Hybrid foundations for offshore wind turbines

Nowadays offshore wind turbines represents a valid answer for energy production but with an increasing in costs mainly due to foundation technology required. Hybrid foundations composed by suction caissons over which is welded a tower supporting the nacelle and the blades allows a strong costs reduction. Here a monopod configuration is studied in a sandy soil in a 10 m water depth. Bearing capacity, sliding resistance and pull-out resistance are evaluated. In a second part the installation process occurring in four steps is analysed. considering also the effect of stress enhancement due to frictional forces opposing to penetration growing at skirt sides both inside and outside. In a three dimensional finite element model using Straus7 the soil non-linearity is considered in an approximate way through an iterative procedure using the Yokota empirical decay curves.

Sviluppo dell'ingegneria di cantiere per la realizzazione del deck della piattaforma offshore Eni Fauzia

La tesi tratta di tutti gli studi, le verifiche e le procedure necessarie per realizzare il deck di una piattaforma offshore. Il progetto Eni Fauzia è stato seguito dalla Rosetti Marino Spa di Ravenna, presso il cantiere Piomboni.

Influence of advanced load simulation models on fatigue design of jackets for offshore wind turbines.

Constant developments in the field of offshore wind energy have increased the range of water depths at which wind farms are planned to be installed. Therefore, in addition to monopile support structures suitable in shallow waters (up to 30 m), different types of support structures, able to withstand severe sea conditions at the greater water depths, have been developed. For water depths above 30 m, the jacket is one of the preferred support types. Jacket represents a lightweight support structure, which, in combination with complex nature of environmental loads, is prone to highly dynamic behavior. As a consequence, high stresses with great variability in time can be observed in all structural members. The highest concentration of stresses occurs in joints due to their nature (structural discontinuities) and due to the existence of notches along the welds present in the joints. This makes them the weakest elements of the jacket in terms of fatigue. In the numerical modeling of jackets for offshore wind turbines, a reduction of local stresses at the chord-brace joints, and consequently an optimization of the model, can be achieved by implementing joint flexibility in the chord-brace joints. Therefore, in this work, the influence of joint flexibility on the fatigue damage in chord-brace joints of a numerical jacket model, subjected to advanced load simulations, is studied.

"Offshore tower or platform foundations: numerical analysis of a laterally loaded single pile or pile group in soft clay and analysis of actions on a jacket structure"

Laterally loaded piles are a typical situation for a large number of cases in which deep foundations are used. Dissertation herein reported, is a focus upon the numerical simulation of laterally loaded piles. In the first chapter the best model settings are largely discussed, so a clear idea about the effects of interface adoption, model dimension, refinement cluster and mesh coarseness is reached. At a second stage, there are three distinct parametric analyses, in which the model response sensibility is studied for variation of interface reduction factor, Eps50 and tensile cut-off. In addition, the adoption of an advanced soil model is analysed (NGI-ADP). This was done in order to use the complex behaviour (different undrained shear strengths are involved) that governs the resisting process of clay under short time static loads. Once set a definitive model, a series of analyses has been carried out with the objective of defining the resistance-deflection (P-y) curves for Plaxis3D (2013) data. Major results of a large number of comparisons made with curves from API (America Petroleum Institute) recommendation are that the empirical curves have almost the same ultimate resistance but a bigger initial stiffness. In the second part of the thesis a simplified structural preliminary design of a jacket structure has been carried out to evaluate the environmental forces that act on it and on its piles foundation. Finally, pile lateral response is studied using the empirical curves.

Immagine sismica del margine della piattaforma adriatica nell'offshore croato: implicazioni per la ricerca di idrocarburi

La zona della piattaforma Adriatica, visibile in sismica a sud della costa croato – montenegrina, è stata oggetto di ricerche petrolifere in passato. Nuovi dati sismici hanno permesso la visualizzazione di alcune caratteristiche che saranno esaminate ed interpretate nel presente lavoro. In particolare ci si concentrerà sulla caratterizzazione e sulla differenziazione dei margini incontrati durante il lavoro di interpretazione. In questa fase, sono emerse delle caratteristiche che hanno permesso una revisione del margine della piattaforma Adriatica e del bacino di Budva noti nella letteratura pregressa. Il problema della differenziazione dei margini della piattaforma è stato affrontato sia in chiave tettonica (influenza della subsidenza, inversione di margini ad opera di un Thrust, tettonica ialina, buckling) che in chiave paleoambientale (influenza di venti dominanti) ricoprendo un arco temporale che spazia tra il Triassico superiore ed il Miocene superiore. Grazie alle interpretazioni effettuate e al confronto con la letteratura, saranno proposte, in una seconda fase, alcune situazioni favorevoli all’accumulo di idrocarburi nella zona di studio. Verrà, infine, affrontato il confronto con casi di letteratura inerenti i margini della vicina piattaforma Apula, considerati come margini coniugati della piattaforma Adriatica.

Metodi di posizionamento di strutture offshore

Nel presente elaborato vengono approfonditi i principali metodi di posizionamento attualmente utilizzati, ossia il GPS e il GPS differenziale, con particolare riferimento a strutture posizionate in mare. Gli stessi sono utilizzati per il monitoraggio della subsidenza e dei movimenti tettonici cui le strutture offshore sono soggette, che, essendo movimenti dell’ordine di qualche millimetro all'anno, richiedono accuratezza nelle misure. Nell'ultima parte della tesi si è provveduto ad analizzare una serie di dati, derivanti da rilevamenti GPS, al fine di valutare gli effetti termici sulla struttura emersa di una piattaforma offshore.

Ricerca e produzione degli idrocarburi nell'offshore italiano: aspetti tecnici e sicurezza delle attività

L’energia è uno dei più importanti fattori dello sviluppo di ogni attività sociale ed economica. La carenza o addirittura l’assenza di risorse energetiche nazionali non può che incidere negativamente sullo sviluppo di un Paese. La disponibilità, in particolare, di fonti energetiche fossili da valorizzare accortamente influisce positivamente sulle possibilità di sviluppo socio-economico, industriale ed occupazionale di un Paese e quindi sul benessere sociale, oltre a costituire valida alternativa alla loro importazione con ovvi benefici sulla riduzione o addirittura azzeramento della dipendenza da altri Paesi produttori e quindi sulla bilancia dei pagamenti. A causa delle ridotte potenzialità giacimentologiche, tali che la produzione di idrocarburi liquidi e gassosi si attesti attualmente su valori inferiori al 10% rispetto al fabbisogno energetico, l’Italia è altamente dipendente dall’importazione di combustibili fossili e ha quindi evidente necessità di utilizzare appieno le riserve nazionali di idrocarburi oltre che di incrementare la fase di ricerca nell’ottica di scoperta di nuovi giacimenti che possono reintegrare le riserve prodotte. Gli idrocarburi esistenti nel sottosuolo marino nazionale costituiscono una risorsa che contribuisce apprezzabilmente alla sicurezza energetica del Paese, poiché gran parte della percentuale di produzione nazionale deriva da quanto prodotto nell’offshore italiano. L’industria italiana degli idrocarburi ha avuto da sempre particolare attenzione alla ricerca tecnologica, alla capacità tecnico-professionale, alla cultura mineraria nelle sue diverse diramazioni disciplinari, adottando metodologie operative improntate al rigoroso rispetto della normativa nazionale di settore che si colloca tra le più rigide in campo internazionale, sia per quanto riguarda la sicurezza delle operazioni e degli addetti ai lavori sia la tutela ambientale.

Stress Concentration Factor and Fatigue Life Evaluation in offshore tubular KT-Joints

In the last few decades, offshore field has grown fast especially after the notable development of technologies, explorations of oil and gas in deep water and the high concern of offshore companies in renewable energy mainly Wind Energy. Fatigue damage was noticed as one of the main problems causing failure of offshore structures. The purpose of this research is to focus on the evaluation of Stress Concentration Factor and its influence on Fatigue Life for 2 tubular KT-Joints in offshore Jacket structure using different calculation methods. The work is done by using analytical calculations, mainly Efthymiou’s formulations, and numerical solutions, FEM analysis, using ABAQUS software. As for the analytical formulations, the calculations were done according to the geometrical parameters of each method using excel sheets. As for the numerical model, 2 different types of tubular KT-Joints are present where for each model 5 shell element type, 3 solid element type and 3 solid-with-weld element type models were built on ABAQUS. Meshing was assigned according to International Institute of Welding (IIW) recommendations, 5 types of mesh element, to evaluate the Hot-spot stresses. 23 different types of unitary loading conditions were assigned, 9 axial, 7 in-plane bending moment and 7 out-plane bending moment loads. The extraction of Hot-spot stresses and the evaluation of the Stress Concentration Factor were done using PYTHON scripting and MATLAB. Then, the fatigue damage evaluation for a critical KT tubular joint based on Simplified Fatigue Damage Rule and Local Approaches (Strain Damage Parameter and Stress Damage Parameter) methods were calculated according to the maximum Stress Concentration Factor conducted from DNV and FEA methods. In conclusion, this research helped us to compare different results of Stress Concentration Factor and Fatigue Life using different methods and provided us with a general overview about what to study next in the future.

Global Fatigue Assessment of a Decommissioned Jacket Platform for a Sustainable Reuse as an Offshore Wind Turbine

When the offshore oil and gas supplies exhaust, offshore platforms must be decommissioned and removed. The present thesis highlights the importance of evaluating the possibility of reuse of decommissioned offshore jacket platforms for offshore wind energy. In order to shift to the new structure, the topside must be removed from the substructure and a wind turbine can be installed in its place. The feasibility of this project was investigated using a finite element analysis software called Sesam. To study fatigue life in offshore structures, an exhaustive review of the background and state of the art was done. A finite element model was created by the means of Sesam and two different fatigue analysis approaches were applied and compared. In the end, an analysis methodology is suggested for the structural fatigue analysis of offshore wind turbine structures based on international standards, addressing the industry’s need to account for the combined effect of wind and hydrodynamic loads in these type of structures.

Metocean Climate Impact on the Fatigue Assessment of a Jacket-Type Offshore Platform

When the offshore oil and gas supplies exhaust, most offshore platforms are decommissioned and removed. The purpose of this paper is to evaluate the fatigue damage that will occur during the service life of a jacket-type offshore platform using different fatigue approaches in particular locations. The locations considered for this metocean climate impact study were Norway (North Sea), Portugal (Atlantic Ocean - Leixões) and Italy (Adriatic Sea). A finite element model was created by the means of Sesam and two different fatigue analysis, deterministic and spectral, were applied. For the fatigue assessment, an appropriate description of the site-specific wave environment, during the jacket platform service life, must be accomplished. This description is usually provided by a wave scatter diagram. Wave scatter diagrams usually represent the long-term wave environment during a (typical) year and are based on several years of site-specific data to ensure that they adequately represent the wave environment at the location of the structure. In this thesis, the comparison between these fatigue approaches will serve as a pilot study for planned reliability analysis in decommissioned offshore platforms in order to maximize the reuse of these platforms for future wind generation systems.

Attenuation of thermal radiation from flare through water curtains on offshore platform.

Flaring has been widely used in the upstream operation of the oil and gas industry, both onshore and offshore. It is considered a safe and reliable way to protect assets from overpressure and the environment from toxic gas using combustion. However, there are drawbacks to using flares, such as vibration and thermal radiation. Excessive contact with thermal radiation is harmful to offshore personnel and equipment. Research organizations and companies have invested time and money to combat this. Many technologies have been developed so far to reduce the risk of thermal radiation, one of them being the water curtain system. Several tests were done to see the effectiveness of the water curtain system in mitigating thermal radiation in an offshore environment. Each test varied in the flare output, wind speed, and the size of water droplets size of the water curtain. Later, the results of each test were compared and analyzed. The results showed that a water curtain system could be a solution to excessive thermal radiation that comes from an offshore flare. Moreover, the water curtain with smaller water droplets diameter gives a more favorable result in reducing thermal radiation. These results suggest that, although it offers simplicity and efficiency, designing an efficient water curtain system requires deep study. Various conditions, such as wind speed, flare intensity, and the size of the water droplets, plays a vital role in the effectiveness of the water curtain system in attenuating thermal radiation.

A framework for the environmental risk assessment of offshore carbon storage in CCS systems

Carbon capture and storage (CCS) represents an interesting climate mitigation option, however, as for any other human activity, there is the impelling need to assess and manage the associated risks. This study specifically addresses the marine environmental risk posed by CO2 leakages associated to CCS subsea engineering system, meant as offshore pipelines and injection / plugged and abandoned wells. The aim of this thesis work is to start approaching the development of a complete and standardized practical procedure to perform a quantified environmental risk assessment for CCS, with reference to the specific activities mentioned above. Such an effort would be of extreme relevance not only for companies willing to implement CCS, as a methodological guidance, but also, by uniformizing the ERA procedure, to begin changing people’s perception about CCS, that happens to be often discredited due to the evident lack of comprehensive and systematic methods to assess the impacts on the marine environment. The backbone structure of the framework developed consists on the integration of ERA’s main steps and those belonging to the quantified risk assessment (QRA), in the aim of quantitatively characterizing risk and describing it as a combination of magnitude of the consequences and their frequency. The framework developed by this work is, however, at a high level, as not every single aspect has been dealt with in the required detail. Thus, several alternative options are presented to be considered for use depending on the situation. Further specific studies should address their accuracy and efficiency and solve the knowledge gaps emerged, in order to establish and validate a final and complete procedure. Regardless of the knowledge gaps and uncertainties, that surely need to be addressed, this preliminary framework already finds some relevance in on field applications, as a non-stringent guidance to perform CCS ERA, and it constitutes the foundation of the final framework.