Beyond the Gale: Parametric Insurance Pricing for Offshore Wind: Applications of Hierarchical Bayesian Methods, Markov Chain Monte Carlo and Copula-Based Risk Assessment on Zero Generation Events
Master thesis
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https://hdl.handle.net/11250/3129436Utgivelsesdato
2023Metadata
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- Master Thesis [4380]
Sammendrag
This thesis introduces an innovative pricing model for parametric insurance of zerogeneration
events at offshore wind farms, mainly focusing on the Norwegian shelf. The
model employs a Hierarchical Bayesian approach to analyze the variability of these events,
leveraging historical data. The research uses Markov Chain Monte Carlo simulations
to estimate posterior Gumbel distributions for zero generation events on both monthly
and regional scales. A significant aspect of the study involves using copulas to model
co-dependency between wind farms within a portfolio, and employing Value-at-Risk and
Expected Shortfall metrics for risk assessment.
A crucial finding is the heightened risk in insuring portfolios of geographically proximate
wind farms due to co-dependency, evident in increased premiums and risk metrics.
Additionally, the thesis explores the impact of co-dependency on insurance premiums,
noting a trend reversal in premiums based on a trigger event threshold. The research
concludes that insurance companies can effectively utilize this pricing strategy for insuring
multiple wind farm locations, encouraging offshore wind sector investment by securing
operator revenue streams.