Evidence has shown that owning and operating energy-efficient, high-performance properties is a sound investment strategy that results in multiple financial benefits, including lower utility bills, higher rents, improved occupancy, and greater net operating income (NOI). To overcome difficulties in isolating moderating factors and identifying specific drivers behind sustainability-related improvements in financial performance and value to investors, DOE commissioned this pilot study; designed to test the logistical and empirical procedures required to conduct real estate research and contribute to the existing body of evidence in this field.
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Report by the National Institute of Building Sciences and the Green Sports Alliance looks at ways the nation’s sports venues can make an impact by reducing their energy and water use. The report considers the potential water and energy reductions the U.S. sports sector could make, and highlights the financial savings some leagues and teams are already seeing from putting such efficiency initiatives into place. The report looks at the progress already being made in the nation’s sports venues, challenges to widespread improvement and opportunities to move forward.
In 2016, a project team of representatives from the National Institute of Building Sciences and the Green Sports Alliance began working on this project with input from the U.S. Department of Energy and the U.S. Environmental Protection Agency. The team looked at the existing data; conducted workshops and webinars; launched an industry survey; and interviewed representatives from across the sports industry. More than 125 industry representatives participated in these activities, and an additional 20,000 stakeholders received information on the project. This report compiles that data and sets a path for future implementation.
BenchmarkMyBuilding makes it easy to see how a building's energy consumption compares against peers in terms of dollars, and to make the business case for performance improvement projects. To get started, users simply enter three inputs (building type, building size, and building location) to benchmark their buildings against Energy Star and DOE datasets representative of 68 billion square feet of commercial building space in seconds. If the user inputs optional information on annual energy cost and annual kBTU used, the tool compares the building's energy costs to other buildings of the same exact type, size and location.
This tool was created by Lucid in collaboration with Lawrence Berkeley National Laboratory (LBNL) and the U.S. Department of Energy. Read about the tool in this blog with further details: https://www.energy.gov/eere/buildings/articles/lucid-leverages-doe-tools...
This guide presents an overview of the top energy-savings opportunities in commercial buildings and shows how they can be identified using the type of interval meter analytics offered in EIS technologies or using the automated analytics offered in FDD systems.
With the expansion of advanced metering and increased use of energy analytics tools, the energy efficiency community has begun to explore the application of advanced measurement and verification (or “M&V 2.0”) technologies. Current literature recognizes their promise, but does not offer in-depth assessment of technical underpinnings. This paper assesses the state of the technology and it’s application. Sixteen commercially available technologies were characterized and combined with a national review of their use.
Published in The Electricity Journal 30:8-16