IMCA M 103

Question 1

What is a fully operational DP system?

Answer 1

It is a system able to reliably keep a vessel in position and/or heading when working up to the rated environment

Question 2

What does “a safe situation” mean?

Answer 2

means one where the work has or could immediately cease with no
serious consequences from the inability to maintain position and/or heading

Question 3

What are the Dynamic Positioning systems as per IMO circ 1580?

Answer 3

1) Power system;
2) Thruster system; and
3) DP control system.

Question 4

What is the definition of DP equipment class 1 as per IMO MSC.1580 ?

Answer 4

For equipment class 1, loss of position and/or heading may occur in the event of a single fault.

Question 5

What is the definitioof DP equipment class 2 as per IMO MSC.1580 ?

Answer 5

For equipment class 2, a loss of position and/or heading will not occur in the event of a single fault in any active component or system. Common static components may be accepted in systems which will not immediately affect position keeping capabilities upon failure

Question 6

Mention examples of active components or systems

Answer 6

generators, thrusters, switchboards, communications networks, remote controlled valves, etc

Question 7

Mention examples of static components

Answer 7

cables, pipes, manual valves, etc

Question 8

What is the definitioof DP equipment class 3 as per IMO MSC.1580 ?

Answer 8

For equipment class 3, a loss of position and/or heading will not occur in the event of a single fault in any active component or system. A single failure includes:
 items listed above for class 2, and any normally static component assumed to fail
 all components in any one watertight compartment, from fire or flooding
 all components in any one fire sub-division, from fire or flooding.

Question 9

How the station keeping reliability is achieved?

Answer 9

by the use of fault-tolerant DP systems based on the principles of redundancy

Question 10

What is redundancy?

Answer 10

It is the ability of a component or system to maintain or restore its function when a single failure has occurred.

Question 11

How can redundancy be achieved?

Answer 11

by installation of multiple components, systems, or alternative means of performing a function.

Question 12

Why do class societies use FMEA for DP vessels?

Answer 12

To demonstrate the fault tolerance of DP systems, as appropriate to the equipment class of DP, during their design approval process.

Question 13

Report 3 elements that contribute to DP system Reliability

Answer 13

• Planned amintenance
• condition monitoring
• Annual DP trials

Question 14

What is the most effective way to ensure the good reliability of DP system? Provide examples.

Answer 14

Through design.
Exampls: specifying high reliability components, carriage of critical spare parts and reducing the number of fault paths that lead to a loss of redundancy

Question 15

Whot are the Key Elements of Fault-Tolerant Design?

Answer 15

Performance;
Protection;
Detection.

Question 16

Explain Performance?

Answer 16

Equipment intended to provide redundancy should be capable of its rated capacity or that which is assumed to be available in the event of a failure

Question 17

Explain Protection

Answer 17

Protection can be a combination of automatic systems, operator competency assurance and procedural barriers designed to prevent faults transferring between sub- systems of the DP system, with the result that there is a vulnerability to common cause failures.

Question 18

Explain detection

Answer 18

Detection methods should indicate when an essential system is no longer available or no longer has the capacity to carry out its function effectively

Question 19

How can we mitigate the vulnerabilities of common power closed bus tie systems ?

Answer 19

It can be mitigated by using advanced generator protection (AGP) systems which identify and isolate a range of generator faults not covered by standard protection arrangements

Question 20

What are thesupplemental studies that should be considered onf FMEA for vessels operating with closed bus ties?

Answer 20

• Harmonic distortion in the intact case and after the worst-case failure (WCF) of harmonic cancellation features;
• Transient voltage studies;
• Extended protection co-ordination studies covering all protective functions in the DP system, not only those in the electrical protection system including earth fault, voltage dip (caused by short circuit), and active & reactive load failures.

Question 21

What are the key process in testing the redundancy concept?

Answer 21

• Predict
• Prove
• Protect

Question 22

What does “predict” mean for the redundancy processe concept?

Answer 22

– the FMEA needs to be able to predict the failure modes

Question 23

What does “Prove” mean for the redundancy processe concept?

Answer 23

the DP FMEA proving trials needs to demonstrate that the FMEA correctly

Question 24

What does “Protect” mean for the redundancy processe concept?

Answer 24

the redundant systems within the DP system have the performance, protective functions, and detection features to defend the redundancy concept against failure modes

Question 25

Regarding DP testing, how does the performance is tested?

Answer 25

Performances should be demonstrated in both the intact and various failed conditions

Question 26

In DP class 3 vessesl, how are the redundant groups to be separated?

Answer 26

The redundant groups are to be separated by A60 fire subdivisions; watertight separation is required where there is a credible risk of flooding. Separation requirements for the DP control system include the provision of a separate DP control room containing at least one backup DP control system that mirrors the main DP control system and which can be engaged manually.

Question 27

Besides DP control, propulsion, power generation, power distribution, what other systems have to maintain the DP systems level of fault tolerance and redundancy required for the DP equipment class

Answer 27

Auxiliary systems including, but not limited to, fuel oil, lubricating oil, hydraulic oil, sea water cooling, fresh water cooling, HVAC and compressed air are subject to classification society rules and applicable statutory requirements

Question 28

What is the governor responsible for?

Answer 28

active power sharing (kW) and bus frequency control

Question 29

What is the AVR responsible for?

Answer 29

regulate control bus voltage and reactive power sharing (kVAr). Failure of AVRs has been the cause of a significant number of blackouts.

Question 30

How does the generators synchronise?

Answer 30

Each generator should be provided with an independent method of automatic synchronising which has an independent check sync facility.

Question 31

How does The synchronises work?

Answer 31

The synchronises should be capable of connecting a generator during the voltage and frequency variations that follow the loss of a generator to mitigate the risk that surviving generators might not being capable of their rated capacity.

Question 32

What are the types of protections

Answer 32

 Selective protection
 Non-selective protection

Question 33

What is a Selective protection ?

Answer 33

It identifies the source of a fault and isolates it from the power system

Question 34

What is a non-Selective protection ?

Answer 34

It cannot positively identify the source of the fault and simply disconnects circuits to remove exposure to the fault condition

Question 35

What does the selective protection include?

Answer 35

 Short circuit;
 Earth fault.

Question 36

What does the non-selective protection include?

Answer 36

 Over and under-voltage;
 Over and under-frequency;
 Overload (where the entire plant is overloaded);
 Over-speed;
 Over and under-excitation;
 Reverse power;
 Current and voltage unbalance.

Question 37

What is the power system concepts for most of DP Vessels?

Answer 37

Radial designs

Question 38

What is the most commom power distribution system?

Answer 38

DC

Question 39

How does the DC systems work?

Answer 39

the output of AC generators is rectified to DC and fed to a DC distribution system

Question 40

What are the advantages of DC power?

Answer 40

 Reduced fuel consumption and emissions
 Fault currents can be controlled electronically

Question 41

Mention one of the causes of malfunction on power systemss

Answer 41

Harmonic distortion

Question 42

What are the main functions of PMS?

Answer 42

GENERATOR MANAGEMENT AND BLACKOUT RECOVERY

Question 43

What is the most effevtive form of load shedding ?

Answer 43

by variable speed drive (VSD or VFD)

Question 44

Mention the items which the blackout detection should be based on?

Answer 44

independent sources such as :
-voltage transducers,
-blackout relays
- generator circuit breaker status.

Question 45

What types of failures are not acceptable for thrusters?

Answer 45

uncontrolled increase in thrust or change in thrust direction

Question 46

What are the acceptable failures for thrusters

Answer 46

All failures must be fail safe as follows below:
* Fail as set;
* Fail to zero thrust;
* Drive motor trips.

Question 47

What type of Thrsuter failure should be given an unambiguous alarm?

Answer 47

for a command/feedback deviation and not for a wire-break

Question 48

Define VMS

Answer 48

Vessel management systems (VMS) are essentially:
remote control
monitoring and alarm systems for the vessel which include a range of automatic functions, and which may incorporate the PMS

Question 49

Regarding DP control system for smal vessels, inform the 3 thrusters analogue signals

Answer 49

command, feedback and ‘ready for DP’ signals. Larger vessels tend to have a network interface to the thrusters.

Question 50

Explain the minimum requirements for DP class 3 regarding DP controllers

Answer 50

2 controllers at the main DP station and 1 controller at the backup DP station with suitable physical separation between them (typically A60 bulkhead)

Question 51

What is important to know regarding failure on Thruster Control Mode Selector?

Answer 51

1) No failure of the selector system should prevent manual control.
2)The control selector forms a common point between all thrusters
3)failure cannot cause the control mode to transfer from auto DP to another mode

For DP equipment class 3 vessels it is important to ensure no single failure of the control selector switch should cause control to transfer unexpectedly to the backup DP system

Question 52

What is consequence analyser?

Answer 52

It is software function continuously verifying that the vessel will remain in position even if the worst-case failure occurs.

Question 53

What does consequence analyser do?

Answer 53

Provides a warning if the vessel is not able to maintain position and/or heading after a predefined WCF has occurred during current operations and weather conditions. Additionally, the consequence analyser should perform calculations to verify that in the event of a single fault there is sufficient thrust available to maintain position and/or heading.

Question 54

What is expected result to a failure on a extenal interface to DP.

Answer 54

Erroneous signals from position references, vessel sensors and other interfaces should be rejected before they can affect the DP control system

Question 55

Regarding DP class 3 explain how the PRS should be assigned to DP backup system?

Answer 55

at least one position reference must be assigned to the DP backup system.

Question 56

What protection device should be installed on antennas and external sensors?

Answer 56

lightning arresters

Question 57

as per IMCA M 103 how shoud be the power suppply for IJS?

Answer 57

It should be powered from an uninterruptable source of power independent of the DP control system

Question 58

In case of detection of gas or fire ina MODU which areas will have shutdown?

Answer 58

1. ventilation systems, except fans necessary for supplying combustion air to prime movers for the production of electrical power;
2. main generator prime movers, including the ventilation systems for these;
3. emergency generator prime movers

Question 59

What are the design principles for ESD (emergency shutdown) systems on DP vessels?

Answer 59

-Individual shutdown buttons should be provided for each redundant machinery group, interfaced to dedicated field stations for that redundant group.
-There should not be a single overall ESD button
- There should be no cascade function from a higher level to lower levels
- The ESD system should not compromise the redundancy concept
- ESD field stations should be provided in numbers and locations which match the split in the redundancy concept

Question 60

Regarding a vessel DP class 3, what are the 2.22.1 Requirements for Physical Separation?

Answer 60

consider the effect of the loss of all the equipment within one fire subdivision and/or watertight compartment to the effects of fire or flooding

DP class 3 requires physical separation between redundant groups, the separation is to have a specific fire and watertight rating.

Question 61

Regarding 2.22.2 Fault Propagation out of Compartments what is important to know about UPS’s?

Answer 61

UPSs should be designed to withstand a fault current and continue to operate selectively or without an unacceptable voltage dip.

Question 62

What are the IMO Circulars DP vessels should meet in aspects of design according to year of build?

Answer 62

IMO MSC/Circ. 645 and IMO MSC/Circ. 1580

Question 63

How is safety measured on DP Vessels

Answer 63

by the ability to maintain position and /or heading whist in automatic DP control

Question 64

Which IMO Circulars are applicable for a DP vessel built in 2016.

Answer 64

It is applicable IMO circ 645 and section 4 from IMO cir 1580

Question 65

What is associated with the severity of risks of DP operations?

Answer 65

The inability to maintain position and/or heading will vary according to the activity being undertaken

Question 66

IMO MSC.1/Circ.1580 section 4 is applicable for all vessels regardless of year of build. What is the main concept of thsi section?

Answer 66

Th section 4 applies risk-based principles and establishes that DP vessels should be considered in terms of DP equipment class.

Question 67

To whom the may DP documentation shoul be available?

Answer 67

To all revelvante members os the vessel crew (Key DP Personnel)
based technical management and superintendents
CDPA

Question 68

As per IMCA M 103, inform operantion and requirement dada tha should be included on DP documentation

Answer 68

The safe and effective management of the vessel in DP;
The technical suitability of the vessel for each DP activity it is required to carry out;
The configuration for the CAM and the TAM;
The vessel’s station keeping capabilities following WCF
Compliance with appropriate standards and guidelines;
Training and familiarisation material to vessel crews.

Question 69

Inform 5 examples of documents that should be onboard

Answer 69

DP system FMEA (updated since the original study)
DP FMEA proving trials (updated)
Annual DP trials
DP operations manual
Service reports concerning the DP system

Question 70

What is the base date of annual DP trials ?

Answer 70

It Should be carried out within three months before or after each anniversary date of the initial DP FMEA proving trial. This may be changed to align with new DP FMEA proving trials following a major upgrade or conversion

Question 71

What documents normally need Moc process when have Modifications and amendments

Answer 71

DP system FMEA
DP operations manual

Question 72

What document that should be kept onboard permanently?

Answer 72

DP incident reports
IMPORTANT: ALL DP DOCUMENT RELATED TO INCIDENT REPORT MUST BE KEPT ONBOARD AS WELL(EXAMPLE CHECKLIST)

Question 73

Why all DP vessels should undergo trials, tests, and checks ?

Answer 73

to verify their operability, integrity and fault tolerance when operating in DP mode

Question 74

How can we verify the operability, integrity and fault tolerance of a DP vessl?

Answer 74

It should be carried out at regular, pre-planned intervals and should consider the planned industrial missions and WCF of the vessel

Question 75

What is the most rigorous DP testing ?

Answer 75

DP FMEA proving trials

Question 76

What is the purpose of DP FMEA proving trials?

Answer 76

provide evidence of redundancy and fault tolerance

Question 77

What is the difference between FMEA proving trials and commissioning trials

Answer 77

FMEA Proving Trials: provide evidence of redundancy and fault tolerance

commissioning trials: demonstrate that systems and equipment meet the required functional specification

Question 78

What should DP FMEA and proving trials CONFIRM?

Answer 78

-WCF design intent (WCFDI);
-WCF

Question 79

What else DP FMEA and the proving trials should address ?

Answer 79

Identify the subsystems and equipment and modes of operation;
Identify all potential failure modes and their causes;
Identify single point failures;
Identify potential hidden failures;
Identify potential configuration errors;
Evaluate the effects on the DP system of each failure mode

Question 80

What document should The annual DP trials programme should be based on?

Answer 80

DP FMEA proving trials

Question 81

What are the means of conducting the DP trials?

Answer 81

annual or incremental basis

Question 82

What sould be tested during annual DP trials?

Answer 82

All functions on which the redundancy concept depends, including network testing, blackout recovery plans and ESD functions

Question 83

What are the categories of findings from annual DP trials ?

Answer 83

Category A – for immediate attention;
Category B – for action when reasonably convenient;
Category C – for future attention/consideration.

Question 84

Who is responsible for development, conducting and ownership of all annual DP trials ?

Answer 84

the vessel owner/operator

Question 85

When should the DPO repeat the the “DP Field Arrival checklist” when return to the field?

Answer 85

when the vessel returns to the field after an absence of more than 24 hours

Question 86

What is the purpose of the DP Field Arrival checklist?

Answer 86

to ensure satisfactory operation of the DP system

Question 87

How cna planning and control of DP operations be achieved?

Answer 87

by activity operational planning

Question 88

What are the elements od DP activity operational planning?

Answer 88

CAM, TAM and ASOG

Question 89

What is CAM?

Answer 89

Critical Activity Mode : tHE most fault-tolerant configuration for the DP system. For DP class 2 and 3 vessels the CAM will ensure that a single point failure does not exceed the vessel’s identified WCF

Question 90

What is TAM?

Answer 90

Task Appropriate Mode : a risk based operating mode in which the DP vessel may be configured and operated such that a single point failure could result in exceeding the vessel’s identified WCF

Question 91

In case of TAM, can we we just conisder that we can exceed the WCF?

Answer 91

No. A risk assessment should demonstrate that the consequences of exceeding the vessel’s identified WCF are acceptable

Question 92

What is ASOG?

Answer 92

Activity Specific Operating Guidelines: defines the operational, environmental and equipment performance limits for the location and the specific activity the vessel is undertaking

Question 93

What are CAM and TAM are related to?

Answer 93

CAM and TAM are related to system and equipment configurations of DP vessels

Question 94

what elements are CAM, TAM and ASOG are based on to be created?

Answer 94

thorough knowledge of the DP system
DP FMEA
The industrial mission
Vessel location
Risk assessment

Question 95

What does GREEN mean FROM CAM/TAM?

Answer 95

Normal operations – all systems and equipment fully operational, DP verification processes completed, and DP set up confirmed

Question 96

What does BLUE mean FROM CAM/TAM?

Answer 96

Advisory status – where any of the GREEN conditions are not met

Question 97

What is the response for BLUE status in CAM?

Answer 97

Conduct risk assessment to determine whether to continue, change position or cease operations

Question 98

Explain the 4 colors of ASOG

Answer 98

GREEN: operating within acceptable performance limits

BLUE -ADVISORY STATUS: approaching performance limits or reportable alarm status.

Yellow - YELLOW STATUS: Reduced status pre-defined performance limits reached, component or system failure resulting in loss of redundancy

Emergency Status: Pre- defined operational or performance limits exceeded, component or system failure resulting in loss of control or position and or heading, internal or external emergency situation affecting the vessel

Question 99

What is DP Capability Analysis?

Answer 99

It is the capability of the DP vessel to to maintain position and/or heading in defined equipment configurations and environmental conditions should be known; particularly station Keeping capability following its WCF

Question 100

What should DP capability analysis should include?

Answer 100

Fully intact in power generation and thrusters
Loss of most effective thruster(s), after worst case failure.

Question 101

How should the DP Capability Analysis be calculated?

Answer 101

for the intended area of operations and at current speeds of 0kts, 1kt and 2kts and any other expected current speed

Question 102

How are the forces measured on DP capability analysis?

Answer 102

measuring thruster forces against environmental forces

Question 103

How can capability analysis obtain a more accurate result?

Answer 103

By adding dynamic force interaction to the calculation

Question 104

How can DP capability analysis be supplemented?

Answer 104

by real time measurements and observations to develop DP footprint plots

Question 105

What are the best way for key DP personnel to obtain lessons learnt?

Answer 105

Vessels’s emergency training exercises and IMCA’s DP incident reporting

Question 106

What should be considered for the DP emergency exercises?

Answer 106

failure modes identified in the vessel’s DP FMEA

Question 107

How are the station keeping events categorised ?

Answer 107

• DP incident
• DP undesired event
• DP observation

Question 108

What is a DP incident?

Answer 108

A major system failure, environmental or human factor which has resulted in loss of DP capability

Question 109

What is a DP undesired event

Answer 109

A system failure, environmental or human factor which has caused a loss of redundancy and/or compromised DP capability

Question 110

What is a DP observation

Answer 110

An event that has not resulted in a loss of redundancy or compromised DP operational capability but is still deemed worthy of sharing