVDC and FACTS controllers: applications of static converters in power systems|last=Sood|first=Vijay K.|publisher=[[Springer Science+Business Media|Springer]]|year=2004|isbn=978-1-4020-7890-3|pages=172, 174}} </ref> The construction cost US$70&nbsp;million.<ref name="tdworld010299"> {{cite news |archive-date=2011-09-28 |archive-url=https://web.archive.org/web/20110928190514/http://tdworld.com/mag/power_electricgas_utilities_threaten/index.html|title=Electric/Gas Utilities Could Threaten Telecoms|date=1999-02-01|newspaper=Transmission & Distribution World|access-date=2011-06-12|url-status=dead |url=http://tdworld.com/mag/power_electricgas_utilities_threaten/index.html |publisher=[[Penton Media]]}} </ref>

In December 2006, it was announced that Directlink would be purchased by Australian Pipeline Trust (APT, a part of [[APA Group (Australia)|APA Group]]) for US$133&nbsp;million.<ref name=couriermail/> The transaction was completed in February 2007.<ref name=reuters250208> {{cite news | work = [[Reuters]] | title = APA Group H1 profit rises, upgrades outlook | url= https://www.reuters.com/article/apa-results-idUSSYD29228020080225 | first = Fayen | last = Wong | date = 2008-02-25 | access-date=2011-06-12}} </ref>

Originally, the interconnector operated as a non-regulated market network service. However, on 6 May 2004 an application to convert it to a regulated network service was submitted. The application was approved by the [[Australian Energy Regulator]] on 10 March 2006.<ref name="aer100306"> {{cite press release|title=AER final decision approves Directlink conversion|date=2006-03-10|publisher=[[Australian Energy Regulator|AER]]|url=http://www.aer.gov.au/content/index.phtml/itemId/692529|access-date=2011-06-12|archive-url=https://web.archive.org/web/20120325150113/http://www.aer.gov.au/content/index.phtml/itemId/692529|url-status=dead|archive-date=2012-03-25}} </ref>

In December 2008, ownership of Directlink (as well as [[Murraylink]]) was transferred to the Energy Infrastructure Investments Group, while the APA Group continued as the operator.<ref name=aer2010> {{cite web | publisher = [[Australian Energy Regulator|AER]] | title = Electricity Transmission Network Service Providers Directlink & Murraylink Amended Cost Allocation Methodologies | url= http://www.aer.gov.au/content/item.phtml?itemId=735797&nodeId=0d936ed092c2c7f5ab6a0ce9fab915dc&fn=Final%20decision%20-%20Directlink%20and%20Murraylink%20amended%20cost%20allocation%20methodoloies.pdf |date=March 2010 | access-date=2011-06-12}} </ref><ref>[https://www.aer.gov.au/system/files/Directlink%20-%20amended%20cost%20allocation%20method.pdf Electricity Transmission Network Service Providers - Directlink and Murraylink amended Cost Allocation Methodologies - March 2010]</ref> The ownership of EII is allocated as APA with 19.9%, Japan-based [[Marubeni]] Corporation with 49.9%, and [[Osaka Gas]] with 30.2%.<ref>{{Cite web|url=https://www.apa.com.au/our-services/other-energy-services/electricity-transmission-interconnectors/|title=electricity transmission interconnectors - APA Group|website=www.apa.com.au|language=en|access-date=2018-12-30|archive-date=22 September 2017|archive-url=https://web.archive.org/web/20170922095917/https://www.apa.com.au/our-services/other-energy-services/electricity-transmission-interconnectors/|url-status=dead}}</ref>

==Technical description== Directlink (Terranora) interconnector is a {{convert|59|km||abbr=|adj=on}} HVDC land cable route. The system has three 65&nbsp;MVA [[Voltage source converter|Voltage Source Converters]] at each station connected by three pairs of transmission cables. Each pair of cables operates at +/-80&nbsp;kV and transmits 60&nbsp;MW. In New South Wales it is connected to a 132&nbsp;kV [[alternating current]] transmission grid and in Queensland to 110&nbsp;kV alternating current transmission grid.<ref name=abb2/><ref name=arrilaga> {{cite book | publisher = [[John Wiley & Sons]] | first1 = J. | last1 = Arrillaga | first2 = Y. H.| last2 = Liu | first3 = N. R. | last3 = Watson | title = Flexible power transmission: the HVDC options | url= https://books.google.com/books?id=LAv9l3URn1AC&pg=PA31 | year = 2007 | page = 310 | isbn = 978-0-470-05688-2}} </ref>

The total rating of the interconnector is 180&nbsp;MW.<ref name="abb2"> {{cite web | publisher = [[ABB Group|ABB]] | title = Terranora interconnector (Directlink) | url= http://www.abb.com/industries/ap/db0003db004333/2700978c26a07a70c125774b00410cbc.aspx | access-date=2011-06-09}} </ref> The maximum net transfer minus losses is around 170&nbsp;MW. If one pair of cables malfunctions, the available capacity is around 115&nbsp;MW. If two pairs of cables are out of service, the capacity is around 57&nbsp;MW.<ref name="transgrid"> {{cite web|url=http://www.transgrid.com.au/network/consultations/Documents/110208%20-%20Far%20North%20NSW%20-%20Supplementary%20Report%20Final.pdf|archive-url=https://web.archive.org/web/20110724043605/http://www.transgrid.com.au/network/consultations/Documents/110208%20-%20Far%20North%20NSW%20-%20Supplementary%20Report%20Final.pdf|url-status=dead|archive-date=2011-07-24|title=Development of Electricity Supply to the NSW Far North Coast. Supplementary Report|date=May 2010|publisher=[[TransGrid]]|page=7|access-date=2011-06-12}} </ref> However, in some cases for a limited time period the interconnector has operated in an overloading mode for up to 250&nbsp;MW. The limiting factor for flow in the New South Wales direction is the thermal ratings of the Terranora–Mudgeeraba 110&nbsp;kV lines and Mullumbimby–Dunoon 132&nbsp;kV lines, and for flow in the Queensland direction is the thermal ratings of the Lismore–Dunoon 132&nbsp;kV lines.<ref name="aemc"> {{cite web|url=http://www.aemc.gov.au/Media/docs/Review%20of%20Last%20Resort%20Planning%20Powers-2fda6f79-262b-482e-9de3-7c56768e700a-1.PDF|archive-url=https://web.archive.org/web/20160306100002/http://www.aemc.gov.au/Media/docs/Review%20of%20Last%20Resort%20Planning%20Powers-2fda6f79-262b-482e-9de3-7c56768e700a-1.PDF|url-status=dead|archive-date=2016-03-06|title=Review of Last Resort Planning Powers|date=2010-09-17|work=[[Sinclair Knight Merz]]|publisher=[[Australian Energy Market Commission|AEMC]]|page=5|access-date=2011-06-12}} </ref>

[[High-voltage direct current#Voltage-source converters (VSC)|HVDC VSC]] was chosen for this project for reasons of low environmental impact of the transmission route and the ability of the [[Insulated-gate bipolar transistor|IGBT]] converter stations at each end to accurately control both [[AC power|real and reactive power]]. Individual water-cooled [[Insulated-gate bipolar transistor|IGBT]] modules are rated at 2.5&nbsp;kV and 500&nbsp;A,<ref name="springer" /> with multiple units connected in series to achieve the required voltage rating.

==References== {{Reflist}}

[[Category:2000 establishments in Australia]] [[Category:HVDC transmission lines]] [[Category:Electric power transmission systems in Australia]] [[Category:Hydro-Québec]] [[Category:Electric power infrastructure in New South Wales]] [[Category:Electric power infrastructure in Queensland]] [[Category:Energy infrastructure completed in 2000]] [[Category:Byron Shire]] [[Category:Tweed Shire]]