Flexible flowlines and risers have been increasingly used for deepwater and ultra-deepwater field applications, partially because of its low submerged weight and better dynamic characteristics comparing to rigid pipelines. The offshore installation of flowline itself is fast. However, its low bending stiffness brings challenges for installation when it contains heavy subsea equipments to be tied-in. Recently we have successfully installed a total of more than 100km flexible flowlines with 24 in-line SLEDs/PLETs in water depth up to 1300m. This paper reflects these subsea equipments installation experience and lessons learnt during the Frade project. In this paper we highlight the installation issues and solutions during the in-line SLEDs and PLETs installation. First we discuss three of the possible installation options. For each option we modeled the whole installation sequence with finite element analysis software tools and analyzed each critical stage to ensure the product and equipment integrity. Based on each option's pros and cons we defined their application scopes. Then we present some of the installation concerns such as current drag forces, rigging snatching loads, SLED-sea floor interaction during landing, etc, their analysis investigation, and adopted solutions. After that we present the high level installation procedures used for offshore installation, including different flowline type and installation scenarios, such as flowline installation with single or multiple in-line SLEDs, flowline initiation with PLET, and flowline laydown with PLET. Some of the lessons learnt are also discussed as well. Finally, the conclusions are drawn. It is concluded that the present SLEDs/PLETs installation methods are effective and efficient, and proven by successful field operations. These methods are also applicable to the tie-in operations of all other similar subsea equipments for flexible flowlines in deepwater fields.
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