PNM smart grid demonstration project from modeling to demonstration

Abdollahy, S.; Lavrovа, Olga; Mammoli, Andrea; Willard, Steve; Arellano, Brian

doi:10.1109/isgt.2012.6175594

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Renewable Energy Firming2

System Description and Preliminary Analysis1

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Cited by 4 publications

(3 citation statements)

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“…4). PNM has used this site to trial both power smoothing, or ramp limiting, and energy shifting [8].…”

Section: Renewable Energy Firmingmentioning

confidence: 99%

See 1 more Smart Citation

Advanced Lead–Acid Batteries and the Development of Grid-Scale Energy Storage Systems

McKeon¹,

2014

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“…4). PNM has used this site to trial both power smoothing, or ramp limiting, and energy shifting [8].…”

Section: Renewable Energy Firmingmentioning

confidence: 99%

“…The white trace is the PV output, the tan trace is the battery power, and the green trace is the smoothed connection power. Details of the algorithms can be found in [8].…”

Section: Renewable Energy Firmingmentioning

confidence: 99%

Advanced Lead–Acid Batteries and the Development of Grid-Scale Energy Storage Systems

McKeon¹,

2014

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“…A complete model of the feeder is built in GridLAB-D based on the data from PNM's Geographic Information System (GIS). The model is tested and validated against the historical demand and monthly consumption data and is reported in a separate paper [12].…”

Section: System Description and Preliminary Analysismentioning

confidence: 99%

Coordinated Collaboration between Heterogeneous Distributed Energy Resources

Abdollahy

Lavrovа

Mammoli

2014

Journal of Solar Energy

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A power distribution feeder, where a heterogeneous set of distributed energy resources is deployed, is examined by simulation. The energy resources include PV, battery storage, natural gas GenSet, fuel cells, and active thermal storage for commercial buildings. The resource scenario considered is one that may exist in a not too distant future. Two cases of interaction between different resources are examined. One interaction involves a GenSet used to partially offset the duty cycle of a smoothing battery connected to a large PV system. The other example involves the coordination of twenty thermal storage devices, each associated with a commercial building. Storage devices are intended to provide maximum benefit to the building, but it is shown that this can have a deleterious effect on the overall system, unless the action of the individual storage devices is coordinated. A network based approach is also introduced to calculate some type of effectiveness metric to all available resources which take part in coordinated operation. The main finding is that it is possible to achieve synergy between DERs on a system; however this required a unified strategy to coordinate the action of all devices in a decentralized way.

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