基本信息
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Career Trajectory
Bio
My students and I utilize hydraulic laboratory experiments, numerical simulations, and post-disaster field surveys to investigate the resilience of structures and infrastructure exposed to both increasing hazard due to climate change and increasing consequences due to expansion of development in coastal and flood-prone areas. This research focuses on four main themes:
Damage: We quantify damage to infrastructure and structures from extreme events such as tsunami, storm surge, and floods. Here, we measure damage and hindcast physical forcing, with the goals of clarifying damage mechanisms, relating damage level to forcing strength and structure type and evaluating proposed countermeasures to damage.
Flood phenomena: We investigate physical flow phenomena that cause damage during extreme events. Since low-probability, high-consequence events such as tsunamis and landfalling Category 5 hurricanes and typhoons are difficult to predict and instrument, data describing their effects are insufficient. We use laboratory experiments, numerical simulations, field measurements and crowdsourced data to investigate extreme flood events.
Countermeasures: We assess the effectiveness of inundation countermeasures such as seawalls, breakwaters, levees, and storm surge barriers on reducing damage to urban areas and risk to individuals. The interaction among engineering and planning with sociology and culture requires investigation in an interdisciplinary manner, to assess how effective countermeasures will be in a given context.
Hydropower: We assess the feasibility of new and retrofit sites, and evaluate technologies, for hydropower and pumped hydro storage. With the proliferation of intermittent renewable energy sources like wind and solar, energy storage is increasingly necessary to meet demand and regulate the grid.
Damage: We quantify damage to infrastructure and structures from extreme events such as tsunami, storm surge, and floods. Here, we measure damage and hindcast physical forcing, with the goals of clarifying damage mechanisms, relating damage level to forcing strength and structure type and evaluating proposed countermeasures to damage.
Flood phenomena: We investigate physical flow phenomena that cause damage during extreme events. Since low-probability, high-consequence events such as tsunamis and landfalling Category 5 hurricanes and typhoons are difficult to predict and instrument, data describing their effects are insufficient. We use laboratory experiments, numerical simulations, field measurements and crowdsourced data to investigate extreme flood events.
Countermeasures: We assess the effectiveness of inundation countermeasures such as seawalls, breakwaters, levees, and storm surge barriers on reducing damage to urban areas and risk to individuals. The interaction among engineering and planning with sociology and culture requires investigation in an interdisciplinary manner, to assess how effective countermeasures will be in a given context.
Hydropower: We assess the feasibility of new and retrofit sites, and evaluate technologies, for hydropower and pumped hydro storage. With the proliferation of intermittent renewable energy sources like wind and solar, energy storage is increasingly necessary to meet demand and regulate the grid.
Research Interests
Papers共 6 篇Author StatisticsCo-AuthorSimilar Experts
By YearBy Citation主题筛选期刊级别筛选合作者筛选合作机构筛选
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主题
期刊级别
合作者
合作机构
Alvaro Prida,Manuel Andres Diaz Loaiza,Jeremy Bricker, Oswaldo Morales, Remy Meynadier,Trang Duong,Rosh Ranasinghe,Arjen Luijendijk
crossref(2020)
crossref(2020)
crossref(2014)
mag(2005)
Cited23Views0Bibtex
23
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Author Statistics
#Papers: 6
#Citation: 123
H-Index: 3
G-Index: 3
Sociability: 2
Diversity: 1
Activity: 10
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- 学生
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