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DNV GL © 2014
Ungraded
27 January 2016 SAFER, SMARTER, GREENERDNV GL © 2014
Ungraded
27 January 2016
Andreas Kristoffersen
MARITIME
Classification of Battery Powered Vessels
1
Class rules
DNV GL © 2014
Ungraded
27 January 2016
DNV GL Classed sailing vessels with batteries
2
Viking Lady
Battery Hybrid
Owner: Eidesvik
Island Crusader
Battery Hybrid
Owner: Island Offshore
Edda Ferd
Battery Hybrid
Owner Østensjø
Ampere
Battery Power
Owner Norled
DNV GL © 2014
Ungraded
27 January 2016
DNV GL Classed vessels with batteries under construction
3
Edda Freya (new build)
Battery Hybrid
Owner: Østensjø
Viking Queen (retrofit)
Battery Hybrid
Owner: Eidesvik
New build 126 Havyard
Battery Hybrid
Owner: Fafnir Offshore
Viking Energy(retrofit)
Battery Hybrid
Owner: Eidesvik
New build Söby
Battery Power
Owner: Ærö Community
Seasight(new build)
Battery Hybrid
Owner: Brødrene Aa
New build P310 Crist
Battery Hybrid
Owner: Finnferries
New build 372 Kleven
Battery Hybrid
Owner: ABB AB
OV Bøkfjord (New build)
Battery Hybrid
Owner: Kystverket
Grieg Star(retrofit)
Battery Hybrid
Owner: Grieg Star
DNV GL © 2014
Ungraded
27 January 2016
ENERGY STORAGE SYSTEM
4
DNV GL © 2014
Ungraded
27 January 2016
Sec.1 Battery Power
5
Part 6 Chapter 2 - Propulsion, power generation and auxiliary systems
The class rules cover the use of batteries as a part of the propulsion energy for vessels either by hybrid battery solutions or “pure” battery driven vessels. The rules have been developed from the tentative legacy DNV Battery Power rules from 2012.
This is new in the 2015 Battery power rules:
- Specific requirements for fire safety of battery spaces.
- Environmental control of battery spaces.
- Specific test requirements for batteries.
…and yes, you can use the batteries in DP operation.
DNV GL © 2014
Ungraded
27 January 2016
Sec.1 Battery Power
6
Chapter 2 - Propulsion, power generation and auxiliary systems
Battery (safety)(a new notation in 2015)A notation that cover requirements for the safety of the battery installation covering vessel arrangement, environmental control including temperature and ventilation.
To prevent thermal incidents in battery spaces, then the rules gives requirement to fire integrity, detection and extinguish measures.
=~
G
=~
G
~~
~~
~~
DNV GL © 2014
Ungraded
27 January 2016
Sec.1 Battery Power
7
Chapter 2 - Propulsion, power generation and auxiliary systems
Battery (power)The notation you need when the battery is used as a main source of power (propulsion power).
The rules put requirements for redundancy and location. In addition the time or range that the battery can supply energy shall be calculated taken into account the planned operation/voyage
~=
=~
=~
DNV GL © 2014
Ungraded
27 January 2016
Sec.1 Battery Power 1 General................................................................................................. 10
– 1.1 Introduction....................................................................................... 10
– 1.2 Terminology and definitions................................................................. 11
– 1.3 Procedural requirements......................................................................12
2 Design principles for Battery(Safety) notation..................................... 15
– 2.1 General............................................................................................. 15
– 2.2 Arrangement......................................................................................15
– 2.3 Operational environment control...........................................................15
– 2.4 Fire safety for battery spaces.............................................................. 17
– 2.5 Safety assessment..............................................................................18
– 2.6 System design................................................................................... 18
– 2.7 Testing.............................................................................................. 19
– 2.8 Operation and maintenance................................................................. 19
3 Design principles for Battery(Power) notation..................................... 19
– 3.1 General............................................................................................. 19
– 3.2 System design................................................................................... 20
– 3.3 Testing.............................................................................................. 21
– 3.4 Operation and maintenance................................................................. 21
4 Battery system..................................................................................... 21
– 4.1 Battery system design........................................................................ 21
– 4.2 Testing.............................................................................................. 23Content
8
Part 6 Chapter 2 - Propulsion, power generation and auxiliary systems
DNV GL © 2014
Ungraded
27 January 2016
Sec.1.2 Design principles for Battery (safety) notation
The battery space shall not contain
redundant propulsion or steering systems
Safety assessment
– gas development risk (toxic,
flammable, corrosive)
– fire risk
– explosion risk
– necessary detection and alarm systems
(gas detection, fire detection etc.) and
ventilation
– external risks (fire, water ingress etc.)
– loss of propulsion or auxiliary power for
essential or important services.
9
Part 6 Chapter 2 - Propulsion, power generation and auxiliary systems
DNV GL © 2014
Ungraded
27 January 2016
Sec.1.2.4 Fire safety for battery spaces
A-0 fire integrity, A-60 towards muster stations
Additional fire integrity requirements for notation
Battery (power)
Monitored by smoke detection within the spaces.
Water-based fixed fire extinguishing system.
Conformance and non-conformance with these
requirements shall also be included in the safety
assessment.
10
Part 6 Chapter 2 - Propulsion, power generation and auxiliary systems
DNV GL © 2014
Ungraded
27 January 2016
1.2.6 System design
Short circuit and overcurrent protection
Isolating switch
Short circuit capability
Power converter/ battery charger
11
Part 6 Chapter 2 - Propulsion, power generation and auxiliary systems
DNV GL © 2014
Ungraded
27 January 2016
Sec.1.3 Design principles for Battery (power) notation
When the main source of power is based on
batteries only, it shall consist of at least two
independent battery systems.
Cable routing.
Short circuit capacity sufficient for selectivity
between breakers and fuses.
Local Operation.
12
Part 6 Chapter 2 - Propulsion, power generation and auxiliary systems
DNV GL © 2014
Ungraded
27 January 2016
Sec.1.3.2.3 Energy Management System
Energy Management System (EMS) shall be installed.
Control battery temperatures by:
– Limiting charge and discharge current.
– Limiting max and min battery voltages.
Monitor:
– available energy of the batteries
– remaining time or range that the battery can supply
energy for the planned operation/voyage
– state of health of the batteries (SOH)
Alarms related to capacities.
13
Part 6 Chapter 2 - Propulsion, power generation and auxiliary systems
DNV GL © 2014
Ungraded
27 January 2016
Sec.1.4 Battery system certification
System design
Safety description
Integrated BMS
– Control
– Monitor
– Alarms
– Abnormal conditions
– Activation of protective functions
– Calculate (SOC, SOH)
Independent emergency disconnect
Testing
– Safety
– Functionality
14
Part 6 Chapter 2 - Propulsion, power generation and auxiliary systems
DNV GL © 2014
Ungraded
27 January 2016
Sec.1.4.2 Battery test standards
Test of battery cells
– IEC 62619
– UN38.3
– UL1642
Test of Battery System
– IEC 62619
– IEC 62620
15
Part 6 Chapter 2 - Propulsion, power generation and auxiliary systems
DNV GL © 2014
Ungraded
27 January 2016
Sec.1 Battery Power and Dynamic Positioning
Yes
Battery as a synthetic generator
Time dependent redundancy
Battery(power) notation
Updated DP rules
16
Part 6 Chapter 2 - Propulsion, power generation and auxiliary systems
DNV GL © 2014
Ungraded
27 January 2016
SAFER, SMARTER, GREENER
www.dnvgl.com
Classification of Battery Powered Vessels
17
DNV GL Maritime Classification
+47 67578665