Siemens solutions for Green Harbours of the Future - 30 Giugno 2016 - Enzo Calabrese - Naples ...
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30 Giugno 2016 – Enzo Calabrese Siemens solutions for Green Harbours of the Future Restricted © Siemens AG 2016 All rights reserved.
Siemens at home in the world…
In more than 200 countries
Great Britain Brazil Singapore Morocco Korea
(1850) Denmark (1895) Switzerland Malaysia (1967)
(1908) (1952)
(1893) (1900) (1924)
Russia Mexico Canada Libya Cameroon
Ukraine (2002)
(1853) (1894) Belgium Chile (1912) India Pakistan (1972)
(1855) (1924)
(1898) (1907) (1950)
Japan UAE
Philippines Thailand Croatia Ireland Angola
(1887) Poland Columbia (1972)
(1894) (1900) (1925) (2007)
(1896) (1910) (1954)
1847 1850-1899 1900 1910 1920 1930 1940 1950 1960 1970 1980 1990 2000
Germany
Portugal Serbia Nigeria Yemen
Argentina
(1895) (1921) (1956) (1972)
South Africa Egypt (1908) Tunisia
(1860) Spain Oman Taiwan
(1901) Hong Kong / (1929)
(1895) Algeria (1972) (1974)
France Austria Norway Turkey Macau (1956)
(1898) (1911) Luxembourg Qatar Kenya
(1878) (1859) (1907) (1920) Venezuela (1965) (1977)
Sweden Finland Indonesia (1955)
USA (1893) (1909) New Zealand Bahrain
(1899)
(1892) (1923) Saudi Arabia (1958)
Netherlands
China Czech Rep. (1931) Vietnam
Australia (1891) Italy Greece Afghanistan
(1904) (1920) (1993)
(1892) (1899) (1926) (1954)
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Page 2 Enzo Calabrese
Key figures for fiscal 2015 –
Siemens at a glance
Environmental Portfolio revenues
43 % share of company revenue
1 Comparable, excluding currency translation and portfolio effects. 2 Continuing and discontinued operations. 3 Commonwealth of Independent States
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Page 3 Enzo Calabrese
Customer centricity
in dedicated markets on a global scale
Harbours
More than 1200 Key Account Manager serving our largest customers worldwide
Providing sustainable market specific solutions from one source
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Page 4 Enzo Calabrese
EU – Directive 2014/94/EU - On the deployment of alternative fuels infrastructure (22 Oct 2014) EU – Directive 2014/94/EU – Built facilities in TEN-V ports until 2025 Restricted © Siemens AG 2016 All rights reserved. Page 5 Enzo Calabrese
C40 World Ports Climate Declaration The WORLD PORTS CLIMATE DECLARATION addresses: • Reduction of greenhouse gas emissions from ocean-going shipping • Reduction of greenhouse gas emissions from port operations and development • Reduction of greenhouse gas emissions from hinterland transport • Enhancement of the use of renewable energy • Development and auditing of CO2 inventories Source: World Ports Climate Declaration C40Cities, Restricted © Siemens AG 2016 All rights reserved. Page 6 Enzo Calabrese
The Challenge:
Shipping-related pollution
Shipping industry is a main contributor of air pollution
90 % of transport
on ships account 2% of global CO2 emissions
worldwide for
15% of global nitrogen oxide (NOx) emissions
6% of global sulphur oxide (SOx) emissions
Source: United Nations Statistics Division,
Millennium Development Goals indicators
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Page 7 Enzo Calabrese
Mortality from CO, SOX, NOX and PM generated by shipping Results indicate that shipping-related particle matter emissions are responsible for approximately: 60.000 cardiopulmonary and lung cancer deaths annually. Health costs in EU increase from 58.4 bn Euros/year (2000) to estimated 64.1 bn Euros/year (2020) Source: J. Brandt et al., 2011: Assessment of Health-Cost Externalities of Air Pollution at the National Level using the EVA Model System, CEEH Scientific Report No 3, Centre for Energy, Environment and Health Report series, March 2011, pp. 98. Restricted © Siemens AG 2016 All rights reserved. Page 8 Enzo Calabrese
Electrification
Why using the shore side electricity?
Shore Connection System
SIHARBOR
1 2 3 4 3 2 5
ITEMS MAIN BENEFITS
Flexible connection to all kind of board grids
1 Local grid connection independently of voltage or frequency
2 Harbor substation
One cable connection (MV) instead of several LV
3 Transformer
connections with easier and faster synchronization
4 Voltage and frequency adjustment and
power flow control (SIPLINK) Reduction of emissions, noise and vibrations; saving
of costs for fuels and lubricants; longer useful life of
5 Cable connection to ship on-board generators
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Page 9 Enzo Calabrese
Reduction of emissions
thanks to shore connection
CO2 - 54%
NOx - 97%
PM - 90%
CO - 86%
N2O - 55%
VOC
- 95%
0% 10% 20% 30% 40% 50% 60% 70% 80% 90% 100%
Combustion reduced in %
Emission reductions can be increased by 100 % with power generated completely from renewable energy sources
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Page 10 Enzo CalabreseProduct Portfolio Crane drive system with ECO Technology Restricted © Siemens AG 2016 All rights reserved. Page 11 Enzo Calabrese
Product Portfolio
Energy Storage System
Grid SIESTORAGE
Item • we can also provide the SIESTORAGE solution with
2
the modular energy storage concept
(1) Transformer
(2) MV SWGR
1
(3) Cabling
(4) Fire Detection System
3 (5) Power electronics
(6) Battery system
(7) Container
(PCS)
(8) HVAC
5
(9) Installation
8 (10) Commissioning
(11) Engineering
6 (12) Civil works
(ESS) (13) Service
(14) SCADA
4 7
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Page 12 Enzo CalabreseLe reti elettriche all’interno dei porti
Alcune definizioni
L‘Autoconsumo all’interno dei porti Reti Elettriche
SSPC SDC
Sistemi Semplici di Produzione e Consumo Sistemi di Distribuzioni chiusi
Definizione delibera 578/2013 e Definizione delibera 539/2015 e
TISSPC TISDC
Rete elettrica: sistema elettrico a
configurazione complessa:
Sistema Semplice di Produzione e • [….] che non può essere ricondotto ad uno
Consumo: insieme dei sistemi elettrici, schema semplificato in cui ci sia un unico
connessi direttamente o punto di connessione, un unico produttore di
indirettamente alla rete pubblica, energia elettrica responsabile della gestione
all’interno dei quali il trasporto di degli impianti di produzione connessi al
energia elettrica per la consegna alle predetto sistema e un unico cliente finale
• in cui coesistono una pluralità di clienti finali
unità di consumo che li costituiscono e/o produttori di energia elettrica
non si configura come attività di • in cui il trasporto di energia elettrica si
trasmissione e/o di distribuzione, configura come attività di trasmissione e/o
ma come attività di distribuzione
autoapprovvigionamento L’insieme delle reti elettriche è suddivisibile
energetico. in: reti pubbliche e sistemi di distribuzione
chiusi (SDC)
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Page 13 Enzo CalabreseLe reti elettriche all’interno dei porti: Autoconsumo (utente finale) Autoconsumo: “Energia elettrica prodotta e consumata “localmente” e istantaneamente senza scambio con la “rete esterna” del distributore.” Restricted © Siemens AG 2016 All rights reserved. Page 14 Enzo Calabrese
SSPC - Sistemi Efficienti di Utenza (SEU)
Motivazioni e Benefici
Promozione dell’autoconsumo attraverso agevolazioni tariffarie: le componenti
tariffarie di trasmissione, di distribuzione e gli oneri generali di sistema trovano
applicazione in relazione alle caratteristiche del punto di connessione alla rete elettrica
e all’energia elettrica prelevata attraverso tale punto
Sincronizzazione fra carico e generazione all’interno del SEU
produzione produzione
carico carico Benefici tariffari
1 3 5 7 9 11 13 15 17 19 21 23
1 3 5 7 9 11 13 15 17 19 21 23
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Page 15 Enzo CalabreseSistemi di Distribuzioni chiusi (SDC)
per AP e/o soggetti concessionari elettrici
1. Le reti elettriche nelle aree portuali sono definite Sistemi di Distribuzione Chiusi (SDC).
2. Le AP e/o soggetti concessionari sono i gestori degli SDC.
01 Gennaio 2017
I gestori elettrici/AP si dovrebbero attrezzare al meglio per il nuovo ruolo che la regolazione
riconosce loro:
1) Sistema di telegestione degli utenti collegati (gestione POD, acquisizione misure, etc.)
2) Sistema di telecontrollo della rete di distribuzione interna
3) Apparati di campo evoluti per il monitoraggio e affidabilità della fornitura (sist. di protezione, RTU, sensori, etc.)
4) EMS – Energy Management System
Microgrid
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Page 16 Enzo CalabresePer riassumere: Cosa cambia per gli SDC (Porti)
SDC fino al 2016 SDC dal 2017
POD POD
POD
POD
Un punto di interconnessione fra reti +
Un POD + Black box
un POD per ogni unità di consumo
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Page 17 Enzo CalabreseSmartPort model:
The Green Harbours of the Future
SSPC/SEU
SDC SSPC/SEU
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Page 18 Enzo CalabreseSiemens offers a broad portfolio for Harbors and
Hinterland Transport:
Quay Transfer Area Stack Rail/Road Terminal Gate
Stack Gate
Loading/unload Horizontal Rail Road
shuffling/ entry/exit Hinterland transport
ing vessel transport Interchange
storage automation
IT: Terminal Operation Management (TOS) IT: Harbor Management System
Siemens portfolio
EM, PD IA/PD BT/PD PD/MO/BT MO/BT MO
• Crane systems – • Industrial • Crane system • Crane system • Intelligent video • Intelliyard –
automation, management
wireless • Container (RMG's) Inte-grated
controls, gear communication • Container marshalling
boxes and power scanning • Container scanning
• Drives (IDS) , yard operations
• ECO Cranes • Command & scanning • Track and trace,
mechanical • eHighway
Scan Control • Individual nuc-lear scan, X-
• Safe power drives ray scan • Freight, yard,
• Central data truck guidance hump control
supply - Line • Intelligent video
protection (LV) and control management • Traffic
• Resilient Power platform • Command & management
supply • Integrated Control system
• On shore power • Central data & • Individual truck
smart safety
supply for ships control platform
and security guidance
• Distributed • Incident
Energy solutions managem. • ANPR cameras
Management • Integrated smart
(DEMS) safety and
security solutions
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Page 19 Enzo Calabrese30 Giugno 2016 – Enzo Calabrese Thank you for your attention! Restricted © Siemens AG 2016 All rights reserved.
SIPLINK Reference
SIPLINK, Port of Luebeck, Germany
backup
Challenges
• Noises and vibration in the harbor
• Shore connection for three paper ferries: TransPaper, TransPulp and
TransTimber of Finnish shipping line TransAtlantic with 400 V/50 Hz on-
board supply systems.
• Ships already equipped for shore connection in Finland, including onboard
cable management system with a plug-in connection, a control unit for the
coupling process and a transformer on-board
Siemens Solutions
• Shore Connection System SIHARBOR: based on SIPLINK converters
Project Information (Siemens multi-functional Power LINK)
• SIHARBOR solution of 6.0 kV with complete integration of all the
components in a container
Name of • Shore side connection point at the jetty wall
SIPLINK
project
Customer Benefits
Location Luebeck, Germany • Complete integration from a single source
• SIHARBOR solution allows the ships to turn off their own diesel generators
and reduce harmful emissions during their lay days
Customer TransAtlantic • Reduced noise and vibration in the neighborhood
• Reliable and secured energy supply to the ships
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Page 21 Enzo CalabreseSIPLINK Reference
SIPLINK, Port of Hamburg, Germany
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Challenges
• One of the main causes of local air pollution is the combustion of ship fuels
for generating electricity during lay days and thus producing harmful
emissions
• Needs to meet the required international standards IEC/ISO/IEEE 800005-1
(cable connection between shore and ship on the medium voltage side) and
IEC 62613-2 (connectors and sockets)
Siemens Solutions
• Power capacity of 12 MVA through a parented mobile robot arm; designed
Project Information specially for tidal range – suitable for all power ranges required in the
shipping industry and for all the world’s common ship frequencies (50 and
60 Hertz)
Name of
SIPLINK
project
Customer Benefits
Location Hamburg, Germany • Self propelled system that can be automatically operated from ship (so no
specialists needed onshore)
• Reduce harmful emissions during the ship lay days
Altona Cruise • Reduced noise and vibration in the neighborhood
Customer Terminal
• Reliable and secured energy supply to the ships
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Page 22 Enzo CalabreseGreenPort - Sustainable cruise development
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Page 23 Enzo CalabreseYou can also read
