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NAESB Ratifies OpenFMB

msinclair@greenenergycorp.com — Thu, 17 Mar 2016 14:12:53 +0000

MARCH 15, 2016

NAESB ANNOUNCEMENT CONCERNING THE OPEN FIELD MESSAGE BUS MODEL BUSINESS PRACTICES

The NAESB Open Field Message Bus (OpenFMB) Model Business Practices, designed to enhance interoperability between proprietary devices on the electric grid, were ratified by the NAESB membership on Monday, March 7, 2016. The OpenFMB project defines a framework that provides a specification for intelligent power systems field devices to leverage a nonproprietary and standards-based reference architecture, which consists of internet protocol (IP) networking and Internet of Things (IoT) messaging protocols and standardized semantic models, to enable communications and peer-to-peer information exchange. The primary focus of the OpenFMB Model Business Practices – which includes business practices, several models, and schemas – is to create a standard framework specification to guide the industry on how OpenFMB devices can be implemented to drive field device interoperability. This NAESB standards development effort was conducted with the support of the Smart Grid Interoperability Panel (SGIP) along with several other groups committed to the successful creation of the OpenFMB architecture.

Driven by a standards development request from Duke Energy and co-chaired by Joe Zhou of Ernst & Young and Stuart Laval of Duke Energy, the NAESB OpenFMB Task Force held its kick off meeting on April 17, 2015 and voted out the OpenFMB recommendation eight months later on December 16, 2015. Numerous entities participated in the meetings and conference calls over the course of this development effort including: National Association of Regulatory Utility Commissioners (NARUC), National Institute of Standards and Technology (NIST), SGIP, Electric Power Research Institute (EPRI), Duke Energy Corp., Ernst & Young, Xtensible Solutions LLC, Omnetric Corp., OATI, Aclara, Olenick & Associates, Florida Power & Light, Big Data Energy, and Balch & Bingham. The approval of the OpenFMB Model Business Practices by the NAESB Retail Markets Quadrant Executive Committee occurred just in time for the OpenFMB live demo that was showcased during the DistribuTECH conference this February. Another successful live demo was presented to the industry at the SGIP Annual Conference at the close of last year.

The OpenFMB Model Business Practices will constitute a new book, RMQ.26, within the Version 3.1 publication of the NAESB Retail Markets Quadrant Model Business Practices. The Version 3.1 publication is scheduled to be published on March 31, 2016. The RMQ.26 OpenFMB Model Business Practices are now available as a final action at the following link: https://www.naesb.org//pdf/ordrform.pdf.

The North American Energy Standards Board (NAESB) serves as an industry forum for the development and promotion of standards which will lead to a seamless marketplace for wholesale and retail natural gas and electricity, as recognized by its customers, business community, participants, and regulatory entities. It is composed of over three hundred corporate members in the energy industry and many more non-member volunteers who contribute to the drafting and adopting of NAESB standards. To learn more about NAESB, go to www.naesb.org, contact Denise Rager (drager@naesb.org) or call 713-356-0060.

Green Energy Corp chosen as part of Oregon Dept of Energy’s…

msinclair@greenenergycorp.com — Wed, 16 Dec 2015 21:25:04 +0000

ODOE Energy Storage Grant to Spur Eugene Water & Electric Board Toward a Cleaner, More Resilient Energy System

12/16/2015
CONTACT: Rachel Wray, 503-689-0294 Jenny Kalez, 503-480-9239 SALEM – The Oregon Department of Energy will award $295,000 in state and federal funds to the Eugene Water & Electric Board for a pilot project that demonstrates energy storage and “microgrid” technology and how it can improve community resiliency and response in emergency situations.EWEB, Oregon’s largest consumer-owned utility, developed the Grid Edge Demonstration project to show how a consumer-owned utility can help increase community resiliency by providing electricity resources when transmission lines and power facilities are down. In disasters such as earthquakes or floods, diverse renewable power supplies can help provide critical services during response and recovery. EWEB’s two-year demonstration project will test local stand-alone electric power, or “microgrid” technology, as well as renewable energy-based storage options, which offer an added benefit of reduced emissions compared to traditional back-up diesel generators. “After a disaster, Oregonians will need reliable access to electricity, potable water, and emergency communications,” said Will Price, EWEB Energy Resource Analyst. “Our demonstration project will test and measure support for three types of community infrastructure, with energy storage for a water and electricity emergency operations hub, a water pump station, and a multi-agency communications site.” The grant is made possible by a joint solicitation from the U.S. Department of Energy’s Office of Electricity Delivery and Energy Reliability, which committed $250,000 in federal funds to the project, and the State of Oregon. ODOE is partnering with Oregon BEST to award an additional $45,000 grant to EWEB and its development partners, Powin Energy and Green Energy Corp. Sandia National Laboratories will provide technical assistance to ensure strong project performance, with support from the Clean Energy States Alliance. “We have a very good team,” said U.S. DOE Program Manager Dr. Imre Gyuk. “The long-term benefits for Oregon, and indeed the entire industry, are outstanding.” EWEB’s proposal achieves all five of ODOE’s priorities for the project, including service reliability and resiliency, and an emphasis on renewable energy integration, high-quality power, grid regulation, and energy demand management. “ODOE is proud to support EWEB’s demonstration project, which will help us understand more about the variety of grid benefits from energy storage and make utilities more resilient in an emergency,” said Mike Kaplan, ODOE Director. “We’re also pleased with the world-class expertise U.S. DOE and Sandia National Laboratories will bring to our state.” ________________________________________________________________________________________________ About the Oregon Department of Energy: The Oregon Department of Energy helps Oregonians improve the energy efficiency of their homes, provides policy expertise to prepare for Oregon’s future energy needs, staffs the Energy Facility Siting Council, provides technical and financial assistance to encourage investments in energy efficiency and renewable energy resources, promotes the cleanup of the Hanford nuclear site, and ensures state preparedness to respond to emergencies at energy facilities.

Navigant Research Leaderboard Report: Microgrid Controls

msinclair@greenenergycorp.com — Tue, 11 Aug 2015 19:35:05 +0000

Assessment of Strategy and Execution for 15 Project Developers/Integrators

with Controls Platforms

Green Energy Corp Chosen as a Partner Within Duke Energy’s Coalition of the Willing 2

msinclair@greenenergycorp.com — Mon, 09 Feb 2015 06:10:04 +0000

:: FOR IMMEDIATE RELEASE ::

Microgrids Drive Duke’s Coalition for Grid-Edge Interoperability

Utility unveils new microgrid plans, 25 new partners, at this week’s DistribuTECH

Jeff St. John
February 2, 2015

For the past few years, giant U.S. utility Duke Energy has been asking grid companies to join its “Coalition of the Willing” — a select group of grid vendors working on standardizing the way a whole host of grid-edge technologies can integrate with each other in the field.

It’s taken awhile, but it appears that Duke’s pitch to the industry is starting to gain traction. At this week’s DistribuTECH conference in San Diego, the utility will unveil the next phase in its grid interoperability work, a microgrid being built at its Mount Holly, N.C. test lab — and a list of coalition partners that’s grown from six to 25.

Duke’s expanded list of partners for what it’s now calling its “COW II” project has lost a few of its original participants. That includes Ambient, the original provider of edge communications nodes for the utility, which went bankrupt last year, as well as Echelon, the former Duke smart meter partners that’s since sold off its smart grid business.

But Duke has added plenty of big smart metering and communications partners, including two already working closely with the utility – Itron and Cisco – to make up for their absence. It’s also brought on an interesting mix of communications, grid control equipment and power electronics vendors, as well as some international partners, like Japan’s ITOCHU, that are involved in distributed energy networking and control.

Here’s the full list of COW II partners:

- ABB- Alcatel-Lucent- AT&T- CalAmp- Cisco

- Elster Solutions

- General Electric (acquiring Alstom)

- Green Energy Corp.

- ITOCHU- Itron- Leidos Engineering- Moxa- National Instruments

- Networked Energy Services

- OMNETRIC Group(Siemens+Accenture)

- Parker Hannifin

- PrismTech- RTI- S&C Electric Company- Schneider Electric- Schweitzer Engineering Laboratories

- Siemens

- Sierra Wireless

- Tollgrade

- Verizon

As for what these new partners will be doing together over the coming year — and how other utilities and vendors can stay abreast of their progress — Duke will be covering the basics during a Wednesday session at DistribuTECH. It has also published the reference design specification to be used in the project (PDF). But many of the details of the point-to-point system integrations that will unfold at Duke’s test site are still open, Jason Handley, director of operations and projects for Duke’s Emerging Technology Office, said in a Friday interview.

“We aren’t exactly sure what some of the underlying use cases are that would come out of the work,” he said. “We didn’t want to pigeonhole anyone, saying, ‘You do this; you do that.’ Maybe two companies that never thought about working together before now can — and that solution will be interoperable.”

There are two rules for participating vendors, though. The first is, “whatever you do has to conform to an open, interoperable messaging protocols,” he said. Those include a data model based on the Common Information Model utility standard, implemented into an open field message bus, which refers to the “field bus” that allows distributed devices to connect via the communications nodes that Duke is deploying as part of its smart meter rollouts.

The second rule is, “you have to implement the DDS protocols,” he said. DDS stands for Data Distribution Service, a secured messaging protocol originally developed by the U.S. Navy to connect shipboard IT systems in a real-time, peer-to-peer network, that’s been put to use in microgrid pilot projectsinvolving coalition partners National Instruments and RTI.

Duke’s test site will incorporate a solar- and battery-powered microgrid, capable of islanding from the grid for short periods of time and running on its own power. Unlike almost all the microgrids now running today, Duke’s will have no backup generators or other spinning power resources — “This is an inverter-only microgrid,” he said.

The test site already has plenty of solar panels, advanced inverters and grid-tied batteries to work with. The utility will be adding new pieces to that puzzle, including a small house where grid-connected water heaters, air conditioners, and other load control devices can be tested, Handley said. “We’re also able to go back up into the grid,” he added. “We’re going to have reclosers, capacitor banks, regulators, line sensors, streetlights, and standard grid hardware, all tied back into the microgrid.”

Duke’s long-range hopes for this grand experiment in multi-vendor interoperability are twofold, he said. “The first goal is to promote interoperability between devices. The second is for Duke to find out if we can potentially offer microgrid services in the future.”

Duke’s Emerging Technology office isn’t commercializing this utility-managed microgrid concept, only seeking to show that it could be technically and economically feasible, he said. “The key is [whether] we can get this many separate vendors to agree to do something in common,” he said.

“We believe through a standardized process, we will be able to implement much faster and at a much lower price,” he said. Just how utilities may play a role in installing, managing or even owning customer-sited energy assets like solar panels, smart inverters or energy storage remains to be seen, of course. But the first step remains to show it can be done.

Jeff St. John

U.S. DOE Selects Microgrid Institute Team to Design and Test Microgrid Systems for Maryland Communities

msinclair@greenenergycorp.com — Fri, 19 Sep 2014 18:25:49 +0000

:: FOR IMMEDIATE RELEASE ::

Washington, D.C.: The U.S. Department of Energy, National Energy Technology Laboratory, on Monday selected a team led by Burr Energy LLC (dba Microgrid Institute) to design, simulate, and test microgrid control systems for two Maryland suburbs served by utility Pepco Holdings Inc.

DOE/NETL is expected to provide approximately $1.2 million in funding assistance for the Olney Town Center Microgrid Project during a two-year period beginning in late 2014. The project team – including Microgrid Institute, Green Energy Corp., Schneider Electric, and FREEDM Systems Center at N.C. State University, with assistance and cooperation from Pepco Holdings Inc. – will design, simulate, and test advanced control systems for community microgrids at Olney (Montgomery County) and Ritchie Station Marketplace (Prince George’s County).

“The Olney Town Center serves as a critical community hub and lifeline,” said Michael Burr, Director, Microgrid Institute. “With a hospital, two schools, police and fire stations, a water tower, and other vital facilities within one square mile, the Olney Town Center is an ideal setting for a resilient community microgrid.”

In addition to modeling a microgrid control system for the Olney Town Center area, the project also will design and simulate a community microgrid centered on the Ritchie Station Marketplace, a multi-use commercial development near the Washington, D.C. beltway.

“Modeling microgrid configurations for two different community scenarios will allow the project team to compare and contrast use cases,” said Steven Pullins, Chief Strategy Officer at Green Energy Corp. “Insight from these comparisons will add substantial value to commercial microgrid product designs.”

Principal roles in project execution include:

Pepco Holdings Inc. (PHI) (Washington, D.C.): Collaborating with the project team, assisting and cooperating on network modeling and system design.
Burr Energy LLC dba Microgrid Institute (Little Falls, Minn.): Serving as prime contractor and project manager, providing advisory support to the project team, and assisting efforts to define microgrid design objectives and use cases, commercial and contracting structures, and regulatory and legal frameworks.
Green Energy Corp. (Eugene, Ore.): Providing the GreenBus® Microgrid controls platform as well as leading the team’s research and development, system planning, and design activities, and leading analysis of test results.
Schneider Electric (LaVergne, Tenn.): Providing power engineering analysis, supporting equipment data and modeling efforts, and contributing key equipment for use in microgrid system integration, analysis, and testing.
The Future Renewables Electric Energy Delivery and Management (FREEDM) Systems Center (Raleigh, N.C.) (National Science Foundation Gen-III Engineering Research Center at North Carolina State University): Leading and executing all microgrid control systems testing, and supporting engineering analysis and test results reporting.

The Olney Town Center project team also enjoys support and encouragement from the Maryland Energy Administration, the Metropolitan Washington Council of Governments, the Montgomery County Council, and the NAI Michael Companies – developer of the Ritchie Station Marketplace. “Such collaborative support will ensure the project serves the priorities of local communities, the state of Maryland, and the nation,” Burr said.

In addition to addressing local energy priorities, the project will pursue key national goals established in the President’s Climate Action Plan, as well as DOE’s Microgrid Program Objectives:

Reduce outage time of critical loads by more than 98%;
Reduce emissions by 20%; and
Improve system efficiencies by more than 20%.

The Olney project complements other collaborative initiatives at Microgrid Institute, such as the Resilient Communities Initiative,which focuses on helping community leaders and stakeholders in strategic planning and execution of community resilience projects centered on local energy infrastructure.

About Microgrid Institute: Microgrid Institute (www.microgridinstitute.org) is a collaborative organization that addresses issues affecting the development of microgrids and distributed energy assets. Efforts focus on market development and analysis, regulatory and financial models, and project feasibility and structuring. Microgrid Institute is an independent initiative of Burr Energy LLC.

Schneider Electric announces partnership with Green Energy Corp

msinclair@greenenergycorp.com — Thu, 17 Jul 2014 20:57:31 +0000

Nashville, TN July 17, 2014 - (PRWEB)

PRESS RELEASE

Schneider Electric and Green Energy Corp Partner to Deliver Standardized Microgrid Solutions

New microgrid solutions provide improved financial optimization of distributed energy resources for corporate, university and government campuses

Schneider Electric, a global specialist in energy management, today announced a partnership with Green Energy Corp to provide standardized microgrid solutions to a wide variety of public and private energy clients in the rapidly growing domestic and international microgrid marketplace. The partnership combines Schneider Electric’s expertise in distributed energy resources and advanced power control with Green Energy Corp’s best-in-class open source Linux tools, including GreenBus 2.0, enabling new control features and improved ROI for customers.

“A key element of our strategy is full-service implementation of microgrids. With North America projected to maintain its global leadership in microgrid capacity and increase its market share to 65 percent of the global market by 2020, now was the right time to join forces to deliver a solution that is positioned to meet this growing demand,” said James Potach, Senior Vice President, Energy and Sustainability Service, Schneider Electric. “Working with Green Energy Corp delivers a complete solution to the microgrid market, enabling Schneider Electric to provide thousands of its existing and new energy customers with options not previously available.”

“Our innovative open source software connects to any and all utility and client systems. That combined with our portfolio of patents and partnership with Schneider Electric – we are now able to create smarter, scalable and repeatable microgrid solutions,” stated Peter Gregory, founder and chairman of Green Energy Corp. “With both companies having an extensive pipeline of projects, the partnership will focus on delivering a complete and standardized microgrid solution including design, development, construction, operations and ownership.”

Schneider Electric has a proven track record having developed and supported more than 250 advanced power control and microgrid deployments across corporate, university and government campuses in the U.S. alone over the last 20 years. Recently listed by Navigant Research as a “Top 5 Company to Watch” in the microgrid marketplace, Green Energy Corp provides extensive engineering support and development toolkits to promote the implementation of smart grid and microgrid technologies. Its GreenBus and Microgrids as a Service (“MaaS”) products are based on open source software, cloud computing and extreme scalability – allowing Green Energy Corp to rapidly deploy microgrids and complete ecosystems.

About Schneider Electric
As a global specialist in energy management with operations in more than 100 countries, Schneider Electric offers integrated solutions across multiple market segments, including leadership positions in Utilities & Infrastructure, Industries & Machines Manufacturers, Non-residential Building, Data Centers & Networks and in Residential. Focused on making energy safe, reliable, efficient, productive and green, the company’s 140,000 plus employees achieved sales of 30.8 billion US dollars (24 billion euros) in 2012, through an active commitment to help individuals and organizations make the most of their energy.

http://www.schneider-electric.com/us

About Green Energy Corp
Green Energy Corp. is a full-service provider of sustainable power, water and agriculture systems (Ecosystems) for localized communities. The company has established an Enterprise Platform comprised of engineering, software technology, financing, construction, operations and maintenance for industrial, commercial and residential based Ecosystems. The foundation of the Ecosystem is the renewable-centric microgrid. The company’s GreenBus™ and Microgrids as a Service (“MaaS”) products are based on open source software, cloud computing, and extreme scalability – allowing Green Energy Corp to rapidly deploy microgrids and complete Ecosystems.

Green Energy Corp merges with Horizon Energy Group

msinclair@greenenergycorp.com — Thu, 04 Apr 2013 07:39:11 +0000

Raleigh, North Carolina - April 4, 2013: Green Energy Corp is pleased to announce its merger with Horizon Energy Group and its sister company Horizon Microgrid Solutions (together Horizon). The transaction closed on March 8, 2013. The merged companies will operate as Green Energy Corp with headquarters in Raleigh, North Carolina. This merger bolsters Green Energy Corp’s position in the rapidly growing microgrid marketplace as Horizon has established itself as a preeminent developer of microgrid solutions. The combined company has the capability to design, build and operate microgrids of any size that provide our customers with sustainable locally produced power. The company is currently engaged in the design, development, and operation of microgrids with utilities, university campuses, commercial and industrial customers and multi-family housing developments.

Microgrids are small-scale power production and delivery systems comprised of distributed generation facilities co-located with the loads they serve. Microgrids incorporate multiple types of energy generation, storage and loads, allowing for high utilization of renewable energy resources, thereby creating economic and environmental benefits to its customers. Microgrids are able to be connected to the Utility grid to purchase power from the grid or sell power back to the grid as conditions dictate. Microgrids can be designed to operate “islanded” when the Utility grid is not available, continuing to provide sustainable power to its local customer base, as observed in the Northeast during Hurricane Sandy.

Green Energy Corp has established an “enterprise platform” to package complete solutions for sustainable management of power, water and agriculture. A key element of our strategy is full-service implementation of microgrids. In addition to building and operating microgrids for our electricity customers, we offer toolsets that enable third party developers to create premier microgrid solutions. Our flagship product, GreenBus®, provides the platform to deliver Microgrids as a Service (MaaS) to the marketplace.

“The combination of Horizon’s expertise in microgrids, the GreenBus® and the enterprise platform enables us to take a lead position in one of the hottest markets today. We are now able to create world-class microgrid solutions optimized to customer specific needs,” stated Peter Gregory, Founder and Chairman of Green Energy Corp.

“In 2010 and 2011 we conducted an extensive analysis for best-in-class software to monitor and control our microgrids. We selected the GreenBus® because of its open source approach, scalability, cloud-based architecture and the experience of the Green Energy Corp team in delivering software to the utility industry,” said Steve Pullins, Founder and CEO of Horizon Energy Group.