Chris Marnay scite author profile

Direct current (DC) power distribution has recently gained traction in buildings research due to the proliferation of on-site electricity generation and battery storage, and an increasing prevalence of internal DC loads. The research discussed in this paper uses Modelica-based simulation to compare the efficiency of DC building power distribution with an equivalent alternating current (AC) distribution. The buildings are all modeled with solar generation, battery storage, and loads that are representative of the most efficient building technology. A variety of parametric simulations determine how and when DC distribution proves advantageous. These simulations also validate previous studies that use simpler approaches and arithmetic efficiency models.This work shows that using DC distribution can be considerably more efficient: a medium sized office building using DC distribution has an expected baseline of 12% savings, but may also save up to 18%. In these results, the baseline simulation parameters are for a zero net energy (ZNE) building that can island as a microgrid. DC is most advantageous in buildings with large solar capacity, large battery capacity, and high voltage distribution.

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A larger role for microgrids

Venkataramanan¹,

Marnay²

2008

IEEE Power and Energy Mag.

221

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An Economic Analysis of Used Electric Vehicle Batteries Integrated Into Commercial Building Microgrids

Beer

Gómez

Dallinger

et al. 2012

IEEE Trans. Smart Grid

158

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Chris Marnay

Integration of distributed energy resources. The CERTS Microgrid Concept

Optimal Technology Selection and Operation of Commercial-Building Microgrids

A simulation-based efficiency comparison of AC and DC power distribution networks in commercial buildings

A larger role for microgrids

An Economic Analysis of Used Electric Vehicle Batteries Integrated Into Commercial Building Microgrids

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