August 7, 2013, 9:19 am
COAST GUARD TERMINATION OF ITS 2 MHZ DISTRESS WATCHKEEPING SERVICE
Effective 01 August, 2013, the U. S. Coast Guard will terminate its radio guard of the international voice distress, safety and calling frequency 2182 kHz and the international digital selective calling (DSC) distress and safety frequency 2187.5 kHz. Additionally, marine information and weather broadcasts transmitted on 2670 kHz will terminate concurrently.
The Coast Guard will continue to maintain a continuous watch on VHF FM channel 16 (156.8 MHz) and on existing voice and DSC frequencies in the 4/6/8/12 MHz bands as described in the Coast Guard Navigation Center website: http://www.navcen.uscg.gov/?pageName=cgcommsCall
August 7, 2013, 9:18 am
UNITED STATES COAST GUARD – MARINE SAFETY ALERT
Inspections and Compliance Directorate
June 17, 2013
Washington, DC
RECENT FAILURES OF DYNAMIC POSITIONING (DP) SYSTEMS ON
MOBILE OFFSHORE DRILLING UNITS
This Safety Alert addresses dynamic positioning incidents resulting in a loss of position on drillships.
A loss of position during a critical activity may result in a loss of well control and severe
consequences including loss of life, pollution, and property damage. Critical activities are those
activities where the consequences of equipment failure or loss of position are greater than under
normal operating circumstances. Two examples would be a MODU conducting well operations with
non-shearables through the blowout preventer (e.g., the blowout preventer's shear ram(s) cannot
shear) or when the time to terminate operations is unacceptable (e.g., the MODU crew cannot
reposition the non-shearable away from the BOP's shear ram in the time required to disconnect).
Recent incidents involving drillship loss of position and emergency disconnects have highlighted the
importance of operating a dynamically positioned drillship within its design limits, ensuring dynamic
positioning competency levels and ensuring appropriate precautions are taken during maintenance
and testing of critical equipment. A loss of position on a dynamically positioned drillship can be
mitigated by following dynamic positioning system guidance published in the ‘‘DP Operations
Guidance Prepared through the Dynamic Positioning Committee of the Marine Technology Society to
aid in the safe and effective management of DP Operations,’ March 2012 Part 2 Appendix 1
(dynamically positioned MODUs), available at:
http://www.dynamic-positioning.com/dp_operations_guidance.cfm .
See our notice in the Federal Register (77 FR 26562) available at:
http://www.uscg.mil/hq/cg5/cg521/docs/DP_FR_Notice_2012-10669.pdf .
In two recent incidents, dynamically positioned drillships lost functional thrusters due to an electrical
disturbance when attempting to reconnect a faulty thruster after maintenance. When the thruster was
reconnected it was not electrically isolated from other thrusters and the thrusters did not “ride through”
the disturbance causing loss of thrust. During these incidents the drillship crews were unable to
restore all functional thrusters and as a consequence these drillships lost position and had to initiate
the emergency disconnect sequence (EDS).
In another incident a dynamically positioned drillship encountered severe weather with high, shifting
winds that caused it to lose position and initiate the EDS. Despite receiving a weather alert for severe
thunderstorms and high winds well before this incident, only half of the available diesel generators
were on line when the storm hit and the DP Operator (DPO) ordered a significant heading change
with a high rate of turn when the drillship began to lose position. The drillship was unable to achieve
the ordered heading or bring all generators online before it lost position and had to initiate the EDS.
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Based on these incidents, the U.S. Coast Guard recommends that owners and operators of
dynamically positioned MODUs operating on the U.S. Outer Continental Shelf:
other key DP personnel. Training programs should maximize use of DP simulators to gain
proficiency in maintaining heading (dynamically positioned drillships) and ensuring equipment
is ready ahead of severe weather, ensuring communications with the drill floor (e.g. use of
“blue advisory”/risk assessment) and re-establishing thrust in emergency situations. (See
Marine Technology Society (MTS) MODU Operations Guidance Section 4.13 and IMCA M
117 Rev.1 Appendix 4).
Operating Guideline per MTS, “DP Operations Guidance” to ensure that the most reliable DP
system configuration is used during critical activities. Develop and utilize a CAMO for any
activity you or your lessee identifies as critical. When developing a CAMO, consider requiring
open bus operation during critical activities to prevent a worst case failure with a potential for
zero thrust in excess of your drift off time to the Point of Disconnect (See MTS DP MODU
Operations Guidance Section 4.8 and Appendix C “Example of a CAMO”, “Power
Distribution”).
o It may be possible to make a common power system fully fault tolerant in respect of
single failure criteria for DP Class 2 and DP Class 3. However, in such designs fault
tolerance depends on a very comprehensive range of protective functions and on many
items of equipment being able to perform to capacity. Operating the power plant as
two or more independent power systems reduces dependence on protective functions
and vulnerability to hidden failures. It does not remove all common points between
redundant systems. The potential to lose one part of the system is higher but the
potential to lose the complete system is reduced (See MTS “DP Vessel Design
Philosophy Guidelines” Section 10.8).
disturbance. This testing should indicate how the system will react during a significant bus
disturbance such as a short circuit on the main switchboard. Where ride-through capability is
an essential part of the DP redundancy concept it should be proven by live short circuit and
ground fault testing per Section 9.2.5 of the MTS “DP Vessel Design Philosophy Guidelines”.
This testing should be incorporated into the vessel DP Proving Trial (5-year).
drives, motor controllers, etc.) as part of a preventative maintenance program to provide early
detection of faulty or loose connections.
This Safety Alert is provided for informational purposes and does not relieve any foreign or domestic
requirement. Developed by the Coast Guard Outer Continental Shelf National Center of Expertise.
For additional information contact Commander James Rocco: james.v.rocco@uscg.mil .
Distributed by the Office of Investigations and Casualty Analysis: http://Marineinvestigations.us
To subscribe:kenneth.w.olsen@uscg.mil
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August 7, 2013, 9:17 am
Navigation Restoration Team: A 'dry run' Navigation Restoration Conference Call was held on Tues, 11 June 2013.
August 7, 2013, 9:14 am
Mariners: Improve Your Chances of Survival When Abandoning Ship
Good preparation and proper use of safety equipment is key
The problem
The NTSB recently investigated an accident that required the crew to abandon a weather-damaged liftboat in near-hurricane-force conditions.1 Several problems leading up to and during the vessel abandonment negatively impacted the 10 crewmembers’ probability of survival once they were in the water, and four of them died as a result:
1 Personnel Abandonment of Weather-Damaged US Liftboat Trinity II, with Loss of Life, Bay of Campeche, Gulf of Mexico, September 8, 2011. The report is available at www.ntsb.gov, under report number NTSB/MAR-13/01.
The company hurricane plan did not account for rapidly and locally developing low pressure weather systems. This reduced the crewmembers’ ability to properly plan for the developing storm and to make an early decision to leave the vessel through routine means before the onset of the storm.
The vessel had recently been equipped with two new inflatable throw-over-type liferafts. However, the liferafts were inflated on deck instead of in the water when the crew prepared to abandon the vessel. This led to the liferafts blowing away from the vessel and vanishing in the high winds and seas. The crewmembers ended up clinging to a lifefloat, which, unlike the liferafts, did not provide out-of-water flotation, shelter from the elements, and nonperishable food and drinking water.
Although the crewmembers had gathered additional food, drinking water, and other supplies while preparing to evacuate, they failed to take these with them.
The vessel was equipped with an emergency position indicating radio beacon (EPIRB), which if activated would have quickly alerted authorities and narrowed the search area. However, the crewmembers did not take the EPIRB with them when they abandoned the vessel. As a result, they spent 3 days in the water before search and rescue assets were able to locate them.
What can mariners do?
Develop and execute a thorough weather preparedness plan. Ensure that your plan takes into account surface low pressure systems, nontropical storms, and other weather systems that may form rapidly and locally. (For example, not all hurricanes approach from the east.)
Ensure you know how to use safety equipment. Don’t wait until a real emergency to find out whether you know how to properly use lifesaving equipment. Instead, include in your regular weekly or monthly drills a thorough step-by-step assessment of all such equipment, especially liferafts, which can’t actually be deployed during drills.
Plan before evacuating. Before an emergency, ensure you know your assigned duties and responsibilities―such as who’s bringing what supplies―and ensure the responsible person is aware of the location of those items.
Drill as if it is a real emergency. Conducting realistic drills gets the attention of crewmembers, builds their confidence and proficiency in emergency response procedures, and reinforces a strong safety culture. Review drill performance with crew to identify areas for improvement.
Even in coastal waters, plan for the worst. Despite being close to shore and/or in a normally high-traffic waterway, don’t assume that others will be able to come to your immediate aid, especially if your location changes. Be physically and mentally prepared for the possibility of a prolonged exposure situation.
Follow your plan. In emergency situations involving high stress and exhaustion, ensure all aspects are covered by running through step-by-step emergency procedures in accordance with established checklists. Use shoreside support resources to assist you with this.
Don’t forget the EPIRB. The EPIRB is a vital piece of equipment that can significantly shorten the time necessary to locate and rescue you. Take it with you! In addition, carry a personal locator beacon (PLB); it is an inexpensive and effective device.
Stay together in the water. Search and rescue personnel will more easily spot a group of people in the water than dispersed swimmers.
The complete investigation report is available here: http://www.ntsb.gov/doclib/reports/2013/MAR1301.pdf
NTSB feels that this safety alert stems from and relates to a liftboat operation, the recommendations are very important to the broad spectrum of all commercial, offshore, deep sea, recreational boating, and other types of seagoing and coastal water operations.