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Fiamma Giovacchini_ 通过可互操作、互联的环境降低风电场风险实现综合地面模型的构建和管理.pdf

上传人: Fl****zo 编号:718532 2025-06-22 10页 1.64MB

1、De-risking windfarms with an interoperable,interconnected environment for Integrated Ground Model building and management.13thMarch 2024Fiamma Giovacchini Geologist and Customer Solutions Specialist,Seequent 2024 Seequent,The Bentley Subsurface Company 2024 Seequent,The Bentley Subsurface Company2Sc

2、ene SettingThe Challenges Inflation and interest rates“disproportionately impacted offshore wind,which saw a 50%rise in its LCOEs(Levelised Costs of Energy)from 2021 to 2023.”-Deloitte Research Center for Energy&Industrials,US High costs associated to offshore investigations and installation of offs

3、hore wind arrays Increased size of arrays and turbine&power drive increase lead to increased impact of uncertainty and risk Data can be locked Multidisciplinary teams risk of siloing Lack of interoperability Multiple stakeholders owners,operators,investors,consultants,regulators,insurersThe Need Glo

4、bal expectations for offshore wind capacity to meet clean energy targets for 2030 Speed of growth=pressure on contractors and operators to commission offshore windfarms 2024 Seequent,The Bentley Subsurface Company3What Do We Mean by Integrated Ground Model?The Integrated Ground Model(IGM)at the IJV

5、Investigation Area is the result of iterative integration techniques using a wide range of datasets and processes.The scope for the integrated ground model and digital deliverables includes:Evolutionary geological setting Geophysical units and seismostratigraphy Summary of soil units Integration of

6、geophysical units and soil units for the site to develop soil province maps Geo-risk register Compilation of geodata and GIS formats;3D geological modelEngineering Geological Model(EGM)a comprehensive knowledge framework that allows for the logical evaluation and interpretation of the geological()co

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本文主要介绍了集成地面模型(IGM)在降低海上风电场风险中的重要作用。关键点如下: 1. 海上风电面临挑战:2021至2023年间,海上风电的平准化能源成本(LCOE)上升了50%,受通胀和利率影响较大。 2. IGM定义:基于多种数据集和流程的迭代整合,形成的单一真实源,促进跨学科团队合作。 3. IGM特点:高互操作性、协作过程产物、包含地质、地质技术模型和地灾评估,形成综合知识框架。 4. 海上风电场建模工作流程:整合多种数据,通过中央数据管理平台,实现数据集成和模型构建。 5. 荷兰海岸风电场案例:项目分为四个区域,总面积356平方公里,每个区域可容纳350兆瓦。 6. 创新与开放数据:荷兰企业局提供的开放数据促进了最佳实践的发展。 7. IGM优势:降低设计保守性、改善不确定性理解、减少调查计划延误、消除数据孤岛、提高安全性。 综上所述,IGM通过跨学科协作和数据处理,助力海上风电场降低成本和风险,推动行业快速发展。
"如何降低海上风电风险?" "整合地面模型带来哪些优势?" "海上风电场的数据协作之道?"
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