Microgrid Study: Energy Security for DoD Installations

Broekhoven, S. B. Van; Judson, Nicholas; Nguyen, Sabrina; Ross, William D.

doi:10.21236/ada565751

Cited by 27 publications

(11 citation statements)

References 3 publications

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“…These concepts are linked to the resilience of the active distribution networks and ancillary services, which give the system the capacity to provide a continuous service despite the occurrence of events [11]. Table 1 shows a summary of the benefits and the related challenges that would guarantee technical sustainability in the isolated or interconnected microgrid mode.…”

Section: Integration Of Distributed Energy Resourcesmentioning

confidence: 99%

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Integration of distributed energy resources in isolated microgrids: the Colombian paradigm

García

Arango-Manrique

Carvajal-Quintero

2018

TecnoL.

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The electrification of rural or isolated areas coupled with increasing environmental concerns have promoted the emergence of Distributed Energy Resources (DER) and the operation by isolated microgrids. However, the integration of such resources involves technical issues related to the reliability and continuity of the electricity supply. Indeed, the uncertainty of renewable generation sources and the reduced inertia of isolated microgrids are challenges for the operation of these distribution systems. One way to address them is by providing ancillary services through all the resources involved in the system’s operation (generation assets, demand share, and storage systems). Accordingly, this paper first presents a literature review of the challenges and potential benefits of integrating DERs into the operation of a distribution system. It also includes some common strategies to mitigate the vulnerability of the introduction of these technologies in microgrids. Afterwards, the current state of each type of resource in Colombia is assessed. Finally, some basic strategies that enhance the benefits of DER integration are outlined along with the overcoming of challenges of microgrid operation in said country. To that end, we consider isolated Colombian regions to be natural laboratories where the effects of DER integration and the requirements for the operation by local production units can be analyzed.

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Section: Integration Of Distributed Energy Resourcesmentioning

confidence: 99%

“…These concepts are linked to the resilience and the ability of isolated microgrids to provide a continuous supply of electricity to connected users despite the occurrence of events in the system (ancillary services) [11].…”

Section: Introductionmentioning

confidence: 99%

Integration of distributed energy resources in isolated microgrids: the Colombian paradigm

García

Arango-Manrique

Carvajal-Quintero

2018

TecnoL.

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“…Traditionally, the DoD has provided energy security with individual backup generators, but recently has begun to examine microgrids, power systems that can purposefully disconnect from the utility grid and operate in an islanded mode, as a more robust and cost-effective solution to long-term power outages [17,18]. As microgrid systems become larger and need to provide more power, they generally have larger generators as a part of their power generation scheme.…”

Section: Study Motivationmentioning

confidence: 99%

Interdependence of the Electricity Generation System and the Natural Gas System and Implications for Energy Security

Judson¹

2013

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“…M ICROGRIDS are most commonly deployed to provide high reliability power to critical or remote end-use loads [1]. This is motivated by a desire for improved power quality or backup generation to increase reliability [1].…”

Section: Introductionmentioning

confidence: 99%

“…This is motivated by a desire for improved power quality or backup generation to increase reliability [1]. Currently, the deployment of microgrids is limited due to the costs of design, construction, and operation.…”

Section: Introductionmentioning

confidence: 99%

Three-Phase Unbalanced Transient Dynamics and Powerflow for Modeling Distribution Systems With Synchronous Machines

Elizondo

Tuffner

Schneider

2016

IEEE Trans. Power Syst.

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Unlike transmission systems, distribution feeders in North America operate under unbalanced conditions at all times, and generally have a single strong voltage source. When a distribution feeder is connected to a strong substation source, the system is dynamically very stable, even for large transients. However if a distribution feeder, or part of the feeder, is separated from the substation and begins to operate as an islanded microgrid, transient dynamics become more of an issue. To assess the impact of transient dynamics at the distribution level, it is not appropriate to use traditional transmission solvers, which generally assume transposed lines and balanced loads. Full electromagnetic solvers capture a high level of detail, but it is difficult to model large systems because of the required detail. This paper proposes an electromechanical transient model of synchronous machines for distribution-level modeling and microgrids. This approach includes not only the machine model, but also its interface with an unbalanced network solver, and a powerflow method to solve unbalanced conditions without a strong reference bus. The presented method is validated against a full electromagnetic transient simulation.

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Microgrid Study: Energy Security for DoD Installations

Cited by 27 publications

References 3 publications

Integration of distributed energy resources in isolated microgrids: the Colombian paradigm

Integration of distributed energy resources in isolated microgrids: the Colombian paradigm

Interdependence of the Electricity Generation System and the Natural Gas System and Implications for Energy Security

Three-Phase Unbalanced Transient Dynamics and Powerflow for Modeling Distribution Systems With Synchronous Machines

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