Barge Mounted Critical Lift Plan and Barge Retrofit

ESi was originally engaged to develop a critical lift plan for a lift off of an inland waterway barge.  However, over the course of the work, ESi took on additional responsibilities that included calculating the barge stability, verifying the allowable deck pressures, vessel inspection, providing retrofit drawings, and (with ESi’s partner Oceanus Maritime Service, LLC) inspecting the barge retrofits for compliance with ESi’s plan. 

The crane barge was set to work at a wellsite in a well intervention operation.  The primary responsibility of the barge was to lift the intervention equipment onto the wellhead and there were also two additional deck barges to carry supplies for the work. The lift was identified as “critical” requiring an engineered plan, in part, because the crawler crane was mounted on a barge. ESi provided the engineer of record for the critical lift plan. 

 

Our Approach

The crawler tracks of the crane bear onto timbers which then transmit load to the barge deck.  When the crane is balanced, the load spreads evenly over the entire footprint of the track but there are normal service conditions where the load is not balanced and can concentrate at the edges of the tracks. 

Another issue requiring ESi’s attention was the stability of the support barges. Deck barges carry heavy loads at or above their main deck which can impair the barge stability. If the draft and reserve buoyancy are not carefully considered, a barge can become unstable and capsize.

For the critical lift plan, ESi developed a plan template based, in part, on the requirements of the US Army Corps of Engineers (USACE) Safety and Health Requirement Manual (EM 385-1-1) and also the American Society of Mechanical Engineers (ASME) B30 Standard for lifting devices. The plan included reviewing the proposed rigging, load, and site plan and comparing these details to the requirements of the lift and the manufacturer’s load chart. ESi also completed independent verification calculations.

ESi performed hand calculations as well as finite element analysis (FEA) to review the plan. ESi also inspected the barge itself, and in the course of the inspection found cracks and deformations which matched the FEA and necessitated a retrofit. 

The retrofit primarily consisted of increasing the size of the existing deck stiffeners and transverse frames while also replacing damaged deck plating. ESi provided the design drawings and Oceanus verified the shipyard’s work with an industry standard quality check.

The last scope of work involved verifying the stability of the two support barges (not the crane barge that required the retrofit). With the details of the deck loading, ESi developed the vessel hydrostatics, using small angle motions and wall-sided vessel/waterplane interaction assumptions, and compared the intact stability to the applicable criteria. The operations were approved provided the weather and loading envelopes were maintained.

The lift plan was reviewed by the operator’s lift and safety warrant holders and was sealed by ESi’s Professional Engineer. Partnering with Oceanus, ESi was able to provide the engineering and marine surveying support, including sealed engineering drawings, necessary to keep the equipment operating in compliance with the applicable codes and standards.  The critical lift was successfully completed. 

Services Utilized

The Outcome

In a challenging and technically diverse project, ESi and our partner Oceanus provided engineering and marine survey support for crane barge operations.  The work ensured that the critical lift plan and equipment were safe and in compliance with the applicable codes and standards.  

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