Shore Connection The technology of Onshore Power supply



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Ismir Fazlagic, ABB AB Shore Connection The technology of Onshore Power supply November 3, 2011 Slide 1

Agenda General information on Onshore Power Supply Advantages/disadvantages with Onshore Power Supply Technology How does it work and issues? Reference list November 3, 2011 Slide 2

November 3, 2011 Slide 3

General information on Onshore power supply Old expression from the shipping industry, that first came into use when all ships had coal fired iron clad engines When a ship tied up at the harbour there was no need to continue to feed the fire and the iron engines would literally cool down eventually going completely cold, hence the term cold ironing Has been used by the military at naval bases for many years when ships are docked for long periods. Today shipping industry is an important link in the international system of goods movement and is increasing rapidly in size and power. Marine transport of goods is responsible for roughly 90 % of the world trade While in port, ships use their diesel auxiliary engines to produce electricity for hotelling, unloading and loading activities. Main engines are usually switched off soon after berthing. together with aviation, shipping is the biggest emitter of pollution in the European Union One of the key forces behind shore-to-ship electrification is the EU directive 2005/33/EC that will come into force the 1 st of January 2010, and affects every single ship while at berth in a European port more than two hours. One measure to reduce emissions while at berth, is to provide electricity to the ships from the national grid instead of producing electricity by the ships own auxiliary diesel generators. November 3, 2011 Slide 4

Port emissions reduction Propelled by global regulations Sulphur limit 1.0% in SECA Landbased emission gradually Sulphur limit comming down 3.5 % globally Seabased emissions is continously increasing Sulphur limit 0.1% in SECA Current legislation - SO 2 and NO x emissions will increase by 50 % up to 2020 November 3, 2011 Slide 5

Port emissions reduction Propelled by global regulations MARPOL annex VI ratification Global sulfur Baltic Sea limit 4.5% SECA 1.5% Sulphur Directive North Sea 1999/32/EC SECA 1.5% Review MARPOL Annex VI Sulphur limit 1.0% in SECA SO 2 and NO x emissions Sulphur limit contribute serious problems 3.5 % globally Acidification Eutrophication Sulphur limit 0.1% in SECA Ground-level ozone Damages vegetation as well as human health Global warming Port oflos Angeles and Long Beach, requirement to connect Negatively affects biodiversity to shore power November 3, 2011 Slide 6

Shore Connection Benefits / Advantages 700 000 600 000 500 000 Cost $ / year 400 000 300 000 200 000 Port Investment Electricity Ship Investment CO2 Bunker 100 000 0 Aux Engine Costs Shore Connection Costs November 3, 2011 Slide 7

Shore Connection Principle November 3, 2011 Slide 8

Standards are needed Due to the amount of diffrent type of vessels size and power in international water, a common standard is required in order to reduce the compatibility issues. Standard for shore connection is ongoing, and expected to be released as IS during Q3 2012. Name of standard: IEC/ISO/IEEE 80005-1 The standard is to be valid in IEC/ISO/IEEE groups, and will be a worldwide standard. Its purpose is to define: The electrical parameters which are necessary to enable connection in-between port and harbor Intended for vessels in the power range of 1-20MVA 6.6kV or 11kV, 50Hz or 60Hz Power quality requirements Galvanic separation Engineering 1. Requiremens for Shipside facilities 2. Requirements for Shoreside facilities 3. Requirements for a ship to connect to a shore facility Define Plugs and Sockets Safety rules, procedures, responsibilities and education for shore connection r November 3, 2011 Slide 9

ABB Shore Connection A complete shore-to-ship power solution November 3, 2011 Slide 10

ABB Shore Connection Shore connection solution November 3, 2011 Slide 11

4 MVA, 50/60 Hz power supply Modular and scalable in steps of 2 MVA November 3, 2011 Slide 12

4 MVA, 50/60 Hz power supply Modular and scalable in steps of 2 MVA November 3, 2011 Slide 13

ABB Shore Connection Substation 50&60 Hz solution Advantages with a centralized converter: Advantages with indoor solutions: Reduced investment cost Space Maintenance Reduced civil work Environment Aesthetics Sound Profitability Reliability Personnel safety November 3, 2011 Slide 14

ABB Shore Connection Reference List Project In service Power Frequency Location End-user Ystad hamn 2012 6.25MVA 50 & 60 Hz Ystad Ystad hamn Tysklandsterminalen 2010 2.5 MVA 60 Hz Göteborg Stena Line Verkö 2010 2.5 MVA 50 Hz Karlskrona Stena Line Danmarksterminalen Extension 2010 1.2 MVA 50 Hz Göteborg Stena Line Danmarksterminalen 2004 1.2 MVA 50 Hz Göteborg Stena Line RoRo terminalen 2001 1.25 MVA 50 Hz Göteborg DFDS / Tor Line RoRo terminalen 2000 1.25 MVA 50 Hz Göteborg Stora Enso November 3, 2011 Slide 15

November 3, 2011 Slide 16

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