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Supergen Energy Storage Network+
Maritime Decarbonisation Workshop
25th January 2020
Professor Yulong Ding, University of Birmingham
Dr Haris Patsios, Newcastle University
Dr Antzela Fivga, University of Birmingham
At a glance…
Professor Yulong Ding, University of Birmingham
19 academics from 12 institutions
£1.2m total with £1m from EPSRC
£450k of flexible funding
£100k from the International Energy Storage Alliance for
joint international projects
£2m (in-kind support) from 34 project partners
48 months in duration
2nd September 2019 start date
Energy Storage Types
Electrochemical
Electrical
Thermal
Mechanical
Chemical
Integration of ES in energy networks; Energy and society;
Environmental, social, economical, and policy considerations;
Artificial intelligence and big data
VisionConnecting and serving stakeholders across the whole
energy community, advancing and championing UK
energy storage research and deployment.
Objectives
Challenge: Decarbonizing Vessels
Increased electrification
Towards the All Electric ShipG
G
G
+-
L1 L2 Lx L1 L2 Lx L1 L2 Lx L1 L2 Lx
Zone1 Zone2 Zone3 Zone4
PGCON1
PGCON2
PGCON3
PGCON4
PPCON1
PZCON2
PZCON1
PZCON4
PZCON3
PLCON6PLCON2 PLCON4
PLCON5PLCON3PLCON1 PLCON7
PLCON8
20 MW high-
speed gas
turbine -
generator
20 MW high-
speed gas
turbine -
generator
20 MW propulsion
load
4 MW energy
storage
system
5 MW diesel
engine -
generator
M
4kV DC bus
4kV DC bus
4kV DC bus
4kV DC bus
conventional
IFEP-Propulsion in AES
IFEP-Pod in AES
Shaft
Line
Conventional
IFEP-Propulsion in
AES
IFEP-Pod in AES
Ships becoming complex multi-vector energy systems
Energy Storage key for their safe, cost-effective, and reliable
operation
• Research gaps:
• Energy storage sizing and technology selection
• Control and coordination with other assets
• Systems Integration
Decarbonising Maritime/Shipping – Workshop ideasEnergy Storage
Challenge: Decarbonizing Ports
Increased electrification of Port Operations
Towards the ‘Smart Port’
• Research gaps:
• Ship Integration – Cold Ironing and shore connection Need for storage
• Control and coordination of port assets including storage
• Energy storage sizing, siting, and technology selection
• Ports as energy hubs – Sources of flexibility for wider network – the role of storage
• Systems Integration
Figure modified from
https://porteconomicsmanagement.org/
Ports becoming complex multi-vector
energy systems Energy Storage key for
their safe, cost-effective, and reliable
operationEnergy
Generation &
Load
Electrification of
operations
Ship to Shore
Connections
Port Energy System
Decarbonising Maritime/Shipping – Workshop ideasEnergy Storage
Royal Society Report (2021)
Ammonia: zero-carbon fertiliser, fuel
and energy store
Ding et al. (2020) An Integrated
LAES-Ammonia System, Patent filed
Decarbonising Maritime/Shipping – Workshop ideas Integrated Ammonia – Liquid Air System
Decarbonising Maritime/Shipping – Workshop ideas Recyclable Zero-Carbon Metallic Fuels (Energy Stores)
• High energy density, high efficiency, low cost, and safe;
• Some existing supply chain and infrastructure.
Thank you
@ukenergystorage
www.supergenstorage.org