RAPID: Collaborative Research: Extension of the ADCIRC Coastal Circulation Model for Predicting Near Shore and Inner Shore Transport of Oil from the Horizon Oil Spill

RAPID：合作研究：ADCIRC 沿海环流模型的扩展，用于预测地平线漏油中的近岸和内岸石油输送

• 批准号: 1042318
• 负责人: Clinton Dawson
• 金额: $ 4.18万
• 依托单位: University of Texas at Austin
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2010
• 资助国家: 美国
• 起止时间: 2010-06-01 至 2011-05-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1042318&HistoricalAwards=false
• 关键词: RAPID; Collaborative; Research; Extension; ADCIRC

This Grant for Rapid Response Research (RAPID) will employ modeling and simulation based research which, if successful, will assist in a more effective emergency response to the Horizon oil spill catastrophe. In particular, the proposal complements satellite imagery and in situ observational tracking with 3-D computational modeling and simulation in order to accurately predict the movement of the oil plume associated with the very recent, massive and continuing Deepwater Horizon oil spill. To date, both movement and quantity of the oil has been largely unpredictable hampering optimal use of available resources to contain, mitigate and clean up the oil. Given the current 200,000-2,000,000 gallon/day estimate, the longevity of the oil in seawater will require a sustained response.There are five research topics which will be pursued incrementally over the next twelve months: linking existing high resolution coastal circulation and wave models with an unstructured grid particle model (representing the spill movement); moving the linked models from 2D to 3D; refining the model based on real time observational data; optimizing the model to allow graphic output concurrent with model runs; introducing hurricane implications into the combined coastal model. Each individual topic as it is implemented, will improve predictability of the oil movement as it approaches shoreline.In addition to the direct benefit of damage mitigation with improved oil tracking and prediction, the research from this award will have sustained value. The new simulation capabilities will be incorporated into existing coastal models, particularly those of the Gulf of Mexico, potentially giving benefit to any future emergency involving shoreline ecosystems.

快速反应研究（RAPID）将采用基于建模和模拟的研究，如果成功，将有助于对地平线石油泄漏灾难进行更有效的应急响应。 特别是，该提案用三维计算建模和模拟来补充卫星图像和现场观测跟踪，以便准确预测与最近发生的大规模和持续的深水地平线石油泄漏有关的石油羽流的移动。 迄今为止，石油的流动和数量在很大程度上无法预测，妨碍了对现有资源的最佳利用，以遏制、减轻和清理石油。 鉴于目前估计的200，000 - 2，000，000加仑/天，海水中石油的寿命将需要持续的应对措施。在未来12个月内，将逐步开展五个研究课题：将现有的高分辨率沿海环流和波浪模型与非结构化网格粒子模型相结合（表示泄漏运动）;将链接的模型从二维移动到三维;根据真实的时间观测数据改进模型;优化模型，使图形输出与模型运行同时进行;将飓风影响引入组合沿海模型。 每一个单独的主题，因为它是实施，将提高石油运动的可预测性，因为它接近海岸线。除了直接利益的损害减轻与改善石油跟踪和预测，从这个奖项的研究将具有持续的价值。 新的模拟能力将被纳入现有的沿海模型，特别是墨西哥湾的沿海模型，这可能有利于今后任何涉及海岸线生态系统的紧急情况。