Mismatch Between Bridge & Engine Room Control Cause Vessel Collision

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The UK Marine Accident Investigation Branch (MAIB) has published a Safety flyer relating to a collision between two vessels caused by loss of propulsion control, reports IMCA.

What happened

A fishing vessel lost control of its propulsion system while berthing, and collided with a harbour tug in the port of Hull, UK. The vessel’s bulbous bow breached tug’s hull and starboard fuel tank during the collision, causing the tug to partially sink and resulting in approximately 7,000 litres of marine diesel oil spilling into the dock. The fishing vessel was not damaged. There were no injuries.

The fishing vessel’s propulsion system comprised a single main engine driving a controllable pitch propeller via a clutch and gearbox. The propulsion system could be operated from several stations located in the wheelhouse and from the engine control room (ECR). The loss of control occurred when the propulsion control was passed from the bridge to the ECR with the clutch engaged. At the time of the handover, the bridge propeller pitch lever was set at zero, while the ECR’s propeller pitch lever was set at 100% ahead. The propeller pitch automatically advanced when control was accepted in the ECR, causing the fishing vessel to move forward on the berth.

What went wrong

  • The pitch levers for the fishing vessel’s propulsion control system were not synchronized between the bridge and engine control room when control was transferred. The propulsion control system was not fitted with interlocks to prevent this from happening – these were not required;
  • The fishing vessel’s engineer had not checked that the engine room pitch lever was matched to the bridge pitch setting when control was passed from the bridge to the engine room;
  • There was no procedure for control changeover.

Lessons

The MAIB report drew the following lessons:

  • The interlocks, which were optional, could be retrofitted by the engine manufacturer;
  • Robust shipboard practices are essential to maintain propulsion control during handover, regardless of whether system interlocks are fitted. Documented procedures should contain a requirement for the operator of the sending station and the receiving station to check that propulsion systems pitch settings are synchronized at the time of transfer.
  • To reduce the risk of propulsion thrust being applied inadvertently while alongside the MAIB suggests that it is advisable to declutch engines before transfer of control.

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Source: IMCA