Tyler Phillips scite author profile

This paper will describe a proposed framework for expressing the resilience of hydropower generation and provide initial case studies for three classes of hydropower, run-of-river hydropower, hydropower with reservoirs, and pumped storage hydropower. Hydropower has great flexibility to provide support during and after natural and man-made events that can disrupt critical infrastructure functionality. The concept of the framework provides for consideration of policy and rules, constraints of the water shed and other allocations of water, storage and plant capabilities to produce real and reactive power, and the strength of the delivery network. The paper details a resilience response metric that has inputs of state of storage and plant level constraints on real and reactive power production. Using the definition of resilience, based on maintaining a minimally normal operations, we provide a qualitative assessment of hydropower's ability to address the various time scales comprising the "R"s of resilience.

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A Framework for Evaluating the Resilience Contribution of Solar PV and Battery Storage on the Grid

Phillips

McJunkin

Rieger

et al. 2020

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Dynamic rating of overhead transmission lines over complex terrain using a large-eddy simulation paradigm

2017

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Dynamic Line Rating (DLR) enables rating of power line conductors using realtime weather conditions. Conductors are typically operated based on a conservative static rating that assumes worst case weather conditions to avoid line sagging to unsafe levels. Static ratings can cause unnecessary congestion on transmission lines. To address this potential issue, a simulation-based dynamic line rating approach is applied to an area with moderately complex terrain. A micro-scale wind solver-accelerated on multiple graphics processing units (GPUs)-is deployed to compute wind speed and direction in the vicinity of powerlines. The wind solver adopts the large-eddy simulation technique and the immersed boundary method with fine spatial resolutions to improve the accuracy of wind field predictions. Statistical analysis of simulated winds compare favorably against wind data collected at multiple weather stations across the testbed area. The simulation data is then used to compute excess transmission capacity that may not be utilized because of a static rating practice. Our results show that the present multi-GPU accelerated simulation-based approach-supported with transient calculation of conductor temperature with high-order schemes-could be used as a non-intrusive smart-grid technology to increase transmission capacity on existing lines.

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Review of Design Elements within Power Infrastructure Cyber–Physical Test Beds as Threat Analysis Environments

et al. 2021

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Cyber–physical systems (CPSs) are an integral part of modern society; thus, enhancing these systems’ reliability and resilience is paramount. Cyber–physical testbeds (CPTs) are a safe way to test and explore the interplay between the cyber and physical domains and to cost-effectively enhance the reliability and resilience of CPSs. Here a review of CPT elements, broken down into physical components (simulators, emulators, and physical hardware), soft components (communication protocols, network timing protocols), and user interfaces (visualization-dashboard design considerations) is presented. Various methods used to validate CPS performance are reviewed and evaluated for potential applications in CPT performance validation. Last, initial simulated results for a CPT design, based on the IEEE 33 bus system, are presented, along with a brief discussion on how model-based testing and fault–injection-based testing (using scaling and ramp-type attacks) may be used to help validate CPT performance.

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Tyler Phillips

An Operational Resilience Metric for Modern Power Distribution Systems

A Metric Framework for Evaluating the Resilience Contribution of Hydropower to the Grid

A Framework for Evaluating the Resilience Contribution of Solar PV and Battery Storage on the Grid

Dynamic rating of overhead transmission lines over complex terrain using a large-eddy simulation paradigm

Review of Design Elements within Power Infrastructure Cyber–Physical Test Beds as Threat Analysis Environments

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