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Technology
Applying offshore oil & gas technology
to offshore wind Low oil prices, decarbonisation and new offshore wind technologies herald a new era for the offshore oil and gas industry, says Anne-Marie Walters, industry marketing director, Oil and Gas and Manufacturing at Bentley Systems. VER THE PAST five years the offshore oil and gas industry has taken a beating, with low oil prices forcing many owners to rethink their capital investment projects. As a result, they are driving their engineering supply chain to look elsewhere for new business. One of these areas has been the offshore wind industry, where the skills developed over the past 40 years to deliver a thriving offshore oil and gas industry have been applied to solve the challenges of the offshore wind farm industry. One such example of an engineering company that has successfully reskilled its workforce for offshore wind is Keystone Engineering. Their journey began in the early part of the 21st century, with the end of the oil boom in the Gulf of Mexico. At that time, oil producers were turning to smaller, less expensive structures that could cost effectively exploit smaller reserves in shallow waters. These structures needed to be built and installed quickly and easily, allowing for more gas or oil to be extracted in a shorter timeframe. The Inward Batter Guide Structure (IBGS) is an example of this type of structure. In early 2001, Louisiana-based Keystone Engineering had submitted its first IGBS design for construction for applications offshore of Nigeria in the Oyot field.
The process helped optimise the design of the total structure and ensure safe operation.” Keystone’s IBGS, also called the “twisted jacket,” foundation was first installed (via liftboat) in the Gulf of Mexico in March 2005. That summer this structure took a direct hit from Hurricane Katrina, but as this devastating hurricane passed through the West Delta field in Louisiana, the IBGS
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Issue 3 2020
Image Credit: Bentley Systems
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The skills developed over the past 40 years to deliver a thriving offshore oil and gas industry have been applied to solve the challenges of the offshore wind industry.
structure was not damaged. Nowadays, Keystone is bringing its offshore oil expertise to the emerging offshore industry in the USA by providing engineering design and consulting services to the Block Island Wind Farm project in Rhode Island. The project was the first commercial offshore wind farm in the country.
Simulating the Block Island wind farm The Block Island wind farm is situated off the coast of Rhode Island in the USA and went online in late 2016. This US$290mn project uses five 6MWGE wind turbines that are supported by Keystone-designed substructures, giving it a total capacity of 30MW. Keystone designed the substructures by adapting the IBGS steel jacket foundations used in the oil and gas industry as the design basis for the deep-water wind turbine support structures. To help model the engineering, Keystone used Bentley’s SACS offshore engineering
software to produce an alternative to typical offshore monopile concrete foundations, which are limited to shallower water depths and smaller wind turbines. The integration of offshore engineering software with DNV GL’s Bladed, a wind turbine simulation tool, enabled Keystone to incorporate load models from the turbine generator designer. The process helped optimise the design of the total structure and ensure safe operation under a wide range of weather conditions, including tropical storms, maximising revenue from the wind farm. By carrying out thousands of load simulations, the foundation is designed to withstand the 100-year flood, and far less steel was required than what is used with a comparable foundation.
Engineering software supports the clean energy transition For more than 40 years, the world’s offshore engineers have used advanced engineering software, such as SACS, for the design,
