īoom H, Dekker JN, Elsacker AWV (1987) Dynamic aspects of offshore riser and mooring concepts. īassett K, Carriveau R, Ting SK (2016) Underwater energy storage through application of Archimedes principle. American Petroleum Institute, 4 th edīahaj ABS (2011) Generating electricity from the oceans.
Available from ĪPI RP 17B (2008) Recommended practice for flexible pipe. Results show that the structure of the lazy wave riser is more complex than the catenary riser nevertheless, the former presents better response performance.Ību Dhabi (2016) International renewable energy agency. A sensitivity analysis of the main parameters affecting the lazy wave riser is also conducted. The static and dynamic characteristics of the catenary and the lazy wave risers are analyzed under different environment conditions and internal pressure levels. In this study, numerical models of two kinds of flexible risers, namely, catenary riser and lazy wave riser, are established in OrcaFlex software. Thus, the response characteristics of marine risers are of great importance for the stability and safety of the entire OCAES system. For deep-water applications, a marine riser is necessary for connecting floating platforms and subsea systems.
Offshore compressed air energy storage (OCAES) is a novel flexible-scale energy storage technology that is suitable for marine renewable energy storage in coastal cities, islands, offshore platforms, and offshore renewable energy farms. With the rapid development of marine renewable energy technologies, the demand to mitigate the fluctuation of variable generators with energy storage technologies continues to increase.