Aiming to unify distributed renewable energy, energy storage and smart grid systems – not to mention numerous and varied connected devices and equipment in homes, businesses and industry – microgrids have quickly emerged as a key element of integrated climate-energy policies, programs and investment. Relying extensively on automated machine-to-machine communications, they’re being embedded as key aspects of the Digital Economy.
Deployment of microgrid and other innovative distributed energy technology, for instance, are at the center of the boom in Internet of Things (IoT) technology and investment. ARPA-E in December announced $33 million in NODES (Network Optimized Distributed Energy Systems) funding for 12 projects that aim to develop innovative hardware and software that integrate and coordinate grid generation, transmission and end-use energy systems.
One of the 12 is taking place in Lubbock, Texas, where DNV GL, Group NIRE and Geli (Growing Energy Labs) will use the funds to develop and operate an ¨Internet of Energy¨ (IoEn) platform that integrates management of as many as 100 distributed energy resources (DERs).
The ¨Emerging Internet of Energy¨
In order to demonstrate the value and benefits to utilities, the Lubbock IoEn platform is to support simultaneous market-level regulation and energy-to-grid dispatch from DERs. An association of independent energy experts that also provides third-party certification of DER hardware and software, DNV GL will work with project partners to install Geli’s IoEn platform at Group NIRE’s microgrid test facility in Lubbock.
Incorporating DNV GL’s power system simulation tools and third-party validation, the project team will take a new, scalable approach to quickly register and enable automated dispatch of DERs, the project partners highlight in a news release. These may include wind and solar generation capacity, adaptive residential energy storage systems, electric vehicles (EVs), connected HVAC systems, water heaters and LED lighting controls.
“DNV GL’s core role is to provide greater certainty to power systems planners and grid operators – who will increasingly be called upon to manage massive volumes of distributed energy assets – by validating operational performance and emerging economic models within a real-world, utility-connected microgrid,” Senior Consultant Michael Kleinberg was quoted as saying.
Group NIRE and Texas Tech University were selected by the Center for Commercialization for Electric Technologies (CCET) to deploy a 1MW/1MWH Battery at the Reese Technology Center to be used in connections with Group NIRE’s wind testing and certification site. The battery was commissioned on October 18, 2013.
Reese Technology Center, South Reese Boulevard, Lubbock, TX, United States
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