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Research Tracker

This tool is intended for researchers and program managers to quickly find research projects around the country that are relevant to their work. The four organizations who provided content for this purpose represent the largest energy efficient buildings research portfolios in the country. These organizations each provided the content that they were comfortable sharing publically. Therefore, upon clicking on a particular project, it is possible that certain pieces of content are not present. Where possible, a point of contact is provided so that specific questions can be directed to that person. We welcome your comments! If you would like to provide any feedback on this tool (positive or constructive) please email basc@pnnl.gov.

Showing results 51 - 75 of 218

Development of Isocyanurate-Based Super Insulation at Atmospheric Pressure (SIAP)

The project effort is a two-year development program focused on isocyanurate-based nanofoam for building and industrial applications. The main target of this early stage innovation project is to develop a PIR-based super insulation at atmospheric pressure (SIAP) that (1) can attain an R-12 hrft2F/Btuin (_=12 mW/mK) via creating nanoporous morphology, (2) is mechanically robust and (3) is cost-competitive to the conventional rigid foam boards.

Development of the Industry's First Smart Range Hood

Newport Partners, in partnership with Broan-NuTone, will develop and validate a smart range hood that senses pollutants and automatically operates to remove the contaminants efficiently. The proposed smart range hood will be quiet (<1 sone), five times more energy efficient than todays ENERGY STAR models, and will capture nearly 100% of pollutants.

Dynamically Responsive Infrared Windows Coating

Pacific Northwest National Laboratory will develop a low-cost window coating that allows infrared (heat) penetration in cooler temperatures but switches to reflect infrared waves in warmer temperatures. This coating has the potential to save up to 2.24 quads/year in heating, cooling, and lighting energy use.

Eliminating Plasmon Losses in High Efficiency White Organic Light Emitting Devices for Lighting Applications

University of Michigan - Ann Arbor will develop innovative methods to outcouple the light within OLED devices in order to increase external quantum efficiency. This will be accomplished through nanoscale texturing beneath the anode outside the active region, fabricating sub-anode gratings along with microlens arrays, and top emitting structures with a sub-anode grid coupled with a reflective mirror at the base.

Energy Design and Scoping Tool for DC Distribution Systems

This project will assess the DC power market to understand distribution opportunities, technical and analytical gaps for residential and commercial applications, and inform the analysis, design, and planning capabilities of these loads. The team will extend DOEs open-source whole-building energy modeling tools platformthe EnergyPlus engine and OpenStudio software development kitwith power distribution system modeling capabilities to enable evaluation of energy and economic benefits of AC, DC, and hybrid power distribution systems.

Energy-harvesting, Self-calibrating Wireless Sensors for Improving EE in Buildings

Oak Ridge National Laboratory will develop system-level architecture for a plug-and-play multi-sensor platform, which can utilize peel-and-stick sensors less than a quarter of an inch thick and powered by indoor, high-performance, flexible photovoltaics. By developing sensors that are multi-functional and self-powered, this innovative platform can be adopted and deployed for wider spread energy efficiency of buildings.

Envision Charlotte Project

Envision Charlotte will expand its energy management approaches to more than triple the number of participating buildings. By adding additional participants, Envision Charlotte will continue to foster innovation in conserving energy and reducing operating costs.

Equipment Health Monitoring with Virtual Intelligent Sensing

Oak Ridge National Laboratory will develop a monitoring system capable of identifying opportunities for energy efficiency improvements in buildings. The technology could improve the energy efficiency of buildings by 15% - 25%.

Exploration of Life-Cycle Energy Code Impacts

The New Buildings Institute will work in a variety cities around the country to systematically identify how energy codes and other policy measures influence energy consumption patterns in municipal buildings. The New Buildings Institute will develop a methodology to measure the impact of codes on municipal building portfolios, and provide local governments with tools to identify which buildings are ripe for energy efficiency-related investments.

Fabricate On-Demand Vacuum Insulating Glazings

PPG Industries, Inc. will develop a process to produce cheaper, stronger vacuum insulating glazings (VIGs), which are used to make windows more energy efficient. This process could lead to increased adoption of VIGs in windows, which would lead to significant energy savings.

Financial Management for Retail Energy Efficiency

The Retail Industry Leaders Association will improve energy savings in the retail sector by helping energy managers secure financing for efficiency projects—a key barrier to energy efficiency investment in this sector. This project will result in at least five new replicable energy financial management strategies.

Gas-Fired Absorption Heat Pump

This project is developing a gas-fired absorption heat pump that offers a significant advancement for space and water heating technologies when compared to conventional gas heating technologies (an Annual Fuel Utilization Efficiency (AFUE) of 140% versus 100%, respectively). This heat pump will provide efficient space and water heating for single and multi-family homes in most climate zones.

Georgia and Arkansas Residential Energy Code Field Studies

Southeast Energy Efficiency Alliance will investigate whether investing in statewide building energy code education, training, and outreach programs can produce a significant change in residential building code compliance rates. The results of these activities provide the necessary business case to influence non-government entities, particularly utilities, to make investments in similar programs, which could lead to substantial national energy savings.

Graded Alloy Quantum Dots for Energy-Efficient Solid-State Lighting

Columbia University will use an inexpensive and widely tunable library of quantum dot (QD) synthesis reagents along with automated high-throughput synthesis and analysis tools to grade the alloy composition of QD heterostructures, in order to provide stable and efficient narrow-band red down-converters for LEDs.

Green Appraisals

The Appraisal Foundation (TAF) and the Building Technologies Office (BTO) will work together to enable practicing real estate appraisers to better characterize the value of energy efficient and other green attributes of buildings. TAF will produce documentation that provides voluntary guidance on recognized valuation methods and techniques for valuation professionals.

Hamilton: Flexible, Open Source $10 Wireless Sensor System for EE Building Operation

The University of California-Berkeley and its partner, Building Robotics, will create, evaluate and establish the technical foundations for secure and easy to deploy building energy efficiency applications utilizing pervasive, low-cost wireless sensors integrated with traditional Building Management Systems (BMS), consumer-sector building components, personalized smartphone devices, and powerful data analytics.

Health & Home Performance Initiative

The Health & Home Performance Initiative was established to support DOE's efforts to leverage the healthcare sector as a partner to help increase leads to contractors and ultimately fund portions of appropriate health-focused home performance improvements. In FY17, a literature review demonstrating associations between improved health and home performance services was published. Also in FY17, DOE is developing a roadmap detailing what is needed and what is currently available to facilitate healthcare integration with EE.