Abstract
Financial stakeholders in offshore wind farm projects require predictions of energy production capacity to better manage the risk associated with investment decisions prior to construction. Predictions for early operating life are particularly important due to the dual effects of cash flow discounting and the anticipated performance growth due to experiential learning. We develop a general marked point process model for the times to failure and restoration events of farm subassemblies to capture key uncertainties affecting performance. Sources of epistemic uncertainty are identified in design and manufacturing effectiveness. The model then captures the temporal effects of epistemic and aleatory uncertainties across subassemblies to predict the farm availability-informed relative capacity (maximum generating capacity given the technical state of the equipment). This performance measure enables technical performance uncertainties to be linked to the cost of energy generation. The general modeling approach is contextualized and illustrated for a prospective offshore wind farm. The production capacity uncertainties can be decomposed to assess the contribution of epistemic uncertainty allowing the value of gathering information to reduce risk to beexamined.
Highlights
Global operational offshore wind capacity reached over 21 GW in 2019 with a new build program reported to be over 100 GW (Global Offshore Wind Report, 2019)
& Staid and Guikema (2015) highlight the need to analyze the risks to offshore wind farms in view of the increasing importance of wind power within the global energy portfolio
In proposing an integrated approach to risk analysis motivated by the U.S context, Staid and Guikema (2015) identify the need for existing projects to be economically and technically successful to encourage a willingness to invest in future offshore wind developments
Summary
Global operational offshore wind capacity reached over 21 GW in 2019 with a new build program reported to be over 100 GW (Global Offshore Wind Report, 2019). The United Kingdom has the largest market share with almost 8.5 GW of operational capacity and a new build program of nearly 30 GW. The United States has one operational 30 MW offshore wind project and is regarded as an emerging market with 14.5 GW of projects at different stages of maturity (Global Offshore Wind Report, 2019). & Staid and Guikema (2015) highlight the need to analyze the risks to offshore wind farms in view of the increasing importance of wind power within the global energy portfolio. In proposing an integrated approach to risk analysis motivated by the U.S context, Staid and Guikema (2015) identify the need for existing projects to be economically and technically successful to encourage a willingness to invest in future offshore wind developments
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