Press Release Summary:
Used on its own campus, NREL'sÂ open-source system stores, integrates, and aligns energy-related time-series data.Â Energy DataBus can collect data from control systems using BACNet protocol, from electrical meters via ModBus protocol, and from weather sensors via web requests to on-site weather station. Suitable for single buildings as well as large campuses, software can store large amounts of data collected at high frequencies, and integrate data into single database.
Original Press Release:
NREL Offers an Open-Source Solution for Large-Scale Energy Data Collection and Analysis
The Energy Department's National Renewable Energy Laboratory (NREL) is launching an open-source system for storing, integrating, and aligning energy-related time-series data. NREL's Energy DataBus is used for tracking and analyzing energy use on its own campus. The system is applicable to other facilities--including anything from a single building to a large military base or college campus--or for other energy data management needs.
Managing and minimizing energy consumption on a large campus is usually a difficult task for facility managers: There may be hundreds of energy meters spread across a campus, and the meter data are often recorded by hand. Even when data are captured electronically, there may be measurement issues or time periods that may not coincide. Making sense of this limited and often confusing data can be a challenge that makes the assessment of building performance a struggle for many facility managers.
The Energy DataBus software was developed by NREL to address these issues on its own campus, but with an eye toward offering its software solutions to other facilities. Key features include the software's ability to store large amounts of data collected at high frequencies--NREL collects some of its energy data every second--and rich functionality to integrate this wide variety of data into a single database.
"The data gathered by NREL comes in different formats, at different rates, from a wide variety of sensors, meters, and control networks," says Keith Searight, development manager of the Energy DataBus. "The Energy DataBus software collects all this data and aligns it within one scalable database."
Existing energy data systems tend to be designed for particular applications such as reporting or control and do not provide general data-analysis interfaces flexible enough for NREL's requirements. But rather than creating a new solution from the ground up, NREL built the Energy DataBus on existing open-source software products that are used to manage complex data problems in other industries. The Energy DataBus supports the popular Cassandra database and PlayORM, which facilitates the easy integration of widely varying data. PlayORM provides the Energy DataBus with the capabilities it needs to interact with many types of data, including time-series, textual, or numerical data.
NREL has developed tools that allow the Energy DataBus to collect data from control systems using the BACNet protocol, from electrical meters via the ModBus protocol, and from weather sensors via web requests to an on-site weather station. The flexibility of the Energy DataBus Web API has made all of these systems easy to integrate together. Additionally, the Energy DataBus software incorporates tools that help assure the highest quality of data in the database.
"No matter what you do, when you start collecting data off meters, you get bad data, you get data dropouts, you get all sorts of issues," Searight explains. "So we created some tools to clean and pull out relevant information from the datasets--including such things as filling in missing data and identifying bad data in the system. Being able to mine the data and perform some analytics on it helped us pinpoint where potential issues were with some of the control strategies in our buildings."
The Energy DataBus can operate at widely varying scales and can be integrated into small desktop applications and run on a laptop or virtual machine with only a few gigabytes of RAM. On the other hand, Energy DataBus was designed to support cloud architecture and can be scaled to hundreds or possibly thousands of nodes across the globe. For instance, NREL currently runs its production version of Energy DataBus with 12 database nodes on high-performance servers and four webserver nodes on virtual machines. However, for development, the team uses a version that runs in memory on a laptop.
To employ the Energy DataBus, other facilities would need to connect their existing data collection systems with it and then configure it to meet their particular needs. But NREL has found that it's worth the effort. Already, a team at NREL has developed an application that uses the Energy DataBus to provide data to a set of "energy dashboards," allowing anyone on site to monitor the energy performance of the NREL campus. Through providing such information to staff, the task of minimizing energy use falls on each person instead of just the facility managers. Another team at NREL has developed an app that allows building occupants to report their comfort levels. More apps are in the works.
For software developers, the Energy DataBus software is now available for free download. For more information on how to obtain, test, and implement the Energy DataBus software, contact Keith Searight and the Energy DataBus team at DataBus@nrel.gov or visit the Energy DataBus home page.
NREL is the U.S. Department of Energy's primary national laboratory for renewable energy and energy efficiency research and development. NREL is operated for the Energy Department by The Alliance for Sustainable Energy, LLC.
Visit NREL online at www.nrel.gov
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